column('zip')
)
-class SQLTest(PersistTest):
- def runtest(self, clause, result, dialect = None, params = None, checkparams = None):
- c = clause.compile(parameters=params, dialect=dialect)
- print "\nSQL String:\n" + str(c) + repr(c.get_params())
- cc = re.sub(r'\n', '', str(c))
- self.assert_(cc == result, "\n'" + cc + "'\n does not match \n'" + result + "'")
- if checkparams is not None:
- if isinstance(checkparams, list):
- self.assert_(c.get_params().get_raw_list() == checkparams, "params dont match ")
- else:
- self.assert_(c.get_params().get_original_dict() == checkparams, "params dont match" + repr(c.get_params()))
-
-class SelectTest(SQLTest):
+class SelectTest(SQLCompileTest):
def test_attribute_sanity(self):
assert hasattr(table1, 'c')
assert not hasattr(table1.alias().c.myid, 'c')
def testtableselect(self):
- self.runtest(table1.select(), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable")
+ self.assert_compile(table1.select(), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable")
- self.runtest(select([table1, table2]), "SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, \
+ self.assert_compile(select([table1, table2]), "SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, \
myothertable.othername FROM mytable, myothertable")
def testselectselect(self):
"""tests placing select statements in the column clause of another select, for the
purposes of selecting from the exported columns of that select."""
s = select([table1], table1.c.name == 'jack')
- self.runtest(
+ self.assert_compile(
select(
[s],
s.c.myid == 7
"SELECT myid, name, description FROM (SELECT mytable.myid AS myid, mytable.name AS name, mytable.description AS description FROM mytable WHERE mytable.name = :mytable_name) WHERE myid = :myid")
sq = select([table1])
- self.runtest(
+ self.assert_compile(
sq.select(),
"SELECT myid, name, description FROM (SELECT mytable.myid AS myid, mytable.name AS name, mytable.description AS description FROM mytable)"
)
[table1],
).alias('sq')
- self.runtest(
+ self.assert_compile(
sq.select(sq.c.myid == 7),
"SELECT sq.myid, sq.name, sq.description FROM \
(SELECT mytable.myid AS myid, mytable.name AS name, mytable.description AS description FROM mytable) AS sq WHERE sq.myid = :sq_myid"
myothertable.othername AS myothertable_othername FROM mytable, myothertable \
WHERE mytable.myid = :mytable_myid AND myothertable.otherid = mytable.myid"
- self.runtest(sq.select(), "SELECT sq.mytable_myid, sq.mytable_name, sq.mytable_description, sq.myothertable_otherid, \
+ self.assert_compile(sq.select(), "SELECT sq.mytable_myid, sq.mytable_name, sq.mytable_description, sq.myothertable_otherid, \
sq.myothertable_othername FROM (" + sqstring + ") AS sq")
sq2 = select(
use_labels = True
).alias('sq2')
- self.runtest(sq2.select(), "SELECT sq2.sq_mytable_myid, sq2.sq_mytable_name, sq2.sq_mytable_description, \
+ self.assert_compile(sq2.select(), "SELECT sq2.sq_mytable_myid, sq2.sq_mytable_name, sq2.sq_mytable_description, \
sq2.sq_myothertable_otherid, sq2.sq_myothertable_othername FROM \
(SELECT sq.mytable_myid AS sq_mytable_myid, sq.mytable_name AS sq_mytable_name, \
sq.mytable_description AS sq_mytable_description, sq.myothertable_otherid AS sq_myothertable_otherid, \
dialect = mssql.dialect()
q = select([table1.c.myid], order_by=[table1.c.myid]).alias('foo')
crit = q.c.myid == table1.c.myid
- self.runtest(select(['*'], crit), """SELECT * FROM (SELECT mytable.myid AS myid FROM mytable ORDER BY mytable.myid) AS foo, mytable WHERE foo.myid = mytable.myid""", dialect=sqlite.dialect())
- self.runtest(select(['*'], crit), """SELECT * FROM (SELECT mytable.myid AS myid FROM mytable) AS foo, mytable WHERE foo.myid = mytable.myid""", dialect=mssql.dialect())
+ self.assert_compile(select(['*'], crit), """SELECT * FROM (SELECT mytable.myid AS myid FROM mytable ORDER BY mytable.myid) AS foo, mytable WHERE foo.myid = mytable.myid""", dialect=sqlite.dialect())
+ self.assert_compile(select(['*'], crit), """SELECT * FROM (SELECT mytable.myid AS myid FROM mytable) AS foo, mytable WHERE foo.myid = mytable.myid""", dialect=mssql.dialect())
def testmssql_aliases_schemas(self):
- self.runtest(table4.select(), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable")
+ self.assert_compile(table4.select(), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable")
dialect = mssql.dialect()
- self.runtest(table4.select(), "SELECT remotetable_1.rem_id, remotetable_1.datatype_id, remotetable_1.value FROM remote_owner.remotetable AS remotetable_1", dialect=dialect)
+ self.assert_compile(table4.select(), "SELECT remotetable_1.rem_id, remotetable_1.datatype_id, remotetable_1.value FROM remote_owner.remotetable AS remotetable_1", dialect=dialect)
# TODO: this is probably incorrect; no "AS <foo>" is being applied to the table
- self.runtest(table1.join(table4, table1.c.myid==table4.c.rem_id).select(), "SELECT mytable.myid, mytable.name, mytable.description, remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM mytable JOIN remote_owner.remotetable ON remotetable.rem_id = mytable.myid")
+ self.assert_compile(table1.join(table4, table1.c.myid==table4.c.rem_id).select(), "SELECT mytable.myid, mytable.name, mytable.description, remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM mytable JOIN remote_owner.remotetable ON remotetable.rem_id = mytable.myid")
def testdontovercorrelate(self):
- self.runtest(select([table1], from_obj=[table1, table1.select()]), """SELECT mytable.myid, mytable.name, mytable.description FROM mytable, (SELECT mytable.myid AS myid, mytable.name AS name, mytable.description AS description FROM mytable)""")
+ self.assert_compile(select([table1], from_obj=[table1, table1.select()]), """SELECT mytable.myid, mytable.name, mytable.description FROM mytable, (SELECT mytable.myid AS myid, mytable.name AS name, mytable.description AS description FROM mytable)""")
def testexistsascolumnclause(self):
- self.runtest(exists([table1.c.myid], table1.c.myid==5).select(), "SELECT EXISTS (SELECT mytable.myid FROM mytable WHERE mytable.myid = :mytable_myid)", params={'mytable_myid':5})
+ self.assert_compile(exists([table1.c.myid], table1.c.myid==5).select(), "SELECT EXISTS (SELECT mytable.myid FROM mytable WHERE mytable.myid = :mytable_myid)", params={'mytable_myid':5})
- self.runtest(select([table1, exists([1], from_obj=[table2])]), "SELECT mytable.myid, mytable.name, mytable.description, EXISTS (SELECT 1 FROM myothertable) FROM mytable", params={})
+ self.assert_compile(select([table1, exists([1], from_obj=[table2])]), "SELECT mytable.myid, mytable.name, mytable.description, EXISTS (SELECT 1 FROM myothertable) FROM mytable", params={})
- self.runtest(select([table1, exists([1], from_obj=[table2]).label('foo')]), "SELECT mytable.myid, mytable.name, mytable.description, EXISTS (SELECT 1 FROM myothertable) AS foo FROM mytable", params={})
+ self.assert_compile(select([table1, exists([1], from_obj=[table2]).label('foo')]), "SELECT mytable.myid, mytable.name, mytable.description, EXISTS (SELECT 1 FROM myothertable) AS foo FROM mytable", params={})
def test_generative_exists(self):
- self.runtest(
+ self.assert_compile(
table1.select(exists([1], table2.c.otherid == table1.c.myid).correlate(table1)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE EXISTS (SELECT 1 FROM myothertable WHERE myothertable.otherid = mytable.myid)"
)
- self.runtest(
+ self.assert_compile(
table1.select(exists([1]).where(table2.c.otherid == table1.c.myid).correlate(table1)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE EXISTS (SELECT 1 FROM myothertable WHERE myothertable.otherid = mytable.myid)"
)
- self.runtest(
+ self.assert_compile(
table1.select(exists([1]).where(table2.c.otherid == table1.c.myid).correlate(table1)).replace_selectable(table2, table2.alias()),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE EXISTS (SELECT 1 FROM myothertable AS myothertable_1 WHERE myothertable_1.otherid = mytable.myid)"
)
- self.runtest(
+ self.assert_compile(
table1.select(exists([1]).where(table2.c.otherid == table1.c.myid).correlate(table1)).select_from(table1.join(table2, table1.c.myid==table2.c.otherid)).replace_selectable(table2, table2.alias()),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable JOIN myothertable AS myothertable_1 ON mytable.myid = myothertable_1.otherid WHERE EXISTS (SELECT 1 FROM myothertable AS myothertable_1 WHERE myothertable_1.otherid = mytable.myid)"
)
def testwheresubquery(self):
s = select([addresses.c.street], addresses.c.user_id==users.c.user_id, correlate=True).alias('s')
- self.runtest(
+ self.assert_compile(
select([users, s.c.street], from_obj=[s]),
"""SELECT users.user_id, users.user_name, users.password, s.street FROM users, (SELECT addresses.street AS street FROM addresses WHERE addresses.user_id = users.user_id) AS s""")
- self.runtest(
+ self.assert_compile(
table1.select(table1.c.myid == select([table1.c.myid], table1.c.name=='jack')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = (SELECT mytable.myid FROM mytable WHERE mytable.name = :mytable_name)"
)
- self.runtest(
+ self.assert_compile(
table1.select(table1.c.myid == select([table2.c.otherid], table1.c.name == table2.c.othername)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = (SELECT myothertable.otherid FROM myothertable WHERE mytable.name = myothertable.othername)"
)
- self.runtest(
+ self.assert_compile(
table1.select(exists([1], table2.c.otherid == table1.c.myid)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE EXISTS (SELECT 1 FROM myothertable WHERE myothertable.otherid = mytable.myid)"
)
talias = table1.alias('ta')
s = subquery('sq2', [talias], exists([1], table2.c.otherid == talias.c.myid))
- self.runtest(
+ self.assert_compile(
select([s, table1])
,"SELECT sq2.myid, sq2.name, sq2.description, mytable.myid, mytable.name, mytable.description FROM (SELECT ta.myid AS myid, ta.name AS name, ta.description AS description FROM mytable AS ta WHERE EXISTS (SELECT 1 FROM myothertable WHERE myothertable.otherid = ta.myid)) AS sq2, mytable")
s = select([addresses.c.street], addresses.c.user_id==users.c.user_id, correlate=True).alias('s')
- self.runtest(
+ self.assert_compile(
select([users, s.c.street], from_obj=[s]),
"""SELECT users.user_id, users.user_name, users.password, s.street FROM users, (SELECT addresses.street AS street FROM addresses WHERE addresses.user_id = users.user_id) AS s""")
# test constructing the outer query via append_column(), which occurs in the ORM's Query object
s = select([], exists([1], table2.c.otherid==table1.c.myid), from_obj=[table1])
s.append_column(table1)
- self.runtest(
+ self.assert_compile(
s,
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE EXISTS (SELECT 1 FROM myothertable WHERE myothertable.otherid = mytable.myid)"
)
def testorderbysubquery(self):
- self.runtest(
+ self.assert_compile(
table1.select(order_by=[select([table2.c.otherid], table1.c.myid==table2.c.otherid)]),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable ORDER BY (SELECT myothertable.otherid FROM myothertable WHERE mytable.myid = myothertable.otherid)"
)
- self.runtest(
+ self.assert_compile(
table1.select(order_by=[desc(select([table2.c.otherid], table1.c.myid==table2.c.otherid))]),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable ORDER BY (SELECT myothertable.otherid FROM myothertable WHERE mytable.myid = myothertable.otherid) DESC"
)
def test_scalar_select(self):
s = select([table1.c.myid], scalar=True, correlate=False)
- self.runtest(select([table1, s]), "SELECT mytable.myid, mytable.name, mytable.description, (SELECT mytable.myid FROM mytable) FROM mytable")
+ self.assert_compile(select([table1, s]), "SELECT mytable.myid, mytable.name, mytable.description, (SELECT mytable.myid FROM mytable) FROM mytable")
s = select([table1.c.myid], scalar=True)
- self.runtest(select([table2, s]), "SELECT myothertable.otherid, myothertable.othername, (SELECT mytable.myid FROM mytable) FROM myothertable")
+ self.assert_compile(select([table2, s]), "SELECT myothertable.otherid, myothertable.othername, (SELECT mytable.myid FROM mytable) FROM myothertable")
s = select([table1.c.myid]).correlate(None).as_scalar()
- self.runtest(select([table1, s]), "SELECT mytable.myid, mytable.name, mytable.description, (SELECT mytable.myid FROM mytable) FROM mytable")
+ self.assert_compile(select([table1, s]), "SELECT mytable.myid, mytable.name, mytable.description, (SELECT mytable.myid FROM mytable) FROM mytable")
s = select([table1.c.myid]).as_scalar()
- self.runtest(select([table2, s]), "SELECT myothertable.otherid, myothertable.othername, (SELECT mytable.myid FROM mytable) FROM myothertable")
+ self.assert_compile(select([table2, s]), "SELECT myothertable.otherid, myothertable.othername, (SELECT mytable.myid FROM mytable) FROM myothertable")
# test expressions against scalar selects
- self.runtest(select([s - literal(8)]), "SELECT (SELECT mytable.myid FROM mytable) - :literal")
- self.runtest(select([select([table1.c.name]).as_scalar() + literal('x')]), "SELECT (SELECT mytable.name FROM mytable) || :literal")
- self.runtest(select([s > literal(8)]), "SELECT (SELECT mytable.myid FROM mytable) > :literal")
+ self.assert_compile(select([s - literal(8)]), "SELECT (SELECT mytable.myid FROM mytable) - :literal")
+ self.assert_compile(select([select([table1.c.name]).as_scalar() + literal('x')]), "SELECT (SELECT mytable.name FROM mytable) || :literal")
+ self.assert_compile(select([s > literal(8)]), "SELECT (SELECT mytable.myid FROM mytable) > :literal")
- self.runtest(select([select([table1.c.name]).label('foo')]), "SELECT (SELECT mytable.name FROM mytable) AS foo")
+ self.assert_compile(select([select([table1.c.name]).label('foo')]), "SELECT (SELECT mytable.name FROM mytable) AS foo")
# scalar selects should not have any attributes on their 'c' or 'columns' attribute
s = select([table1.c.myid]).as_scalar()
order_by = ['dist', places.c.nm]
)
- self.runtest(q,"SELECT places.id, places.nm, zips.zipcode, latlondist((SELECT zips.latitude FROM zips WHERE "
+ self.assert_compile(q,"SELECT places.id, places.nm, zips.zipcode, latlondist((SELECT zips.latitude FROM zips WHERE "
"zips.zipcode = :zips_zipcode), (SELECT zips.longitude FROM zips WHERE zips.zipcode = :zips_zipcode_1)) AS dist "
"FROM places, zips WHERE zips.zipcode = :zips_zipcode_2 ORDER BY dist, places.nm")
q = select([places.c.id, places.c.nm, zalias.c.zipcode, func.latlondist(qlat, qlng).label('dist')],
order_by = ['dist', places.c.nm]
)
- self.runtest(q, "SELECT places.id, places.nm, main_zip.zipcode, latlondist((SELECT zips.latitude FROM zips WHERE zips.zipcode = main_zip.zipcode), (SELECT zips.longitude FROM zips WHERE zips.zipcode = main_zip.zipcode)) AS dist FROM places, zips AS main_zip ORDER BY dist, places.nm")
+ self.assert_compile(q, "SELECT places.id, places.nm, main_zip.zipcode, latlondist((SELECT zips.latitude FROM zips WHERE zips.zipcode = main_zip.zipcode), (SELECT zips.longitude FROM zips WHERE zips.zipcode = main_zip.zipcode)) AS dist FROM places, zips AS main_zip ORDER BY dist, places.nm")
a1 = table2.alias('t2alias')
s1 = select([a1.c.otherid], table1.c.myid==a1.c.otherid, scalar=True)
j1 = table1.join(table2, table1.c.myid==table2.c.otherid)
s2 = select([table1, s1], from_obj=[j1])
- self.runtest(s2, "SELECT mytable.myid, mytable.name, mytable.description, (SELECT t2alias.otherid FROM myothertable AS t2alias WHERE mytable.myid = t2alias.otherid) FROM mytable JOIN myothertable ON mytable.myid = myothertable.otherid")
+ self.assert_compile(s2, "SELECT mytable.myid, mytable.name, mytable.description, (SELECT t2alias.otherid FROM myothertable AS t2alias WHERE mytable.myid = t2alias.otherid) FROM mytable JOIN myothertable ON mytable.myid = myothertable.otherid")
def testlabelcomparison(self):
x = func.lala(table1.c.myid).label('foo')
- self.runtest(select([x], x==5), "SELECT lala(mytable.myid) AS foo FROM mytable WHERE lala(mytable.myid) = :literal")
+ self.assert_compile(select([x], x==5), "SELECT lala(mytable.myid) AS foo FROM mytable WHERE lala(mytable.myid) = :literal")
def testand(self):
- self.runtest(
+ self.assert_compile(
select(['*'], and_(table1.c.myid == 12, table1.c.name=='asdf', table2.c.othername == 'foo', "sysdate() = today()")),
"SELECT * FROM mytable, myothertable WHERE mytable.myid = :mytable_myid AND mytable.name = :mytable_name AND myothertable.othername = :myothertable_othername AND sysdate() = today()"
)
def testor(self):
- self.runtest(
+ self.assert_compile(
select([table1], and_(
table1.c.myid == 12,
or_(table2.c.othername=='asdf', table2.c.othername == 'foo', table2.c.otherid == 9),
)
def testdistinct(self):
- self.runtest(
+ self.assert_compile(
select([table1.c.myid.distinct()]), "SELECT DISTINCT mytable.myid FROM mytable"
)
- self.runtest(
+ self.assert_compile(
select([distinct(table1.c.myid)]), "SELECT DISTINCT mytable.myid FROM mytable"
)
- self.runtest(
+ self.assert_compile(
select([table1.c.myid]).distinct(), "SELECT DISTINCT mytable.myid FROM mytable"
)
- self.runtest(
+ self.assert_compile(
select([func.count(table1.c.myid.distinct())]), "SELECT count(DISTINCT mytable.myid) FROM mytable"
)
- self.runtest(
+ self.assert_compile(
select([func.count(distinct(table1.c.myid))]), "SELECT count(DISTINCT mytable.myid) FROM mytable"
)
(literal(6), table1.c.myid, ':literal %s mytable.myid'),
(literal(7), literal(5.5), ':literal %s :literal_1'),
):
- self.runtest(py_op(lhs, rhs), res % sql_op)
+ self.assert_compile(py_op(lhs, rhs), res % sql_op)
# exercise comparison operators
for (py_op, fwd_op, rev_op) in ((operator.lt, '<', '>'),
"\n'" + compiled + "'\n does not match\n'" +
fwd_sql + "'\n or\n'" + rev_sql + "'")
- self.runtest(
+ self.assert_compile(
table1.select((table1.c.myid != 12) & ~(table1.c.name=='john')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid != :mytable_myid AND mytable.name != :mytable_name"
)
- self.runtest(
+ self.assert_compile(
table1.select((table1.c.myid != 12) & ~and_(table1.c.name=='john', table1.c.name=='ed', table1.c.name=='fred')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid != :mytable_myid AND NOT (mytable.name = :mytable_name AND mytable.name = :mytable_name_1 AND mytable.name = :mytable_name_2)"
)
- self.runtest(
+ self.assert_compile(
table1.select((table1.c.myid != 12) & ~table1.c.name),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid != :mytable_myid AND NOT mytable.name"
)
- self.runtest(
+ self.assert_compile(
literal("a") + literal("b") * literal("c"), ":literal || :literal_1 * :literal_2"
)
# test the op() function, also that its results are further usable in expressions
- self.runtest(
+ self.assert_compile(
table1.select(table1.c.myid.op('hoho')(12)==14),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE (mytable.myid hoho :mytable_myid) = :literal"
)
def testunicodestartswith(self):
string = u"hi \xf6 \xf5"
- self.runtest(
+ self.assert_compile(
table1.select(table1.c.name.startswith(string)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.name LIKE :mytable_name",
checkparams = {'mytable_name': u'hi \xf6 \xf5%'},
)
def testmultiparam(self):
- self.runtest(
+ self.assert_compile(
select(["*"], or_(table1.c.myid == 12, table1.c.myid=='asdf', table1.c.myid == 'foo')),
"SELECT * FROM mytable WHERE mytable.myid = :mytable_myid OR mytable.myid = :mytable_myid_1 OR mytable.myid = :mytable_myid_2"
)
def testorderby(self):
- self.runtest(
+ self.assert_compile(
table2.select(order_by = [table2.c.otherid, asc(table2.c.othername)]),
"SELECT myothertable.otherid, myothertable.othername FROM myothertable ORDER BY myothertable.otherid, myothertable.othername ASC"
)
- self.runtest(
+ self.assert_compile(
table2.select(order_by = [table2.c.otherid, table2.c.othername.desc()]),
"SELECT myothertable.otherid, myothertable.othername FROM myothertable ORDER BY myothertable.otherid, myothertable.othername DESC"
)
def testgroupby(self):
- self.runtest(
+ self.assert_compile(
select([table2.c.othername, func.count(table2.c.otherid)], group_by = [table2.c.othername]),
"SELECT myothertable.othername, count(myothertable.otherid) FROM myothertable GROUP BY myothertable.othername"
)
- def testoraclelimit(self):
- metadata = MetaData()
- users = Table('users', metadata, Column('name', String(10), key='username'))
- s = select([users.c.username], limit=5)
- self.runtest(s, "SELECT name FROM (SELECT users.name AS name, ROW_NUMBER() OVER (ORDER BY users.rowid) AS ora_rn FROM users) WHERE ora_rn<=5", dialect=oracle.dialect())
- self.runtest(s, "SELECT name FROM (SELECT users.name AS name, ROW_NUMBER() OVER (ORDER BY users.rowid) AS ora_rn FROM users) WHERE ora_rn<=5", dialect=oracle.dialect())
def testgroupby_and_orderby(self):
- self.runtest(
+ self.assert_compile(
select([table2.c.othername, func.count(table2.c.otherid)], group_by = [table2.c.othername], order_by = [table2.c.othername]),
"SELECT myothertable.othername, count(myothertable.otherid) FROM myothertable GROUP BY myothertable.othername ORDER BY myothertable.othername"
)
def testforupdate(self):
- self.runtest(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE")
+ self.assert_compile(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE")
- self.runtest(table1.select(table1.c.myid==7, for_update="nowait"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE")
+ self.assert_compile(table1.select(table1.c.myid==7, for_update="nowait"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE")
- self.runtest(table1.select(table1.c.myid==7, for_update="nowait"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE NOWAIT", dialect=oracle.dialect())
+ self.assert_compile(table1.select(table1.c.myid==7, for_update="nowait"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE NOWAIT", dialect=oracle.dialect())
- self.runtest(table1.select(table1.c.myid==7, for_update="read"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = %s LOCK IN SHARE MODE", dialect=mysql.dialect())
+ self.assert_compile(table1.select(table1.c.myid==7, for_update="read"), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = %s LOCK IN SHARE MODE", dialect=mysql.dialect())
- self.runtest(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = %s FOR UPDATE", dialect=mysql.dialect())
+ self.assert_compile(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = %s FOR UPDATE", dialect=mysql.dialect())
- self.runtest(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE", dialect=oracle.dialect())
+ self.assert_compile(table1.select(table1.c.myid==7, for_update=True), "SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid FOR UPDATE", dialect=oracle.dialect())
def testalias(self):
# test the alias for a table1. column names stay the same, table name "changes" to "foo".
- self.runtest(
+ self.assert_compile(
select([table1.alias('foo')])
,"SELECT foo.myid, foo.name, foo.description FROM mytable AS foo")
for dialect in (firebird.dialect(), oracle.dialect()):
- self.runtest(
+ self.assert_compile(
select([table1.alias('foo')])
,"SELECT foo.myid, foo.name, foo.description FROM mytable foo"
,dialect=dialect)
- self.runtest(
+ self.assert_compile(
select([table1.alias()])
,"SELECT mytable_1.myid, mytable_1.name, mytable_1.description FROM mytable AS mytable_1")
# select from that alias, also using labels. two levels of labels should produce two underscores.
# also, reference the column "mytable_myid" off of the t2view alias.
- self.runtest(
+ self.assert_compile(
a.select(a.c.mytable_myid == 9, use_labels = True),
"SELECT t2view.mytable_myid AS t2view_mytable_myid, t2view.mytable_name AS t2view_mytable_name, \
t2view.mytable_description AS t2view_mytable_description, t2view.myothertable_otherid AS t2view_myothertable_otherid FROM \
def test_prefixes(self):
- self.runtest(table1.select().prefix_with("SQL_CALC_FOUND_ROWS").prefix_with("SQL_SOME_WEIRD_MYSQL_THING"),
+ self.assert_compile(table1.select().prefix_with("SQL_CALC_FOUND_ROWS").prefix_with("SQL_SOME_WEIRD_MYSQL_THING"),
"SELECT SQL_CALC_FOUND_ROWS SQL_SOME_WEIRD_MYSQL_THING mytable.myid, mytable.name, mytable.description FROM mytable"
)
def testtext(self):
- self.runtest(
+ self.assert_compile(
text("select * from foo where lala = bar") ,
"select * from foo where lala = bar"
)
# test bytestring
- self.runtest(select(
+ self.assert_compile(select(
["foobar(a)", "pk_foo_bar(syslaal)"],
"a = 12",
from_obj = ["foobar left outer join lala on foobar.foo = lala.foo"]
"SELECT foobar(a), pk_foo_bar(syslaal) FROM foobar left outer join lala on foobar.foo = lala.foo WHERE a = 12")
# test unicode
- self.runtest(select(
+ self.assert_compile(select(
[u"foobar(a)", u"pk_foo_bar(syslaal)"],
u"a = 12",
from_obj = [u"foobar left outer join lala on foobar.foo = lala.foo"]
s.append_whereclause("column2=19")
s = s.order_by("column1")
s.append_from("table1")
- self.runtest(s, "SELECT column1, column2 FROM table1 WHERE column1=12 AND column2=19 ORDER BY column1")
+ self.assert_compile(s, "SELECT column1, column2 FROM table1 WHERE column1=12 AND column2=19 ORDER BY column1")
def testtextcolumns(self):
- self.runtest(
+ self.assert_compile(
select(["column1", "column2"], from_obj=[table1]).alias('somealias').select(),
"SELECT somealias.column1, somealias.column2 FROM (SELECT column1, column2 FROM mytable) AS somealias"
)
# test that use_labels doesnt interfere with literal columns
- self.runtest(
+ self.assert_compile(
select(["column1", "column2", table1.c.myid], from_obj=[table1], use_labels=True),
"SELECT column1, column2, mytable.myid AS mytable_myid FROM mytable"
)
# test that use_labels doesnt interfere with literal columns that have textual labels
- self.runtest(
+ self.assert_compile(
select(["column1 AS foobar", "column2 AS hoho", table1.c.myid], from_obj=[table1], use_labels=True),
"SELECT column1 AS foobar, column2 AS hoho, mytable.myid AS mytable_myid FROM mytable"
)
print "---------------------------------------------"
# test that "auto-labeling of subquery columns" doesnt interfere with literal columns,
# exported columns dont get quoted
- self.runtest(
+ self.assert_compile(
select(["column1 AS foobar", "column2 AS hoho", table1.c.myid], from_obj=[table1]).select(),
"SELECT column1 AS foobar, column2 AS hoho, myid FROM (SELECT column1 AS foobar, column2 AS hoho, mytable.myid AS myid FROM mytable)"
)
def testtextbinds(self):
- self.runtest(
+ self.assert_compile(
text("select * from foo where lala=:bar and hoho=:whee"),
"select * from foo where lala=:bar and hoho=:whee",
checkparams={'bar':4, 'whee': 7},
params={'bar':4, 'whee': 7, 'hoho':10},
)
- self.runtest(
+ self.assert_compile(
text("select * from foo where clock='05:06:07'"),
"select * from foo where clock='05:06:07'",
checkparams={},
)
dialect = postgres.dialect()
- self.runtest(
+ self.assert_compile(
text("select * from foo where lala=:bar and hoho=:whee"),
"select * from foo where lala=%(bar)s and hoho=%(whee)s",
checkparams={'bar':4, 'whee': 7},
params={'bar':4, 'whee': 7, 'hoho':10},
dialect=dialect
)
- self.runtest(
+ self.assert_compile(
text("select * from foo where clock='05:06:07' and mork='\:mindy'"),
"select * from foo where clock='05:06:07' and mork=':mindy'",
checkparams={},
)
dialect = sqlite.dialect()
- self.runtest(
+ self.assert_compile(
text("select * from foo where lala=:bar and hoho=:whee"),
"select * from foo where lala=? and hoho=?",
checkparams=[4, 7],
)
def testtextmix(self):
- self.runtest(select(
+ self.assert_compile(select(
[table1, table2.c.otherid, "sysdate()", "foo, bar, lala"],
and_(
"foo.id = foofoo(lala)",
FROM mytable, myothertable WHERE foo.id = foofoo(lala) AND datetime(foo) = Today AND mytable.myid = myothertable.otherid")
def testtextualsubquery(self):
- self.runtest(select(
+ self.assert_compile(select(
[alias(table1, 't'), "foo.f"],
"foo.f = t.id",
from_obj = ["(select f from bar where lala=heyhey) foo"]
"SELECT t.myid, t.name, t.description, foo.f FROM mytable AS t, (select f from bar where lala=heyhey) foo WHERE foo.f = t.id")
def testliteral(self):
- self.runtest(select([literal("foo") + literal("bar")], from_obj=[table1]),
+ self.assert_compile(select([literal("foo") + literal("bar")], from_obj=[table1]),
"SELECT :literal || :literal_1 FROM mytable")
def testcalculatedcolumns(self):
column('val2', Float),
)
- self.runtest(
+ self.assert_compile(
select([value_tbl.c.id, (value_tbl.c.val2 -
value_tbl.c.val1)/value_tbl.c.val1]),
"SELECT values.id, (values.val2 - values.val1) / values.val1 FROM values"
)
- self.runtest(
+ self.assert_compile(
select([value_tbl.c.id], (value_tbl.c.val2 -
value_tbl.c.val1)/value_tbl.c.val1 > 2.0),
"SELECT values.id FROM values WHERE (values.val2 - values.val1) / values.val1 > :literal"
)
- self.runtest(
+ self.assert_compile(
select([value_tbl.c.id], value_tbl.c.val1 / (value_tbl.c.val2 - value_tbl.c.val1) /value_tbl.c.val1 > 2.0),
"SELECT values.id FROM values WHERE values.val1 / (values.val2 - values.val1) / values.val1 > :literal"
)
def testfunction(self):
"""tests the generation of functions using the func keyword"""
# test an expression with a function
- self.runtest(func.lala(3, 4, literal("five"), table1.c.myid) * table2.c.otherid,
+ self.assert_compile(func.lala(3, 4, literal("five"), table1.c.myid) * table2.c.otherid,
"lala(:lala, :lala_1, :literal, mytable.myid) * myothertable.otherid")
# test it in a SELECT
- self.runtest(select([func.count(table1.c.myid)]),
+ self.assert_compile(select([func.count(table1.c.myid)]),
"SELECT count(mytable.myid) FROM mytable")
# test a "dotted" function name
- self.runtest(select([func.foo.bar.lala(table1.c.myid)]),
+ self.assert_compile(select([func.foo.bar.lala(table1.c.myid)]),
"SELECT foo.bar.lala(mytable.myid) 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.runtest(select([func.foo.bar.lala(12)]),
+ self.assert_compile(select([func.foo.bar.lala(12)]),
"SELECT foo.bar.lala(:lala)")
# test a dotted func off the engine itself
- self.runtest(func.lala.hoho(7), "lala.hoho(:hoho)")
+ self.assert_compile(func.lala.hoho(7), "lala.hoho(:hoho)")
# test None becomes NULL
- self.runtest(func.my_func(1,2,None,3), "my_func(:my_func, :my_func_1, NULL, :my_func_2)")
+ self.assert_compile(func.my_func(1,2,None,3), "my_func(:my_func, :my_func_1, NULL, :my_func_2)")
# assert func raises AttributeError for __bases__ attribute, since its not a class
# fixes pydoc
def testextract(self):
"""test the EXTRACT function"""
- self.runtest(select([extract("month", table3.c.otherstuff)]), "SELECT extract(month FROM thirdtable.otherstuff) FROM thirdtable")
+ self.assert_compile(select([extract("month", table3.c.otherstuff)]), "SELECT extract(month FROM thirdtable.otherstuff) FROM thirdtable")
- self.runtest(select([extract("day", func.to_date("03/20/2005", "MM/DD/YYYY"))]), "SELECT extract(day FROM to_date(:to_date, :to_date_1))")
+ self.assert_compile(select([extract("day", func.to_date("03/20/2005", "MM/DD/YYYY"))]), "SELECT extract(day FROM to_date(:to_date, :to_date_1))")
def testjoin(self):
- self.runtest(
+ self.assert_compile(
join(table2, table1, table1.c.myid == table2.c.otherid).select(),
"SELECT myothertable.otherid, myothertable.othername, mytable.myid, mytable.name, \
mytable.description FROM myothertable JOIN mytable ON mytable.myid = myothertable.otherid"
)
- self.runtest(
+ self.assert_compile(
select(
[table1],
from_obj = [join(table1, table2, table1.c.myid == table2.c.otherid)]
),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable JOIN myothertable ON mytable.myid = myothertable.otherid")
- self.runtest(
+ self.assert_compile(
select(
[join(join(table1, table2, table1.c.myid == table2.c.otherid), table3, table1.c.myid == table3.c.userid)
]),
"SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername, thirdtable.userid, thirdtable.otherstuff FROM mytable JOIN myothertable ON mytable.myid = myothertable.otherid JOIN thirdtable ON mytable.myid = thirdtable.userid"
)
- self.runtest(
+ self.assert_compile(
join(users, addresses, users.c.user_id==addresses.c.user_id).select(),
"SELECT users.user_id, users.user_name, users.password, addresses.address_id, addresses.user_id, addresses.street, addresses.city, addresses.state, addresses.zip FROM users JOIN addresses ON users.user_id = addresses.user_id"
)
def testmultijoin(self):
- self.runtest(
+ self.assert_compile(
select([table1, table2, table3],
from_obj = [join(table1, table2, table1.c.myid == table2.c.otherid).outerjoin(table3, table1.c.myid==table3.c.userid)]
)
,"SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername, thirdtable.userid, thirdtable.otherstuff FROM mytable JOIN myothertable ON mytable.myid = myothertable.otherid LEFT OUTER JOIN thirdtable ON mytable.myid = thirdtable.userid"
)
- self.runtest(
+ self.assert_compile(
select([table1, table2, table3],
from_obj = [outerjoin(table1, join(table2, table3, table2.c.otherid == table3.c.userid), table1.c.myid==table2.c.otherid)]
)
order_by = [table1.c.myid],
)
- self.runtest(x, "SELECT mytable.myid, mytable.name, mytable.description \
+ self.assert_compile(x, "SELECT mytable.myid, mytable.name, mytable.description \
FROM mytable WHERE mytable.myid = :mytable_myid UNION \
SELECT mytable.myid, mytable.name, mytable.description \
FROM mytable WHERE mytable.myid = :mytable_myid_1 ORDER BY mytable.myid")
- self.runtest(
+ self.assert_compile(
union(
select([table1]),
select([table2]),
)
assert u.corresponding_column(table2.c.otherid) is u.c.otherid
- self.runtest(
+ self.assert_compile(
union(
select([table1]),
select([table2]),
LIMIT 5 OFFSET 10"
)
- self.runtest(
+ self.assert_compile(
union(
select([table1.c.myid, table1.c.name, func.max(table1.c.description)], table1.c.name=='name2', group_by=[table1.c.myid, table1.c.name]),
table1.select(table1.c.name=='name1')
)
def test_compound_select_grouping(self):
- self.runtest(
+ self.assert_compile(
union_all(
select([table1.c.myid]),
union(
SELECT thirdtable.userid FROM thirdtable)"
)
# This doesn't need grouping, so don't group to not give sqlite unnecessarily hard time
- self.runtest(
+ self.assert_compile(
union(
except_(
select([table2.c.otherid]),
)
def testouterjoin(self):
- # test an outer join. the oracle module should take the ON clause of the join and
- # move it up to the WHERE clause of its parent select, and append (+) to all right-hand-side columns
- # within the original onclause, but leave right-hand-side columns unchanged outside of the onclause
- # parameters.
-
query = select(
[table1, table2],
or_(
),
from_obj = [ outerjoin(table1, table2, table1.c.myid == table2.c.otherid) ]
)
- self.runtest(query,
+ self.assert_compile(query,
"SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername \
FROM mytable LEFT OUTER JOIN myothertable ON mytable.myid = myothertable.otherid \
WHERE mytable.name = %(mytable_name)s OR mytable.myid = %(mytable_myid)s OR \
dialect=postgres.dialect()
)
-
- self.runtest(query,
- "SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername \
-FROM mytable, myothertable WHERE mytable.myid = myothertable.otherid(+) AND \
-(mytable.name = :mytable_name OR mytable.myid = :mytable_myid OR \
-myothertable.othername != :myothertable_othername OR EXISTS (select yay from foo where boo = lar))",
- dialect=oracle.OracleDialect(use_ansi = False))
-
- query = table1.outerjoin(table2, table1.c.myid==table2.c.otherid).outerjoin(table3, table3.c.userid==table2.c.otherid)
- self.runtest(query.select(), "SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername, thirdtable.userid, thirdtable.otherstuff FROM mytable LEFT OUTER JOIN myothertable ON mytable.myid = myothertable.otherid LEFT OUTER JOIN thirdtable ON thirdtable.userid = myothertable.otherid")
- self.runtest(query.select(), "SELECT mytable.myid, mytable.name, mytable.description, myothertable.otherid, myothertable.othername, thirdtable.userid, thirdtable.otherstuff FROM mytable, myothertable, thirdtable WHERE mytable.myid = myothertable.otherid(+) AND thirdtable.userid(+) = myothertable.otherid", dialect=oracle.dialect(use_ansi=False))
-
def testbindparam(self):
for (
stmt,
),
]:
- self.runtest(stmt, expected_named_stmt, params=expected_default_params_dict)
- self.runtest(stmt, expected_positional_stmt, dialect=sqlite.dialect())
+ self.assert_compile(stmt, expected_named_stmt, params=expected_default_params_dict)
+ self.assert_compile(stmt, expected_positional_stmt, dialect=sqlite.dialect())
nonpositional = stmt.compile()
positional = stmt.compile(dialect=sqlite.dialect())
assert positional.get_params().get_raw_list() == expected_default_params_list
t = table('foo', column('id'))
s = select([t, literal('lala').label('hoho')])
- self.runtest(s, "SELECT foo.id, :literal AS hoho FROM foo")
+ self.assert_compile(s, "SELECT foo.id, :literal AS hoho FROM foo")
assert [str(c) for c in s.c] == ["id", "hoho"]
def testin(self):
- self.runtest(select([table1], table1.c.myid.in_('a')),
+ self.assert_compile(select([table1], table1.c.myid.in_('a')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid")
- self.runtest(select([table1], table1.c.myid.in_('a', 'b')),
+ self.assert_compile(select([table1], table1.c.myid.in_('a', 'b')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:mytable_myid, :mytable_myid_1)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a'))),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a'))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :literal")
- self.runtest(select([table1], table1.c.myid.in_(literal('a'), 'b')),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a'), 'b')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal, :mytable_myid)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a'), literal('b'))),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a'), literal('b'))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal, :literal_1)")
- self.runtest(select([table1], table1.c.myid.in_('a', literal('b'))),
+ self.assert_compile(select([table1], table1.c.myid.in_('a', literal('b'))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:mytable_myid, :literal)")
- self.runtest(select([table1], table1.c.myid.in_(literal(1) + 'a')),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal(1) + 'a')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :literal + :literal_1")
- self.runtest(select([table1], table1.c.myid.in_(literal('a') +'a', 'b')),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a') +'a', 'b')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal || :literal_1, :mytable_myid)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a') + literal('a'), literal('b'))),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a') + literal('a'), literal('b'))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal || :literal_1, :literal_2)")
- self.runtest(select([table1], table1.c.myid.in_(1, literal(3) + 4)),
+ self.assert_compile(select([table1], table1.c.myid.in_(1, literal(3) + 4)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:mytable_myid, :literal + :literal_1)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a') < 'b')),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a') < 'b')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = (:literal < :literal_1)")
- self.runtest(select([table1], table1.c.myid.in_(table1.c.myid)),
+ self.assert_compile(select([table1], table1.c.myid.in_(table1.c.myid)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = mytable.myid")
- self.runtest(select([table1], table1.c.myid.in_('a', table1.c.myid)),
+ self.assert_compile(select([table1], table1.c.myid.in_('a', table1.c.myid)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:mytable_myid, mytable.myid)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a'), table1.c.myid)),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a'), table1.c.myid)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal, mytable.myid)")
- self.runtest(select([table1], table1.c.myid.in_(literal('a'), table1.c.myid +'a')),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal('a'), table1.c.myid +'a')),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal, mytable.myid + :mytable_myid)")
- self.runtest(select([table1], table1.c.myid.in_(literal(1), 'a' + table1.c.myid)),
+ self.assert_compile(select([table1], table1.c.myid.in_(literal(1), 'a' + table1.c.myid)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:literal, :mytable_myid + mytable.myid)")
- self.runtest(select([table1], table1.c.myid.in_(1, 2, 3)),
+ self.assert_compile(select([table1], table1.c.myid.in_(1, 2, 3)),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (:mytable_myid, :mytable_myid_1, :mytable_myid_2)")
- self.runtest(select([table1], table1.c.myid.in_(select([table2.c.otherid]))),
+ self.assert_compile(select([table1], table1.c.myid.in_(select([table2.c.otherid]))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid IN (SELECT myothertable.otherid FROM myothertable)")
- self.runtest(select([table1], ~table1.c.myid.in_(select([table2.c.otherid]))),
+ self.assert_compile(select([table1], ~table1.c.myid.in_(select([table2.c.otherid]))),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid NOT IN (SELECT myothertable.otherid FROM myothertable)")
- self.runtest(select([table1], table1.c.myid.in_(
+ self.assert_compile(select([table1], table1.c.myid.in_(
union(
select([table1], table1.c.myid == 5),
select([table1], table1.c.myid == 12),
UNION SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE mytable.myid = :mytable_myid_1)")
# test that putting a select in an IN clause does not blow away its ORDER BY clause
- self.runtest(
+ self.assert_compile(
select([table1, table2],
table2.c.otherid.in_(
select([table2.c.otherid], order_by=[table2.c.othername], limit=10, correlate=False)
)
# test empty in clause
- self.runtest(select([table1], table1.c.myid.in_()),
+ self.assert_compile(select([table1], table1.c.myid.in_()),
"SELECT mytable.myid, mytable.name, mytable.description FROM mytable WHERE (CASE WHEN (mytable.myid IS NULL) THEN NULL ELSE 0 END = 1)")
import datetime
table = Table('dt', metadata,
Column('date', Date))
- self.runtest(table.select(table.c.date.between(datetime.date(2006,6,1), datetime.date(2006,6,5))), "SELECT dt.date FROM dt WHERE dt.date BETWEEN :dt_date AND :dt_date_1", checkparams={'dt_date':datetime.date(2006,6,1), 'dt_date_1':datetime.date(2006,6,5)})
+ self.assert_compile(table.select(table.c.date.between(datetime.date(2006,6,1), datetime.date(2006,6,5))), "SELECT dt.date FROM dt WHERE dt.date BETWEEN :dt_date AND :dt_date_1", checkparams={'dt_date':datetime.date(2006,6,1), 'dt_date_1':datetime.date(2006,6,5)})
- self.runtest(table.select(sql.between(table.c.date, datetime.date(2006,6,1), datetime.date(2006,6,5))), "SELECT dt.date FROM dt WHERE dt.date BETWEEN :literal AND :literal_1", checkparams={'literal':datetime.date(2006,6,1), 'literal_1':datetime.date(2006,6,5)})
+ self.assert_compile(table.select(sql.between(table.c.date, datetime.date(2006,6,1), datetime.date(2006,6,5))), "SELECT dt.date FROM dt WHERE dt.date BETWEEN :literal AND :literal_1", checkparams={'literal':datetime.date(2006,6,1), 'literal_1':datetime.date(2006,6,5)})
def test_operator_precedence(self):
table = Table('op', metadata,
Column('field', Integer))
- self.runtest(table.select((table.c.field == 5) == None),
+ self.assert_compile(table.select((table.c.field == 5) == None),
"SELECT op.field FROM op WHERE (op.field = :op_field) IS NULL")
- self.runtest(table.select((table.c.field + 5) == table.c.field),
+ self.assert_compile(table.select((table.c.field + 5) == table.c.field),
"SELECT op.field FROM op WHERE op.field + :op_field = op.field")
- self.runtest(table.select((table.c.field + 5) * 6),
+ self.assert_compile(table.select((table.c.field + 5) * 6),
"SELECT op.field FROM op WHERE (op.field + :op_field) * :literal")
- self.runtest(table.select((table.c.field * 5) + 6),
+ self.assert_compile(table.select((table.c.field * 5) + 6),
"SELECT op.field FROM op WHERE op.field * :op_field + :literal")
- self.runtest(table.select(5 + table.c.field.in_(5,6)),
+ self.assert_compile(table.select(5 + table.c.field.in_(5,6)),
"SELECT op.field FROM op WHERE :literal + (op.field IN (:op_field, :op_field_1))")
- self.runtest(table.select((5 + table.c.field).in_(5,6)),
+ self.assert_compile(table.select((5 + table.c.field).in_(5,6)),
"SELECT op.field FROM op WHERE :op_field + op.field IN (:literal, :literal_1)")
- self.runtest(table.select(not_(and_(table.c.field == 5, table.c.field == 7))),
+ self.assert_compile(table.select(not_(and_(table.c.field == 5, table.c.field == 7))),
"SELECT op.field FROM op WHERE NOT (op.field = :op_field AND op.field = :op_field_1)")
- self.runtest(table.select(not_(table.c.field) == 5),
+ self.assert_compile(table.select(not_(table.c.field) == 5),
"SELECT op.field FROM op WHERE (NOT op.field) = :literal")
- self.runtest(table.select((table.c.field == table.c.field).between(False, True)),
+ self.assert_compile(table.select((table.c.field == table.c.field).between(False, True)),
"SELECT op.field FROM op WHERE (op.field = op.field) BETWEEN :literal AND :literal_1")
- self.runtest(table.select(between((table.c.field == table.c.field), False, True)),
+ self.assert_compile(table.select(between((table.c.field == table.c.field), False, True)),
"SELECT op.field FROM op WHERE (op.field = op.field) BETWEEN :literal AND :literal_1")
-class CRUDTest(SQLTest):
+class CRUDTest(SQLCompileTest):
def testinsert(self):
# generic insert, will create bind params for all columns
- self.runtest(insert(table1), "INSERT INTO mytable (myid, name, description) VALUES (:myid, :name, :description)")
+ self.assert_compile(insert(table1), "INSERT INTO mytable (myid, name, description) VALUES (:myid, :name, :description)")
# insert with user-supplied bind params for specific columns,
# cols provided literally
- self.runtest(
+ self.assert_compile(
insert(table1, {table1.c.myid : bindparam('userid'), table1.c.name : bindparam('username')}),
"INSERT INTO mytable (myid, name) VALUES (:userid, :username)")
# insert with user-supplied bind params for specific columns, cols
# provided as strings
- self.runtest(
+ self.assert_compile(
insert(table1, dict(myid = 3, name = 'jack')),
"INSERT INTO mytable (myid, name) VALUES (:myid, :name)"
)
# test with a tuple of params instead of named
- self.runtest(
+ self.assert_compile(
insert(table1, (3, 'jack', 'mydescription')),
"INSERT INTO mytable (myid, name, description) VALUES (:myid, :name, :description)",
checkparams = {'myid':3, 'name':'jack', 'description':'mydescription'}
)
- self.runtest(
+ self.assert_compile(
insert(table1, values={table1.c.myid : bindparam('userid')}).values({table1.c.name : bindparam('username')}),
"INSERT INTO mytable (myid, name) VALUES (:userid, :username)"
)
def testinsertexpression(self):
- self.runtest(insert(table1), "INSERT INTO mytable (myid) VALUES (lala())", params=dict(myid=func.lala()))
+ self.assert_compile(insert(table1), "INSERT INTO mytable (myid) VALUES (lala())", params=dict(myid=func.lala()))
def testupdate(self):
- self.runtest(update(table1, table1.c.myid == 7), "UPDATE mytable SET name=:name WHERE mytable.myid = :mytable_myid", params = {table1.c.name:'fred'})
- self.runtest(update(table1, table1.c.myid == 7), "UPDATE mytable SET name=:name WHERE mytable.myid = :mytable_myid", params = {'name':'fred'})
- self.runtest(update(table1, values = {table1.c.name : table1.c.myid}), "UPDATE mytable SET name=mytable.myid")
- self.runtest(update(table1, whereclause = table1.c.name == bindparam('crit'), values = {table1.c.name : 'hi'}), "UPDATE mytable SET name=:name WHERE mytable.name = :crit", params = {'crit' : 'notthere'})
- self.runtest(update(table1, table1.c.myid == 12, values = {table1.c.name : table1.c.myid}), "UPDATE mytable SET name=mytable.myid, description=:description WHERE mytable.myid = :mytable_myid", params = {'description':'test'})
- self.runtest(update(table1, table1.c.myid == 12, values = {table1.c.myid : 9}), "UPDATE mytable SET myid=:myid, description=:description WHERE mytable.myid = :mytable_myid", params = {'mytable_myid': 12, 'myid': 9, 'description': 'test'})
+ self.assert_compile(update(table1, table1.c.myid == 7), "UPDATE mytable SET name=:name WHERE mytable.myid = :mytable_myid", params = {table1.c.name:'fred'})
+ self.assert_compile(update(table1, table1.c.myid == 7), "UPDATE mytable SET name=:name WHERE mytable.myid = :mytable_myid", params = {'name':'fred'})
+ self.assert_compile(update(table1, values = {table1.c.name : table1.c.myid}), "UPDATE mytable SET name=mytable.myid")
+ self.assert_compile(update(table1, whereclause = table1.c.name == bindparam('crit'), values = {table1.c.name : 'hi'}), "UPDATE mytable SET name=:name WHERE mytable.name = :crit", params = {'crit' : 'notthere'})
+ self.assert_compile(update(table1, table1.c.myid == 12, values = {table1.c.name : table1.c.myid}), "UPDATE mytable SET name=mytable.myid, description=:description WHERE mytable.myid = :mytable_myid", params = {'description':'test'})
+ self.assert_compile(update(table1, table1.c.myid == 12, values = {table1.c.myid : 9}), "UPDATE mytable SET myid=:myid, description=:description WHERE mytable.myid = :mytable_myid", params = {'mytable_myid': 12, 'myid': 9, 'description': 'test'})
s = table1.update(table1.c.myid == 12, values = {table1.c.name : 'lala'})
c = s.compile(parameters = {'mytable_id':9,'name':'h0h0'})
- self.runtest(update(table1, table1.c.myid == 12, values = {table1.c.name : table1.c.myid}).values({table1.c.name:table1.c.name + 'foo'}), "UPDATE mytable SET name=(mytable.name || :mytable_name), description=:description WHERE mytable.myid = :mytable_myid", params = {'description':'test'})
+ self.assert_compile(update(table1, table1.c.myid == 12, values = {table1.c.name : table1.c.myid}).values({table1.c.name:table1.c.name + 'foo'}), "UPDATE mytable SET name=(mytable.name || :mytable_name), description=:description WHERE mytable.myid = :mytable_myid", params = {'description':'test'})
self.assert_(str(s) == str(c))
def testupdateexpression(self):
- self.runtest(update(table1,
+ self.assert_compile(update(table1,
(table1.c.myid == func.hoho(4)) &
(table1.c.name == literal('foo') + table1.c.name + literal('lala')),
values = {
def testcorrelatedupdate(self):
# test against a straight text subquery
u = update(table1, values = {table1.c.name : text("(select name from mytable where id=mytable.id)")})
- self.runtest(u, "UPDATE mytable SET name=(select name from mytable where id=mytable.id)")
+ self.assert_compile(u, "UPDATE mytable SET name=(select name from mytable where id=mytable.id)")
mt = table1.alias()
u = update(table1, values = {table1.c.name : select([mt.c.name], mt.c.myid==table1.c.myid)})
- self.runtest(u, "UPDATE mytable SET name=(SELECT mytable_1.name FROM mytable AS mytable_1 WHERE mytable_1.myid = mytable.myid)")
+ self.assert_compile(u, "UPDATE mytable SET name=(SELECT mytable_1.name FROM mytable AS mytable_1 WHERE mytable_1.myid = mytable.myid)")
# test against a regular constructed subquery
s = select([table2], table2.c.otherid == table1.c.myid)
u = update(table1, table1.c.name == 'jack', values = {table1.c.name : s})
- self.runtest(u, "UPDATE mytable SET name=(SELECT myothertable.otherid, myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid) WHERE mytable.name = :mytable_name")
+ self.assert_compile(u, "UPDATE mytable SET name=(SELECT myothertable.otherid, myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid) WHERE mytable.name = :mytable_name")
# test a non-correlated WHERE clause
s = select([table2.c.othername], table2.c.otherid == 7)
u = update(table1, table1.c.name==s)
- self.runtest(u, "UPDATE mytable SET myid=:myid, name=:name, description=:description WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = :myothertable_otherid)")
+ self.assert_compile(u, "UPDATE mytable SET myid=:myid, name=:name, description=:description WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = :myothertable_otherid)")
# test one that is actually correlated...
s = select([table2.c.othername], table2.c.otherid == table1.c.myid)
u = table1.update(table1.c.name==s)
- self.runtest(u, "UPDATE mytable SET myid=:myid, name=:name, description=:description WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid)")
+ self.assert_compile(u, "UPDATE mytable SET myid=:myid, name=:name, description=:description WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid)")
def testdelete(self):
- self.runtest(delete(table1, table1.c.myid == 7), "DELETE FROM mytable WHERE mytable.myid = :mytable_myid")
+ self.assert_compile(delete(table1, table1.c.myid == 7), "DELETE FROM mytable WHERE mytable.myid = :mytable_myid")
def testcorrelateddelete(self):
# test a non-correlated WHERE clause
s = select([table2.c.othername], table2.c.otherid == 7)
u = delete(table1, table1.c.name==s)
- self.runtest(u, "DELETE FROM mytable WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = :myothertable_otherid)")
+ self.assert_compile(u, "DELETE FROM mytable WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = :myothertable_otherid)")
# test one that is actually correlated...
s = select([table2.c.othername], table2.c.otherid == table1.c.myid)
u = table1.delete(table1.c.name==s)
- self.runtest(u, "DELETE FROM mytable WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid)")
+ self.assert_compile(u, "DELETE FROM mytable WHERE mytable.name = (SELECT myothertable.othername FROM myothertable WHERE myothertable.otherid = mytable.myid)")
-class SchemaTest(SQLTest):
+class SchemaTest(SQLCompileTest):
def testselect(self):
# these tests will fail with the MS-SQL compiler since it will alias schema-qualified tables
- self.runtest(table4.select(), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable")
- self.runtest(table4.select(and_(table4.c.datatype_id==7, table4.c.value=='hi')), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable WHERE remotetable.datatype_id = :remotetable_datatype_id AND remotetable.value = :remotetable_value")
+ self.assert_compile(table4.select(), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable")
+ self.assert_compile(table4.select(and_(table4.c.datatype_id==7, table4.c.value=='hi')), "SELECT remotetable.rem_id, remotetable.datatype_id, remotetable.value FROM remote_owner.remotetable WHERE remotetable.datatype_id = :remotetable_datatype_id AND remotetable.value = :remotetable_value")
s = table4.select(and_(table4.c.datatype_id==7, table4.c.value=='hi'))
s.use_labels = True
- self.runtest(s, "SELECT remotetable.rem_id AS remotetable_rem_id, remotetable.datatype_id AS remotetable_datatype_id, remotetable.value AS remotetable_value FROM remote_owner.remotetable WHERE remotetable.datatype_id = :remotetable_datatype_id AND remotetable.value = :remotetable_value")
+ self.assert_compile(s, "SELECT remotetable.rem_id AS remotetable_rem_id, remotetable.datatype_id AS remotetable_datatype_id, remotetable.value AS remotetable_value FROM remote_owner.remotetable WHERE remotetable.datatype_id = :remotetable_datatype_id AND remotetable.value = :remotetable_value")
def testalias(self):
a = alias(table4, 'remtable')
- self.runtest(a.select(a.c.datatype_id==7), "SELECT remtable.rem_id, remtable.datatype_id, remtable.value FROM remote_owner.remotetable AS remtable WHERE remtable.datatype_id = :remtable_datatype_id")
+ self.assert_compile(a.select(a.c.datatype_id==7), "SELECT remtable.rem_id, remtable.datatype_id, remtable.value FROM remote_owner.remotetable AS remtable WHERE remtable.datatype_id = :remtable_datatype_id")
def testupdate(self):
- self.runtest(table4.update(table4.c.value=='test', values={table4.c.datatype_id:12}), "UPDATE remote_owner.remotetable SET datatype_id=:datatype_id WHERE remotetable.value = :remotetable_value")
+ self.assert_compile(table4.update(table4.c.value=='test', values={table4.c.datatype_id:12}), "UPDATE remote_owner.remotetable SET datatype_id=:datatype_id WHERE remotetable.value = :remotetable_value")
def testinsert(self):
- self.runtest(table4.insert(values=(2, 5, 'test')), "INSERT INTO remote_owner.remotetable (rem_id, datatype_id, value) VALUES (:rem_id, :datatype_id, :value)")
+ self.assert_compile(table4.insert(values=(2, 5, 'test')), "INSERT INTO remote_owner.remotetable (rem_id, datatype_id, value) VALUES (:rem_id, :datatype_id, :value)")
if __name__ == "__main__":
testbase.main()
projects / thirdparty / sqlalchemy / sqlalchemy.git / commitdiff
