[migration] fix rename_entity_type to an existant entity type: get back relation from the old entity type non existant on the target type
# -*- coding: iso-8859-1 -*-
# copyright 2003-2010 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of CubicWeb.
#
# CubicWeb is free software: you can redistribute it and/or modify it under the
# terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option)
# any later version.
#
# CubicWeb is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with CubicWeb. If not, see <http://www.gnu.org/licenses/>.
"""unit tests for modules cubicweb.server.querier and cubicweb.server.querier_steps
"""
from datetime import date, datetime
from logilab.common.testlib import TestCase, unittest_main
from rql import BadRQLQuery, RQLSyntaxError
from cubicweb import QueryError, Unauthorized, Binary
from cubicweb.server.sqlutils import SQL_PREFIX
from cubicweb.server.utils import crypt_password
from cubicweb.server.sources.native import make_schema
from cubicweb.devtools import init_test_database
from cubicweb.devtools.repotest import tuplify, BaseQuerierTC
from unittest_session import Variable
# register priority/severity sorting registered procedure
from rql.utils import register_function, FunctionDescr
class group_sort_value(FunctionDescr):
supported_backends = ('sqlite',)
rtype = 'Int'
try:
register_function(group_sort_value)
except AssertionError:
pass
from cubicweb.server.sqlutils import SQL_CONNECT_HOOKS
def init_sqlite_connexion(cnx):
def group_sort_value(text):
return {"managers": "3", "users": "2", "guests": "1", "owners": "0"}[text]
cnx.create_function("GROUP_SORT_VALUE", 1, group_sort_value)
SQL_CONNECT_HOOKS['sqlite'].append(init_sqlite_connexion)
from logilab.database import _GenericAdvFuncHelper
TYPEMAP = _GenericAdvFuncHelper.TYPE_MAPPING
class MakeSchemaTC(TestCase):
def test_known_values(self):
solution = {'A': 'String', 'B': 'CWUser'}
self.assertEquals(make_schema((Variable('A'), Variable('B')), solution,
'table0', TYPEMAP),
('C0 text,C1 integer', {'A': 'table0.C0', 'B': 'table0.C1'}))
repo, cnx = init_test_database()
def teardown_module(*args):
global repo, cnx
cnx.close()
repo.shutdown()
del repo, cnx
class UtilsTC(BaseQuerierTC):
repo = repo
def get_max_eid(self):
# no need for cleanup here
return None
def cleanup(self):
# no need for cleanup here
pass
def test_preprocess_1(self):
reid = self.execute('Any X WHERE X is CWRType, X name "owned_by"')[0][0]
rqlst = self._prepare('Any COUNT(RDEF) WHERE RDEF relation_type X, X eid %(x)s', {'x': reid})
self.assertEquals(rqlst.solutions, [{'RDEF': 'CWAttribute'}, {'RDEF': 'CWRelation'}])
def test_preprocess_2(self):
teid = self.execute("INSERT Tag X: X name 'tag'")[0][0]
#geid = self.execute("CWGroup G WHERE G name 'users'")[0][0]
#self.execute("SET X tags Y WHERE X eid %(t)s, Y eid %(g)s",
# {'g': geid, 't': teid}, 'g')
rqlst = self._prepare('Any X WHERE E eid %(x)s, E tags X', {'x': teid})
# the query may be optimized, should keep only one solution
# (any one, etype will be discarded)
self.assertEquals(len(rqlst.solutions), 1)
def test_preprocess_security(self):
plan = self._prepare_plan('Any ETN,COUNT(X) GROUPBY ETN '
'WHERE X is ET, ET name ETN')
plan.session = self.user_groups_session('users')
union = plan.rqlst
plan.preprocess(union)
self.assertEquals(len(union.children), 1)
self.assertEquals(len(union.children[0].with_), 1)
subq = union.children[0].with_[0].query
self.assertEquals(len(subq.children), 3)
self.assertEquals([t.as_string() for t in union.children[0].selection],
['ETN','COUNT(X)'])
self.assertEquals([t.as_string() for t in union.children[0].groupby],
['ETN'])
partrqls = sorted(((rqlst.as_string(), rqlst.solutions) for rqlst in subq.children))
rql, solutions = partrqls[0]
self.assertEquals(rql,
'Any ETN,X WHERE X is ET, ET name ETN, (EXISTS(X owned_by %(B)s))'
' OR ((((EXISTS(D concerne C?, C owned_by %(B)s, X identity D, C is Division, D is Affaire))'
' OR (EXISTS(H concerne G?, G owned_by %(B)s, G is SubDivision, X identity H, H is Affaire)))'
' OR (EXISTS(I concerne F?, F owned_by %(B)s, F is Societe, X identity I, I is Affaire)))'
' OR (EXISTS(J concerne E?, E owned_by %(B)s, E is Note, X identity J, J is Affaire)))'
', ET is CWEType, X is Affaire')
self.assertEquals(solutions, [{'C': 'Division',
'D': 'Affaire',
'E': 'Note',
'F': 'Societe',
'G': 'SubDivision',
'H': 'Affaire',
'I': 'Affaire',
'J': 'Affaire',
'X': 'Affaire',
'ET': 'CWEType', 'ETN': 'String'}])
rql, solutions = partrqls[1]
self.assertEquals(rql, 'Any ETN,X WHERE X is ET, ET name ETN, ET is CWEType, X is IN(BaseTransition, Bookmark, CWAttribute, CWCache, CWConstraint, CWConstraintType, CWEType, CWGroup, CWPermission, CWProperty, CWRType, CWRelation, CWUser, Card, Comment, Division, Email, EmailAddress, EmailPart, EmailThread, ExternalUri, File, Folder, Note, Personne, RQLExpression, Societe, State, SubDivision, SubWorkflowExitPoint, Tag, TrInfo, Transition, Workflow, WorkflowTransition)')
self.assertListEquals(sorted(solutions),
sorted([{'X': 'BaseTransition', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Bookmark', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Card', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Comment', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Division', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWCache', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWConstraint', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWConstraintType', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWEType', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWAttribute', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWGroup', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Email', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'EmailAddress', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'EmailPart', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'EmailThread', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWRelation', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWPermission', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWProperty', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWRType', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'CWUser', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'ExternalUri', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'File', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Folder', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Note', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Personne', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'RQLExpression', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Societe', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'State', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'SubDivision', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'SubWorkflowExitPoint', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Tag', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Transition', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'TrInfo', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'Workflow', 'ETN': 'String', 'ET': 'CWEType'},
{'X': 'WorkflowTransition', 'ETN': 'String', 'ET': 'CWEType'}]))
rql, solutions = partrqls[2]
self.assertEquals(rql,
'Any ETN,X WHERE X is ET, ET name ETN, EXISTS(X owned_by %(C)s), '
'ET is CWEType, X is Basket')
self.assertEquals(solutions, [{'ET': 'CWEType',
'X': 'Basket',
'ETN': 'String',
}])
def test_preprocess_security_aggregat(self):
plan = self._prepare_plan('Any MAX(X)')
plan.session = self.user_groups_session('users')
union = plan.rqlst
plan.preprocess(union)
self.assertEquals(len(union.children), 1)
self.assertEquals(len(union.children[0].with_), 1)
subq = union.children[0].with_[0].query
self.assertEquals(len(subq.children), 3)
self.assertEquals([t.as_string() for t in union.children[0].selection],
['MAX(X)'])
def test_preprocess_nonregr(self):
rqlst = self._prepare('Any S ORDERBY SI WHERE NOT S ecrit_par O, S para SI')
self.assertEquals(len(rqlst.solutions), 1)
def test_build_description(self):
# should return an empty result set
rset = self.execute('Any X WHERE X eid %(x)s', {'x': self.session.user.eid})
self.assertEquals(rset.description[0][0], 'CWUser')
rset = self.execute('Any 1')
self.assertEquals(rset.description[0][0], 'Int')
rset = self.execute('Any TRUE')
self.assertEquals(rset.description[0][0], 'Boolean')
rset = self.execute('Any "hop"')
self.assertEquals(rset.description[0][0], 'String')
rset = self.execute('Any TODAY')
self.assertEquals(rset.description[0][0], 'Date')
rset = self.execute('Any NOW')
self.assertEquals(rset.description[0][0], 'Datetime')
rset = self.execute('Any %(x)s', {'x': 1})
self.assertEquals(rset.description[0][0], 'Int')
rset = self.execute('Any %(x)s', {'x': 1L})
self.assertEquals(rset.description[0][0], 'Int')
rset = self.execute('Any %(x)s', {'x': True})
self.assertEquals(rset.description[0][0], 'Boolean')
rset = self.execute('Any %(x)s', {'x': 1.0})
self.assertEquals(rset.description[0][0], 'Float')
rset = self.execute('Any %(x)s', {'x': datetime.now()})
self.assertEquals(rset.description[0][0], 'Datetime')
rset = self.execute('Any %(x)s', {'x': 'str'})
self.assertEquals(rset.description[0][0], 'String')
rset = self.execute('Any %(x)s', {'x': u'str'})
self.assertEquals(rset.description[0][0], 'String')
class QuerierTC(BaseQuerierTC):
repo = repo
def test_encoding_pb(self):
self.assertRaises(RQLSyntaxError, self.execute,
'Any X WHERE X is CWRType, X name "�wned_by"')
def test_unknown_eid(self):
# should return an empty result set
self.failIf(self.execute('Any X WHERE X eid 99999999'))
def test_typed_eid(self):
# should return an empty result set
rset = self.execute('Any X WHERE X eid %(x)s', {'x': '1'})
self.assertIsInstance(rset[0][0], (int, long))
def test_bytes_storage(self):
feid = self.execute('INSERT File X: X data_name "foo.pdf", X data_format "text/plain", X data %(data)s',
{'data': Binary("xxx")})[0][0]
fdata = self.execute('Any D WHERE X data D, X eid %(x)s', {'x': feid})[0][0]
self.assertIsInstance(fdata, Binary)
self.assertEquals(fdata.getvalue(), 'xxx')
# selection queries tests #################################################
def test_select_1(self):
rset = self.execute('Any X ORDERBY X WHERE X is CWGroup')
result, descr = rset.rows, rset.description
self.assertEquals(tuplify(result), [(1,), (2,), (3,), (4,)])
self.assertEquals(descr, [('CWGroup',), ('CWGroup',), ('CWGroup',), ('CWGroup',)])
def test_select_2(self):
rset = self.execute('Any X ORDERBY N WHERE X is CWGroup, X name N')
self.assertEquals(tuplify(rset.rows), [(1,), (2,), (3,), (4,)])
self.assertEquals(rset.description, [('CWGroup',), ('CWGroup',), ('CWGroup',), ('CWGroup',)])
rset = self.execute('Any X ORDERBY N DESC WHERE X is CWGroup, X name N')
self.assertEquals(tuplify(rset.rows), [(4,), (3,), (2,), (1,)])
def test_select_3(self):
rset = self.execute('Any N GROUPBY N WHERE X is CWGroup, X name N')
result, descr = rset.rows, rset.description
result.sort()
self.assertEquals(tuplify(result), [('guests',), ('managers',), ('owners',), ('users',)])
self.assertEquals(descr, [('String',), ('String',), ('String',), ('String',)])
def test_select_is(self):
rset = self.execute('Any X, TN ORDERBY TN LIMIT 10 WHERE X is T, T name TN')
result, descr = rset.rows, rset.description
self.assertEquals(result[0][1], descr[0][0])
def test_select_is_aggr(self):
rset = self.execute('Any TN, COUNT(X) GROUPBY TN ORDERBY 2 DESC WHERE X is T, T name TN')
result, descr = rset.rows, rset.description
self.assertEquals(descr[0][0], 'String')
self.assertEquals(descr[0][1], 'Int')
self.assertEquals(result[0][0], 'CWRelation') # XXX may change as schema evolve
def test_select_groupby_orderby(self):
rset = self.execute('Any N GROUPBY N ORDERBY N WHERE X is CWGroup, X name N')
self.assertEquals(tuplify(rset.rows), [('guests',), ('managers',), ('owners',), ('users',)])
self.assertEquals(rset.description, [('String',), ('String',), ('String',), ('String',)])
def test_select_complex_groupby(self):
rset = self.execute('Any N GROUPBY N WHERE X name N')
rset = self.execute('Any N,MAX(D) GROUPBY N LIMIT 5 WHERE X name N, X creation_date D')
def test_select_inlined_groupby(self):
seid = self.execute('State X WHERE X name "deactivated"')[0][0]
rset = self.execute('Any U,L,S GROUPBY U,L,S WHERE X in_state S, U login L, S eid %s' % seid)
def test_select_complex_orderby(self):
rset1 = self.execute('Any N ORDERBY N WHERE X name N')
self.assertEquals(sorted(rset1.rows), rset1.rows)
rset = self.execute('Any N ORDERBY N LIMIT 5 OFFSET 1 WHERE X name N')
self.assertEquals(rset.rows[0][0], rset1.rows[1][0])
self.assertEquals(len(rset), 5)
def test_select_5(self):
rset = self.execute('Any X, TMP ORDERBY TMP WHERE X name TMP, X is CWGroup')
self.assertEquals(tuplify(rset.rows), [(1, 'guests',), (2, 'managers',), (3, 'owners',), (4, 'users',)])
self.assertEquals(rset.description, [('CWGroup', 'String',), ('CWGroup', 'String',), ('CWGroup', 'String',), ('CWGroup', 'String',)])
def test_select_6(self):
self.execute("INSERT Personne X: X nom 'bidule'")[0]
rset = self.execute('Any Y where X name TMP, Y nom in (TMP, "bidule")')
#self.assertEquals(rset.description, [('Personne',), ('Personne',)])
self.assert_(('Personne',) in rset.description)
rset = self.execute('DISTINCT Any Y where X name TMP, Y nom in (TMP, "bidule")')
self.assert_(('Personne',) in rset.description)
def test_select_not_attr(self):
peid = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
seid = self.execute("INSERT Societe X: X nom 'chouette'")[0][0]
rset = self.execute('Personne X WHERE NOT X nom "bidule"')
self.assertEquals(len(rset.rows), 0, rset.rows)
rset = self.execute('Personne X WHERE NOT X nom "bid"')
self.assertEquals(len(rset.rows), 1, rset.rows)
self.execute("SET P travaille S WHERE P nom 'bidule', S nom 'chouette'")
rset = self.execute('Personne X WHERE NOT X travaille S')
self.assertEquals(len(rset.rows), 0, rset.rows)
def test_select_is_in(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Societe X: X nom 'chouette'")
self.assertEquals(len(self.execute("Any X WHERE X is IN (Personne, Societe)")),
2)
def test_select_not_rel(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Societe X: X nom 'chouette'")
self.execute("INSERT Personne X: X nom 'autre'")
self.execute("SET P travaille S WHERE P nom 'bidule', S nom 'chouette'")
rset = self.execute('Personne X WHERE NOT X travaille S')
self.assertEquals(len(rset.rows), 1, rset.rows)
rset = self.execute('Personne X WHERE NOT X travaille S, S nom "chouette"')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_nonregr_inlined(self):
self.execute("INSERT Note X: X para 'bidule'")
self.execute("INSERT Personne X: X nom 'chouette'")
self.execute("INSERT Personne X: X nom 'autre'")
self.execute("SET X ecrit_par P WHERE X para 'bidule', P nom 'chouette'")
rset = self.execute('Any U,T ORDERBY T DESC WHERE U is CWUser, '
'N ecrit_par U, N type T')#, {'x': self.ueid})
self.assertEquals(len(rset.rows), 0)
def test_select_nonregr_edition_not(self):
groupeids = set((1, 2, 3))
groupreadperms = set(r[0] for r in self.execute('Any Y WHERE X name "CWGroup", Y eid IN(1, 2, 3), X read_permission Y'))
rset = self.execute('DISTINCT Any Y WHERE X is CWEType, X name "CWGroup", Y eid IN(1, 2, 3), NOT X read_permission Y')
self.assertEquals(sorted(r[0] for r in rset.rows), sorted(groupeids - groupreadperms))
rset = self.execute('DISTINCT Any Y WHERE X name "CWGroup", Y eid IN(1, 2, 3), NOT X read_permission Y')
self.assertEquals(sorted(r[0] for r in rset.rows), sorted(groupeids - groupreadperms))
def test_select_outer_join(self):
peid1 = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
peid2 = self.execute("INSERT Personne X: X nom 'autre'")[0][0]
seid1 = self.execute("INSERT Societe X: X nom 'chouette'")[0][0]
seid2 = self.execute("INSERT Societe X: X nom 'chouetos'")[0][0]
rset = self.execute('Any X,S ORDERBY X WHERE X travaille S?')
self.assertEquals(rset.rows, [[peid1, None], [peid2, None]])
self.execute("SET P travaille S WHERE P nom 'bidule', S nom 'chouette'")
rset = self.execute('Any X,S ORDERBY X WHERE X travaille S?')
self.assertEquals(rset.rows, [[peid1, seid1], [peid2, None]])
rset = self.execute('Any S,X ORDERBY S WHERE X? travaille S')
self.assertEquals(rset.rows, [[seid1, peid1], [seid2, None]])
def test_select_outer_join_optimized(self):
peid1 = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
rset = self.execute('Any X WHERE X eid %(x)s, P? connait X', {'x':peid1})
self.assertEquals(rset.rows, [[peid1]])
rset = self.execute('Any X WHERE X eid %(x)s, X require_permission P?',
{'x':peid1})
self.assertEquals(rset.rows, [[peid1]])
def test_select_left_outer_join(self):
rset = self.execute('DISTINCT Any G WHERE U? in_group G')
self.assertEquals(len(rset), 4)
rset = self.execute('DISTINCT Any G WHERE U? in_group G, U eid %(x)s',
{'x': self.session.user.eid})
self.assertEquals(len(rset), 4)
def test_select_ambigous_outer_join(self):
teid = self.execute("INSERT Tag X: X name 'tag'")[0][0]
self.execute("INSERT Tag X: X name 'tagbis'")[0][0]
geid = self.execute("CWGroup G WHERE G name 'users'")[0][0]
self.execute("SET X tags Y WHERE X eid %(t)s, Y eid %(g)s",
{'g': geid, 't': teid})
rset = self.execute("Any GN,TN ORDERBY GN WHERE T? tags G, T name TN, G name GN")
self.failUnless(['users', 'tag'] in rset.rows)
self.failUnless(['activated', None] in rset.rows)
rset = self.execute("Any GN,TN ORDERBY GN WHERE T tags G?, T name TN, G name GN")
self.assertEquals(rset.rows, [[None, 'tagbis'], ['users', 'tag']])
def test_select_not_inline_rel(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Note X: X type 'a'")
self.execute("INSERT Note X: X type 'b'")
self.execute("SET X ecrit_par Y WHERE X type 'a', Y nom 'bidule'")
rset = self.execute('Note X WHERE NOT X ecrit_par P')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_not_unlinked_multiple_solutions(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Note X: X type 'a'")
self.execute("INSERT Note X: X type 'b'")
self.execute("SET Y evaluee X WHERE X type 'a', Y nom 'bidule'")
rset = self.execute('Note X WHERE NOT Y evaluee X')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_date_extraction(self):
self.execute("INSERT Personne X: X nom 'foo', X datenaiss %(d)s",
{'d': datetime(2001, 2,3, 12,13)})
test_data = [('YEAR', 2001), ('MONTH', 2), ('DAY', 3),
('HOUR', 12), ('MINUTE', 13)]
for funcname, result in test_data:
rset = self.execute('Any %s(D) WHERE X is Personne, X datenaiss D'
% funcname)
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.rows[0][0], result)
self.assertEquals(rset.description, [('Int',)])
def test_select_aggregat_count(self):
rset = self.execute('Any COUNT(X)')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Int',)])
def test_select_aggregat_sum(self):
rset = self.execute('Any SUM(O) WHERE X ordernum O')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Int',)])
def test_select_aggregat_min(self):
rset = self.execute('Any MIN(X) WHERE X is Personne')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Personne',)])
rset = self.execute('Any MIN(O) WHERE X ordernum O')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Int',)])
def test_select_aggregat_max(self):
rset = self.execute('Any MAX(X) WHERE X is Personne')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Personne',)])
rset = self.execute('Any MAX(O) WHERE X ordernum O')
self.assertEquals(len(rset.rows), 1)
self.assertEquals(len(rset.rows[0]), 1)
self.assertEquals(rset.description, [('Int',)])
def test_select_custom_aggregat_concat_string(self):
rset = self.execute('Any GROUP_CONCAT(N) WHERE X is CWGroup, X name N')
self.failUnless(rset)
self.failUnlessEqual(sorted(rset[0][0].split(', ')), ['guests', 'managers',
'owners', 'users'])
def test_select_custom_regproc_limit_size(self):
rset = self.execute('Any TEXT_LIMIT_SIZE(N, 3) WHERE X is CWGroup, X name N, X name "managers"')
self.failUnless(rset)
self.failUnlessEqual(rset[0][0], 'man...')
self.execute("INSERT Basket X: X name 'bidule', X description '<b>hop hop</b>', X description_format 'text/html'")
rset = self.execute('Any LIMIT_SIZE(D, DF, 3) WHERE X is Basket, X description D, X description_format DF')
self.failUnless(rset)
self.failUnlessEqual(rset[0][0], 'hop...')
def test_select_regproc_orderby(self):
rset = self.execute('DISTINCT Any X,N ORDERBY GROUP_SORT_VALUE(N) WHERE X is CWGroup, X name N, X name "managers"')
self.failUnlessEqual(len(rset), 1)
self.failUnlessEqual(rset[0][1], 'managers')
rset = self.execute('Any X,N ORDERBY GROUP_SORT_VALUE(N) WHERE X is CWGroup, X name N, NOT U in_group X, U login "admin"')
self.failUnlessEqual(len(rset), 3)
self.failUnlessEqual(rset[0][1], 'owners')
def test_select_aggregat_sort(self):
rset = self.execute('Any G, COUNT(U) GROUPBY G ORDERBY 2 WHERE U in_group G')
self.assertEquals(len(rset.rows), 2)
self.assertEquals(len(rset.rows[0]), 2)
self.assertEquals(rset.description[0], ('CWGroup', 'Int',))
def test_select_aggregat_having(self):
rset = self.execute('Any N,COUNT(RDEF) GROUPBY N ORDERBY 2,N '
'WHERE RT name N, RDEF relation_type RT '
'HAVING COUNT(RDEF) > 10')
self.assertListEquals(rset.rows,
[[u'description_format', 12],
[u'description', 13],
[u'name', 14],
[u'created_by', 37],
[u'creation_date', 37],
[u'cwuri', 37],
[u'in_basket', 37],
[u'is', 37],
[u'is_instance_of', 37],
[u'modification_date', 37],
[u'owned_by', 37]])
def test_select_aggregat_having_dumb(self):
# dumb but should not raise an error
rset = self.execute('Any U,COUNT(X) GROUPBY U '
'WHERE U eid %(x)s, X owned_by U '
'HAVING COUNT(X) > 10', {'x': self.ueid})
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.rows[0][0], self.ueid)
def test_select_having_non_aggregat_1(self):
rset = self.execute('Any L WHERE X login L, X creation_date CD '
'HAVING YEAR(CD) = %s' % date.today().year)
self.assertListEquals(rset.rows,
[[u'admin'],
[u'anon']])
def test_select_having_non_aggregat_2(self):
rset = self.execute('Any L GROUPBY L WHERE X login L, X in_group G, '
'X creation_date CD HAVING YEAR(CD) = %s OR COUNT(G) > 1'
% date.today().year)
self.assertListEquals(rset.rows,
[[u'admin'],
[u'anon']])
def test_select_complex_sort(self):
"""need sqlite including http://www.sqlite.org/cvstrac/tktview?tn=3773 fix"""
rset = self.execute('Any X ORDERBY X,D LIMIT 5 WHERE X creation_date D')
result = rset.rows
result.sort()
self.assertEquals(tuplify(result), [(1,), (2,), (3,), (4,), (5,)])
def test_select_upper(self):
rset = self.execute('Any X, UPPER(L) ORDERBY L WHERE X is CWUser, X login L')
self.assertEquals(len(rset.rows), 2)
self.assertEquals(rset.rows[0][1], 'ADMIN')
self.assertEquals(rset.description[0], ('CWUser', 'String',))
self.assertEquals(rset.rows[1][1], 'ANON')
self.assertEquals(rset.description[1], ('CWUser', 'String',))
eid = rset.rows[0][0]
rset = self.execute('Any UPPER(L) WHERE X eid %s, X login L'%eid)
self.assertEquals(rset.rows[0][0], 'ADMIN')
self.assertEquals(rset.description, [('String',)])
## def test_select_simplified(self):
## ueid = self.session.user.eid
## rset = self.execute('Any L WHERE %s login L'%ueid)
## self.assertEquals(rset.rows[0][0], 'admin')
## rset = self.execute('Any L WHERE %(x)s login L', {'x':ueid})
## self.assertEquals(rset.rows[0][0], 'admin')
def test_select_searchable_text_1(self):
rset = self.execute(u"INSERT Personne X: X nom 'bid�le'")
rset = self.execute(u"INSERT Societe X: X nom 'bid�le'")
rset = self.execute("INSERT Societe X: X nom 'chouette'")
self.commit()
rset = self.execute('Any X where X has_text %(text)s', {'text': u'bid�le'})
self.assertEquals(len(rset.rows), 2, rset.rows)
rset = self.execute(u'Any N where N has_text "bid�le"')
self.assertEquals(len(rset.rows), 2, rset.rows)
biduleeids = [r[0] for r in rset.rows]
rset = self.execute(u'Any N where NOT N has_text "bid�le"')
self.failIf([r[0] for r in rset.rows if r[0] in biduleeids])
# duh?
rset = self.execute('Any X WHERE X has_text %(text)s', {'text': u'�a'})
def test_select_searchable_text_2(self):
rset = self.execute("INSERT Personne X: X nom 'bidule'")
rset = self.execute("INSERT Personne X: X nom 'chouette'")
rset = self.execute("INSERT Societe X: X nom 'bidule'")
self.commit()
rset = self.execute('Personne N where N has_text "bidule"')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_searchable_text_3(self):
rset = self.execute("INSERT Personne X: X nom 'bidule', X sexe 'M'")
rset = self.execute("INSERT Personne X: X nom 'bidule', X sexe 'F'")
rset = self.execute("INSERT Societe X: X nom 'bidule'")
self.commit()
rset = self.execute('Any X where X has_text "bidule" and X sexe "M"')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_multiple_searchable_text(self):
self.execute(u"INSERT Personne X: X nom 'bid�le'")
self.execute("INSERT Societe X: X nom 'chouette', S travaille X")
self.execute(u"INSERT Personne X: X nom 'bid�le'")
self.commit()
rset = self.execute('Personne X WHERE X has_text %(text)s, X travaille S, S has_text %(text2)s',
{'text': u'bid�le',
'text2': u'chouette',}
)
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_no_descr(self):
rset = self.execute('Any X WHERE X is CWGroup', build_descr=0)
rset.rows.sort()
self.assertEquals(tuplify(rset.rows), [(1,), (2,), (3,), (4,)])
self.assertEquals(rset.description, ())
def test_select_limit_offset(self):
rset = self.execute('CWGroup X ORDERBY N LIMIT 2 WHERE X name N')
self.assertEquals(tuplify(rset.rows), [(1,), (2,)])
self.assertEquals(rset.description, [('CWGroup',), ('CWGroup',)])
rset = self.execute('CWGroup X ORDERBY N LIMIT 2 OFFSET 2 WHERE X name N')
self.assertEquals(tuplify(rset.rows), [(3,), (4,)])
def test_select_symmetric(self):
self.execute("INSERT Personne X: X nom 'machin'")
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Personne X: X nom 'chouette'")
self.execute("INSERT Personne X: X nom 'trucmuche'")
self.execute("SET X connait Y WHERE X nom 'chouette', Y nom 'bidule'")
self.execute("SET X connait Y WHERE X nom 'machin', Y nom 'chouette'")
rset = self.execute('Any P where P connait P2')
self.assertEquals(len(rset.rows), 3, rset.rows)
rset = self.execute('Any P where NOT P connait P2')
self.assertEquals(len(rset.rows), 1, rset.rows) # trucmuche
rset = self.execute('Any P where P connait P2, P2 nom "bidule"')
self.assertEquals(len(rset.rows), 1, rset.rows)
rset = self.execute('Any P where P2 connait P, P2 nom "bidule"')
self.assertEquals(len(rset.rows), 1, rset.rows)
rset = self.execute('Any P where P connait P2, P2 nom "chouette"')
self.assertEquals(len(rset.rows), 2, rset.rows)
rset = self.execute('Any P where P2 connait P, P2 nom "chouette"')
self.assertEquals(len(rset.rows), 2, rset.rows)
def test_select_inline(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Note X: X type 'a'")
self.execute("SET X ecrit_par Y WHERE X type 'a', Y nom 'bidule'")
rset = self.execute('Any N where N ecrit_par X, X nom "bidule"')
self.assertEquals(len(rset.rows), 1, rset.rows)
def test_select_creation_date(self):
self.execute("INSERT Personne X: X nom 'bidule'")
rset = self.execute('Any D WHERE X nom "bidule", X creation_date D')
self.assertEqual(len(rset.rows), 1)
def test_select_or_relation(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Personne X: X nom 'chouette'")
self.execute("INSERT Societe X: X nom 'logilab'")
self.execute("INSERT Societe X: X nom 'caesium'")
self.execute("SET P travaille S WHERE P nom 'bidule', S nom 'logilab'")
rset = self.execute('DISTINCT Any P WHERE P travaille S1 OR P travaille S2, S1 nom "logilab", S2 nom "caesium"')
self.assertEqual(len(rset.rows), 1)
self.execute("SET P travaille S WHERE P nom 'chouette', S nom 'caesium'")
rset = self.execute('DISTINCT Any P WHERE P travaille S1 OR P travaille S2, S1 nom "logilab", S2 nom "caesium"')
self.assertEqual(len(rset.rows), 2)
def test_select_or_sym_relation(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Personne X: X nom 'chouette'")
self.execute("INSERT Personne X: X nom 'truc'")
self.execute("SET P connait S WHERE P nom 'bidule', S nom 'chouette'")
rset = self.execute('DISTINCT Any P WHERE S connait P, S nom "chouette"')
self.assertEqual(len(rset.rows), 1, rset.rows)
rset = self.execute('DISTINCT Any P WHERE P connait S or S connait P, S nom "chouette"')
self.assertEqual(len(rset.rows), 1, rset.rows)
self.execute("SET P connait S WHERE P nom 'chouette', S nom 'truc'")
rset = self.execute('DISTINCT Any P WHERE S connait P, S nom "chouette"')
self.assertEqual(len(rset.rows), 2, rset.rows)
rset = self.execute('DISTINCT Any P WHERE P connait S OR S connait P, S nom "chouette"')
self.assertEqual(len(rset.rows), 2, rset.rows)
def test_select_follow_relation(self):
self.execute("INSERT Affaire X: X sujet 'cool'")
self.execute("INSERT Societe X: X nom 'chouette'")
self.execute("SET A concerne S WHERE A is Affaire, S is Societe")
self.execute("INSERT Note X: X para 'truc'")
self.execute("SET S evaluee N WHERE S is Societe, N is Note")
self.execute("INSERT Societe X: X nom 'bidule'")
self.execute("INSERT Note X: X para 'troc'")
self.execute("SET S evaluee N WHERE S nom 'bidule', N para 'troc'")
rset = self.execute('DISTINCT Any A,N WHERE A concerne S, S evaluee N')
self.assertEqual(len(rset.rows), 1, rset.rows)
def test_select_ordered_distinct_1(self):
self.execute("INSERT Affaire X: X sujet 'cool', X ref '1'")
self.execute("INSERT Affaire X: X sujet 'cool', X ref '2'")
rset = self.execute('DISTINCT Any S ORDERBY R WHERE A is Affaire, A sujet S, A ref R')
self.assertEqual(rset.rows, [['cool']])
def test_select_ordered_distinct_2(self):
self.execute("INSERT Affaire X: X sujet 'minor'")
self.execute("INSERT Affaire X: X sujet 'important'")
self.execute("INSERT Affaire X: X sujet 'normal'")
self.execute("INSERT Affaire X: X sujet 'zou'")
self.execute("INSERT Affaire X: X sujet 'abcd'")
rset = self.execute('DISTINCT Any S ORDERBY S WHERE A is Affaire, A sujet S')
self.assertEqual(rset.rows, [['abcd'], ['important'], ['minor'], ['normal'], ['zou']])
def test_select_ordered_distinct_3(self):
rset = self.execute('DISTINCT Any N ORDERBY GROUP_SORT_VALUE(N) WHERE X is CWGroup, X name N')
self.assertEqual(rset.rows, [['owners'], ['guests'], ['users'], ['managers']])
def test_select_or_value(self):
rset = self.execute('Any U WHERE U in_group G, G name "owners" OR G name "users"')
self.assertEqual(len(rset.rows), 0)
rset = self.execute('Any U WHERE U in_group G, G name "guests" OR G name "managers"')
self.assertEqual(len(rset.rows), 2)
def test_select_explicit_eid(self):
rset = self.execute('Any X,E WHERE X owned_by U, X eid E, U eid %(u)s', {'u': self.session.user.eid})
self.failUnless(rset)
self.assertEquals(rset.description[0][1], 'Int')
# def test_select_rewritten_optional(self):
# eid = self.execute("INSERT Affaire X: X sujet 'cool'")[0][0]
# rset = self.execute('Any X WHERE X eid %(x)s, EXISTS(X owned_by U) OR EXISTS(X concerne S?, S owned_by U)',
# {'x': eid}, 'x')
# self.assertEquals(rset.rows, [[eid]])
def test_today_bug(self):
self.execute("INSERT Tag X: X name 'bidule', X creation_date NOW")
self.execute("INSERT Tag Y: Y name 'toto'")
rset = self.execute("Any D WHERE X name in ('bidule', 'toto') , X creation_date D")
self.assert_(isinstance(rset.rows[0][0], datetime), rset.rows)
rset = self.execute('Tag X WHERE X creation_date TODAY')
self.assertEqual(len(rset.rows), 2)
rset = self.execute('Any MAX(D) WHERE X is Tag, X creation_date D')
self.failUnless(isinstance(rset[0][0], datetime), type(rset[0][0]))
def test_today(self):
self.execute("INSERT Tag X: X name 'bidule', X creation_date TODAY")
self.execute("INSERT Tag Y: Y name 'toto'")
rset = self.execute('Tag X WHERE X creation_date TODAY')
self.assertEqual(len(rset.rows), 2)
def test_select_boolean(self):
rset = self.execute('Any N WHERE X is CWEType, X name N, X final %(val)s',
{'val': True})
self.assertEquals(sorted(r[0] for r in rset.rows), ['Boolean', 'Bytes',
'Date', 'Datetime',
'Decimal', 'Float',
'Int', 'Interval',
'Password', 'String',
'Time'])
rset = self.execute('Any N WHERE X is CWEType, X name N, X final TRUE')
self.assertEquals(sorted(r[0] for r in rset.rows), ['Boolean', 'Bytes',
'Date', 'Datetime',
'Decimal', 'Float',
'Int', 'Interval',
'Password', 'String',
'Time'])
def test_select_constant(self):
rset = self.execute('Any X, "toto" ORDERBY X WHERE X is CWGroup')
self.assertEquals(rset.rows,
map(list, zip((1,2,3,4), ('toto','toto','toto','toto',))))
self.assertIsInstance(rset[0][1], unicode)
self.assertEquals(rset.description,
zip(('CWGroup', 'CWGroup', 'CWGroup', 'CWGroup'),
('String', 'String', 'String', 'String',)))
rset = self.execute('Any X, %(value)s ORDERBY X WHERE X is CWGroup', {'value': 'toto'})
self.assertEquals(rset.rows,
map(list, zip((1,2,3,4), ('toto','toto','toto','toto',))))
self.assertIsInstance(rset[0][1], unicode)
self.assertEquals(rset.description,
zip(('CWGroup', 'CWGroup', 'CWGroup', 'CWGroup'),
('String', 'String', 'String', 'String',)))
rset = self.execute('Any X,GN WHERE X is CWUser, G is CWGroup, X login "syt", X in_group G, G name GN')
def test_select_union(self):
rset = self.execute('Any X,N ORDERBY N WITH X,N BEING '
'((Any X,N WHERE X name N, X transition_of WF, WF workflow_of E, E name %(name)s)'
' UNION '
'(Any X,N WHERE X name N, X state_of WF, WF workflow_of E, E name %(name)s))',
{'name': 'CWUser'})
self.assertEquals([x[1] for x in rset.rows],
['activate', 'activated', 'deactivate', 'deactivated'])
self.assertEquals(rset.description,
[('Transition', 'String'), ('State', 'String'),
('Transition', 'String'), ('State', 'String')])
def test_select_union_aggregat(self):
# meaningless, the goal in to have group by done on different attribute
# for each sub-query
self.execute('(Any N,COUNT(X) GROUPBY N WHERE X name N, X is State)'
' UNION '
'(Any N,COUNT(X) GROUPBY N ORDERBY 2 WHERE X login N)')
def test_select_union_aggregat_independant_group(self):
self.execute('INSERT State X: X name "hop"')
self.execute('INSERT State X: X name "hop"')
self.execute('INSERT Transition X: X name "hop"')
self.execute('INSERT Transition X: X name "hop"')
rset = self.execute('Any N,NX ORDERBY 2 WITH N,NX BEING '
'((Any N,COUNT(X) GROUPBY N WHERE X name N, X is State HAVING COUNT(X)>1)'
' UNION '
'(Any N,COUNT(X) GROUPBY N WHERE X name N, X is Transition HAVING COUNT(X)>1))')
self.assertEquals(rset.rows, [[u'hop', 2], [u'hop', 2]])
def test_select_union_selection_with_diff_variables(self):
rset = self.execute('(Any N WHERE X name N, X is State)'
' UNION '
'(Any NN WHERE XX name NN, XX is Transition)')
self.assertEquals(sorted(r[0] for r in rset.rows),
['abort', 'activate', 'activated', 'ben non',
'deactivate', 'deactivated', 'done', 'en cours',
'end', 'finie', 'markasdone', 'pitetre', 'redoit',
'start', 'todo'])
def test_select_union_description_diff_var(self):
eid1 = self.execute('CWGroup X WHERE X name "managers"')[0][0]
eid2 = self.execute('CWUser X WHERE X login "admin"')[0][0]
rset = self.execute('(Any X WHERE X eid %(x)s)'
' UNION '
'(Any Y WHERE Y eid %(y)s)',
{'x': eid1, 'y': eid2})
self.assertEquals(rset.description[:], [('CWGroup',), ('CWUser',)])
def test_exists(self):
geid = self.execute("INSERT CWGroup X: X name 'lulufanclub'")[0][0]
self.execute("SET U in_group G WHERE G name 'lulufanclub'")
peid = self.execute("INSERT Personne X: X prenom 'lulu', X nom 'petit'")[0][0]
rset = self.execute("Any X WHERE X prenom 'lulu',"
"EXISTS (U in_group G, G name 'lulufanclub' OR G name 'managers');")
self.assertEquals(rset.rows, [[peid]])
def test_identity(self):
eid = self.execute('Any X WHERE X identity Y, Y eid 1')[0][0]
self.assertEquals(eid, 1)
eid = self.execute('Any X WHERE Y identity X, Y eid 1')[0][0]
self.assertEquals(eid, 1)
login = self.execute('Any L WHERE X login "admin", X identity Y, Y login L')[0][0]
self.assertEquals(login, 'admin')
def test_select_date_mathexp(self):
rset = self.execute('Any X, TODAY - CD WHERE X is CWUser, X creation_date CD')
self.failUnless(rset)
self.failUnlessEqual(rset.description[0][1], 'Interval')
eid, = self.execute("INSERT Personne X: X nom 'bidule'")[0]
rset = self.execute('Any X, NOW - CD WHERE X is Personne, X creation_date CD')
self.failUnlessEqual(rset.description[0][1], 'Interval')
def test_select_subquery_aggregat(self):
# percent users by groups
self.execute('SET X in_group G WHERE G name "users"')
rset = self.execute('Any GN, COUNT(X)*100/T GROUPBY GN ORDERBY 2,1'
' WHERE G name GN, X in_group G'
' WITH T BEING (Any COUNT(U) WHERE U is CWUser)')
self.assertEquals(rset.rows, [[u'guests', 50], [u'managers', 50], [u'users', 100]])
self.assertEquals(rset.description, [('String', 'Int'), ('String', 'Int'), ('String', 'Int')])
def test_select_subquery_const(self):
rset = self.execute('Any X WITH X BEING ((Any NULL) UNION (Any "toto"))')
self.assertEquals(rset.rows, [[None], ['toto']])
self.assertEquals(rset.description, [(None,), ('String',)])
# insertion queries tests #################################################
def test_insert_is(self):
eid, = self.execute("INSERT Personne X: X nom 'bidule'")[0]
etype, = self.execute("Any TN WHERE X is T, X eid %s, T name TN" % eid)[0]
self.assertEquals(etype, 'Personne')
self.execute("INSERT Personne X: X nom 'managers'")
def test_insert_1(self):
rset = self.execute("INSERT Personne X: X nom 'bidule'")
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.description, [('Personne',)])
rset = self.execute('Personne X WHERE X nom "bidule"')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne',)])
def test_insert_1_multiple(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Personne X: X nom 'chouette'")
rset = self.execute("INSERT Societe Y: Y nom N, P travaille Y WHERE P nom N")
self.assertEquals(len(rset.rows), 2)
self.assertEquals(rset.description, [('Societe',), ('Societe',)])
def test_insert_2(self):
rset = self.execute("INSERT Personne X, Personne Y: X nom 'bidule', Y nom 'tutu'")
self.assertEquals(rset.description, [('Personne', 'Personne')])
rset = self.execute('Personne X WHERE X nom "bidule" or X nom "tutu"')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne',), ('Personne',)])
def test_insert_3(self):
self.execute("INSERT Personne X: X nom Y WHERE U login 'admin', U login Y")
rset = self.execute('Personne X WHERE X nom "admin"')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne',)])
def test_insert_4(self):
self.execute("INSERT Societe Y: Y nom 'toto'")
self.execute("INSERT Personne X: X nom 'bidule', X travaille Y WHERE Y nom 'toto'")
rset = self.execute('Any X, Y WHERE X nom "bidule", Y nom "toto", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_4bis(self):
peid = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
seid = self.execute("INSERT Societe Y: Y nom 'toto', X travaille Y WHERE X eid %(x)s",
{'x': str(peid)})[0][0]
self.assertEqual(len(self.execute('Any X, Y WHERE X travaille Y')), 1)
self.execute("INSERT Personne X: X nom 'chouette', X travaille Y WHERE Y eid %(x)s",
{'x': str(seid)})
self.assertEqual(len(self.execute('Any X, Y WHERE X travaille Y')), 2)
def test_insert_4ter(self):
peid = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
seid = self.execute("INSERT Societe Y: Y nom 'toto', X travaille Y WHERE X eid %(x)s",
{'x': unicode(peid)})[0][0]
self.assertEqual(len(self.execute('Any X, Y WHERE X travaille Y')), 1)
self.execute("INSERT Personne X: X nom 'chouette', X travaille Y WHERE Y eid %(x)s",
{'x': unicode(seid)})
self.assertEqual(len(self.execute('Any X, Y WHERE X travaille Y')), 2)
def test_insert_5(self):
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Societe Y: Y nom 'toto', X travaille Y WHERE X nom 'bidule'")
rset = self.execute('Any X, Y WHERE X nom "bidule", Y nom "toto", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_5bis(self):
peid = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
self.execute("INSERT Societe Y: Y nom 'toto', X travaille Y WHERE X eid %(x)s",
{'x': peid})
rset = self.execute('Any X, Y WHERE X nom "bidule", Y nom "toto", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_6(self):
self.execute("INSERT Personne X, Societe Y: X nom 'bidule', Y nom 'toto', X travaille Y")
rset = self.execute('Any X, Y WHERE X nom "bidule", Y nom "toto", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_7(self):
self.execute("INSERT Personne X, Societe Y: X nom N, Y nom 'toto', X travaille Y WHERE U login 'admin', U login N")
rset = self.execute('Any X, Y WHERE X nom "admin", Y nom "toto", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_7_2(self):
self.execute("INSERT Personne X, Societe Y: X nom N, Y nom 'toto', X travaille Y WHERE U login N")
rset = self.execute('Any X, Y WHERE Y nom "toto", X travaille Y')
self.assertEquals(len(rset), 2)
self.assertEquals(rset.description, [('Personne', 'Societe',),
('Personne', 'Societe',)])
def test_insert_8(self):
self.execute("INSERT Societe Y, Personne X: Y nom N, X nom 'toto', X travaille Y WHERE U login 'admin', U login N")
rset = self.execute('Any X, Y WHERE X nom "toto", Y nom "admin", X travaille Y')
self.assert_(rset.rows)
self.assertEquals(rset.description, [('Personne', 'Societe',)])
def test_insert_9(self):
self.execute("INSERT Societe X: X nom 'Lo'")
self.execute("INSERT Societe X: X nom 'Gi'")
self.execute("INSERT SubDivision X: X nom 'Lab'")
rset = self.execute("INSERT Personne X: X nom N, X travaille Y, X travaille_subdivision Z WHERE Y is Societe, Z is SubDivision, Y nom N")
self.assertEquals(len(rset), 2)
self.assertEquals(rset.description, [('Personne',), ('Personne',)])
# self.assertSetEquals(set(x.nom for x in rset.entities()),
# ['Lo', 'Gi'])
# self.assertSetEquals(set(y.nom for x in rset.entities() for y in x.travaille),
# ['Lo', 'Gi'])
# self.assertEquals([y.nom for x in rset.entities() for y in x.travaille_subdivision],
# ['Lab', 'Lab'])
def test_insert_query_error(self):
self.assertRaises(Exception,
self.execute,
"INSERT Personne X: X nom 'toto', X is Personne")
self.assertRaises(Exception,
self.execute,
"INSERT Personne X: X nom 'toto', X is_instance_of Personne")
self.assertRaises(QueryError,
self.execute,
"INSERT Personne X: X nom 'toto', X has_text 'tutu'")
self.assertRaises(QueryError,
self.execute,
"INSERT CWUser X: X login 'toto', X eid %s" % cnx.user(self.session).eid)
def test_insertion_description_with_where(self):
rset = self.execute('INSERT CWUser E, EmailAddress EM: E login "X", E upassword "X", '
'E primary_email EM, EM address "X", E in_group G '
'WHERE G name "managers"')
self.assertEquals(list(rset.description[0]), ['CWUser', 'EmailAddress'])
# deletion queries tests ##################################################
def test_delete_1(self):
self.execute("INSERT Personne Y: Y nom 'toto'")
rset = self.execute('Personne X WHERE X nom "toto"')
self.assertEqual(len(rset.rows), 1)
drset = self.execute("DELETE Personne Y WHERE Y nom 'toto'")
self.assertEqual(drset.rows, rset.rows)
rset = self.execute('Personne X WHERE X nom "toto"')
self.assertEqual(len(rset.rows), 0)
def test_delete_2(self):
rset = self.execute("INSERT Personne X, Personne Y, Societe Z : X nom 'syt', Y nom 'adim', Z nom 'Logilab', X travaille Z, Y travaille Z")
self.assertEquals(len(rset), 1)
self.assertEquals(len(rset[0]), 3)
self.assertEquals(rset.description[0], ('Personne', 'Personne', 'Societe'))
self.assertEquals(self.execute('Any N WHERE X nom N, X eid %s'% rset[0][0])[0][0], 'syt')
rset = self.execute('Personne X WHERE X travaille Y, Y nom "Logilab"')
self.assertEqual(len(rset.rows), 2, rset.rows)
self.execute("DELETE X travaille Y WHERE X is Personne, Y nom 'Logilabo'")
rset = self.execute('Personne X WHERE X travaille Y, Y nom "Logilab"')
self.assertEqual(len(rset.rows), 2, rset.rows)
self.execute("DELETE X travaille Y WHERE X is Personne, Y nom 'Logilab'")
rset = self.execute('Personne X WHERE X travaille Y, Y nom "Logilab"')
self.assertEqual(len(rset.rows), 0, rset.rows)
def test_delete_3(self):
s = self.user_groups_session('users')
peid, = self.o.execute(s, "INSERT Personne P: P nom 'toto'")[0]
seid, = self.o.execute(s, "INSERT Societe S: S nom 'logilab'")[0]
self.o.execute(s, "SET P travaille S")
rset = self.execute('Personne P WHERE P travaille S')
self.assertEqual(len(rset.rows), 1)
self.execute("DELETE X travaille Y WHERE X eid %s, Y eid %s" % (peid, seid))
rset = self.execute('Personne P WHERE P travaille S')
self.assertEqual(len(rset.rows), 0)
def test_delete_symmetric(self):
teid1 = self.execute("INSERT Folder T: T name 'toto'")[0][0]
teid2 = self.execute("INSERT Folder T: T name 'tutu'")[0][0]
self.execute('SET X see_also Y WHERE X eid %s, Y eid %s' % (teid1, teid2))
rset = self.execute('Any X,Y WHERE X see_also Y')
self.assertEquals(len(rset) , 2, rset.rows)
self.execute('DELETE X see_also Y WHERE X eid %s, Y eid %s' % (teid1, teid2))
rset = self.execute('Any X,Y WHERE X see_also Y')
self.assertEquals(len(rset) , 0)
self.execute('SET X see_also Y WHERE X eid %s, Y eid %s' % (teid1, teid2))
rset = self.execute('Any X,Y WHERE X see_also Y')
self.assertEquals(len(rset) , 2)
self.execute('DELETE X see_also Y WHERE X eid %s, Y eid %s' % (teid2, teid1))
rset = self.execute('Any X,Y WHERE X see_also Y')
self.assertEquals(len(rset) , 0)
def test_nonregr_delete_cache(self):
"""test that relations are properly cleaned when an entity is deleted
(using cachekey on sql generation returned always the same query for an eid,
whatever the relation)
"""
s = self.user_groups_session('users')
aeid, = self.o.execute(s, 'INSERT EmailAddress X: X address "toto@logilab.fr", X alias "hop"')[0]
# XXX would be nice if the rql below was enough...
#'INSERT Email X: X messageid "<1234>", X subject "test", X sender Y, X recipients Y'
eeid, = self.o.execute(s, 'INSERT Email X: X messageid "<1234>", X subject "test", X sender Y, X recipients Y WHERE Y is EmailAddress')[0]
self.o.execute(s, "DELETE Email X")
sqlc = s.pool['system']
sqlc.execute('SELECT * FROM recipients_relation')
self.assertEquals(len(sqlc.fetchall()), 0)
sqlc.execute('SELECT * FROM owned_by_relation WHERE eid_from=%s'%eeid)
self.assertEquals(len(sqlc.fetchall()), 0)
def test_nonregr_delete_cache2(self):
eid = self.execute("INSERT Folder T: T name 'toto'")[0][0]
self.commit()
# fill the cache
self.execute("Any X WHERE X eid %(x)s", {'x': eid})
self.execute("Any X WHERE X eid %s" %eid)
self.execute("Folder X WHERE X eid %(x)s", {'x': eid})
self.execute("Folder X WHERE X eid %s" %eid)
self.execute("DELETE Folder T WHERE T eid %s"%eid)
self.commit()
rset = self.execute("Any X WHERE X eid %(x)s", {'x': eid})
self.assertEquals(rset.rows, [])
rset = self.execute("Any X WHERE X eid %s" %eid)
self.assertEquals(rset.rows, [])
rset = self.execute("Folder X WHERE X eid %(x)s", {'x': eid})
self.assertEquals(rset.rows, [])
rset = self.execute("Folder X WHERE X eid %s" %eid)
self.assertEquals(rset.rows, [])
# update queries tests ####################################################
def test_update_1(self):
peid = self.execute("INSERT Personne Y: Y nom 'toto'")[0][0]
rset = self.execute('Personne X WHERE X nom "toto"')
self.assertEqual(len(rset.rows), 1)
rset = self.execute("SET X nom 'tutu', X prenom 'original' WHERE X is Personne, X nom 'toto'")
self.assertEqual(tuplify(rset.rows), [(peid, 'tutu', 'original')])
rset = self.execute('Any Y, Z WHERE X is Personne, X nom Y, X prenom Z')
self.assertEqual(tuplify(rset.rows), [('tutu', 'original')])
def test_update_2(self):
peid, seid = self.execute("INSERT Personne X, Societe Y: X nom 'bidule', Y nom 'toto'")[0]
rset = self.execute("SET X travaille Y WHERE X nom 'bidule', Y nom 'toto'")
self.assertEquals(tuplify(rset.rows), [(peid, seid)])
rset = self.execute('Any X, Y WHERE X travaille Y')
self.assertEqual(len(rset.rows), 1)
def test_update_2bis(self):
rset = self.execute("INSERT Personne X, Societe Y: X nom 'bidule', Y nom 'toto'")
eid1, eid2 = rset[0][0], rset[0][1]
self.execute("SET X travaille Y WHERE X eid %(x)s, Y eid %(y)s",
{'x': str(eid1), 'y': str(eid2)})
rset = self.execute('Any X, Y WHERE X travaille Y')
self.assertEqual(len(rset.rows), 1)
# test add of an existant relation but with NOT X rel Y protection
self.failIf(self.execute("SET X travaille Y WHERE X eid %(x)s, Y eid %(y)s,"
"NOT X travaille Y",
{'x': str(eid1), 'y': str(eid2)}))
def test_update_2ter(self):
rset = self.execute("INSERT Personne X, Societe Y: X nom 'bidule', Y nom 'toto'")
eid1, eid2 = rset[0][0], rset[0][1]
self.execute("SET X travaille Y WHERE X eid %(x)s, Y eid %(y)s",
{'x': unicode(eid1), 'y': unicode(eid2)})
rset = self.execute('Any X, Y WHERE X travaille Y')
self.assertEqual(len(rset.rows), 1)
def test_update_multiple1(self):
peid1 = self.execute("INSERT Personne Y: Y nom 'tutu'")[0][0]
peid2 = self.execute("INSERT Personne Y: Y nom 'toto'")[0][0]
self.execute("SET X nom 'tutu', Y nom 'toto' WHERE X nom 'toto', Y nom 'tutu'")
self.assertEquals(self.execute('Any X WHERE X nom "toto"').rows, [[peid1]])
self.assertEquals(self.execute('Any X WHERE X nom "tutu"').rows, [[peid2]])
def test_update_multiple2(self):
ueid = self.execute("INSERT CWUser X: X login 'bob', X upassword 'toto'")[0][0]
peid1 = self.execute("INSERT Personne Y: Y nom 'turlu'")[0][0]
peid2 = self.execute("INSERT Personne Y: Y nom 'tutu'")[0][0]
self.execute('SET P1 owned_by U, P2 owned_by U '
'WHERE P1 eid %s, P2 eid %s, U eid %s' % (peid1, peid2, ueid))
self.failUnless(self.execute('Any X WHERE X eid %s, X owned_by U, U eid %s'
% (peid1, ueid)))
self.failUnless(self.execute('Any X WHERE X eid %s, X owned_by U, U eid %s'
% (peid2, ueid)))
def test_update_math_expr(self):
orders = [r[0] for r in self.execute('Any O ORDERBY O WHERE ST name "Personne", X from_entity ST, X ordernum O')]
for i,v in enumerate(orders):
if v != orders[0]:
splitidx = i
break
self.execute('SET X ordernum Y+1 WHERE X from_entity SE, SE name "Personne", X ordernum Y, X ordernum >= %(order)s',
{'order': orders[splitidx]})
orders2 = [r[0] for r in self.execute('Any O ORDERBY O WHERE ST name "Personne", X from_entity ST, X ordernum O')]
orders = orders[:splitidx] + [o+1 for o in orders[splitidx:]]
self.assertEquals(orders2, orders)
def test_update_string_concat(self):
beid = self.execute("INSERT Bookmark Y: Y title 'toto', Y path '/view'")[0][0]
self.execute('SET X title XN + %(suffix)s WHERE X is Bookmark, X title XN', {'suffix': u'-moved'})
newname = self.execute('Any XN WHERE X eid %(x)s, X title XN', {'x': beid})[0][0]
self.assertEquals(newname, 'toto-moved')
def test_update_query_error(self):
self.execute("INSERT Personne Y: Y nom 'toto'")
self.assertRaises(Exception, self.execute, "SET X nom 'toto', X is Personne")
self.assertRaises(QueryError, self.execute, "SET X nom 'toto', X has_text 'tutu' WHERE X is Personne")
self.assertRaises(QueryError, self.execute, "SET X login 'tutu', X eid %s" % cnx.user(self.session).eid)
# upassword encryption tests #################################################
def test_insert_upassword(self):
rset = self.execute("INSERT CWUser X: X login 'bob', X upassword 'toto'")
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.description, [('CWUser',)])
self.assertRaises(Unauthorized,
self.execute, "Any P WHERE X is CWUser, X login 'bob', X upassword P")
cursor = self.pool['system']
cursor.execute("SELECT %supassword from %sCWUser WHERE %slogin='bob'"
% (SQL_PREFIX, SQL_PREFIX, SQL_PREFIX))
passwd = str(cursor.fetchone()[0])
self.assertEquals(passwd, crypt_password('toto', passwd[:2]))
rset = self.execute("Any X WHERE X is CWUser, X login 'bob', X upassword %(pwd)s",
{'pwd': Binary(passwd)})
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.description, [('CWUser',)])
def test_update_upassword(self):
cursor = self.pool['system']
rset = self.execute("INSERT CWUser X: X login 'bob', X upassword %(pwd)s", {'pwd': 'toto'})
self.assertEquals(rset.description[0][0], 'CWUser')
rset = self.execute("SET X upassword %(pwd)s WHERE X is CWUser, X login 'bob'",
{'pwd': 'tutu'})
cursor.execute("SELECT %supassword from %sCWUser WHERE %slogin='bob'"
% (SQL_PREFIX, SQL_PREFIX, SQL_PREFIX))
passwd = str(cursor.fetchone()[0])
self.assertEquals(passwd, crypt_password('tutu', passwd[:2]))
rset = self.execute("Any X WHERE X is CWUser, X login 'bob', X upassword %(pwd)s",
{'pwd': Binary(passwd)})
self.assertEquals(len(rset.rows), 1)
self.assertEquals(rset.description, [('CWUser',)])
# non regression tests ####################################################
def test_nonregr_1(self):
teid = self.execute("INSERT Tag X: X name 'tag'")[0][0]
self.execute("SET X tags Y WHERE X name 'tag', Y is State, Y name 'activated'")
rset = self.execute('Any X WHERE T tags X')
self.assertEquals(len(rset.rows), 1, rset.rows)
rset = self.execute('Any T WHERE T tags X, X is State')
self.assertEquals(rset.rows, [[teid]])
rset = self.execute('Any T WHERE T tags X')
self.assertEquals(rset.rows, [[teid]])
def test_nonregr_2(self):
teid = self.execute("INSERT Tag X: X name 'tag'")[0][0]
geid = self.execute("CWGroup G WHERE G name 'users'")[0][0]
self.execute("SET X tags Y WHERE X eid %(t)s, Y eid %(g)s",
{'g': geid, 't': teid})
rset = self.execute('Any X WHERE E eid %(x)s, E tags X',
{'x': teid})
self.assertEquals(rset.rows, [[geid]])
def test_nonregr_3(self):
"""bad sql generated on the second query (destination_state is not
detected as an inlined relation)
"""
rset = self.execute('Any S,ES,T WHERE S state_of WF, WF workflow_of ET, ET name "CWUser",'
'ES allowed_transition T, T destination_state S')
self.assertEquals(len(rset.rows), 2)
def test_nonregr_4(self):
# fix variables'type, else we get (nb of entity types with a 'name' attribute)**3
# union queries and that make for instance a 266Ko sql query which is refused
# by the server (or client lib)
rset = self.execute('Any ER,SE,OE WHERE SE name "Comment", ER name "comments", OE name "Comment",'
'ER is CWRType, SE is CWEType, OE is CWEType')
self.assertEquals(len(rset), 1)
def test_nonregr_5(self):
# jpl #15505: equivalent queries returning different result sets
teid1 = self.execute("INSERT Folder X: X name 'hop'")[0][0]
teid2 = self.execute("INSERT Folder X: X name 'hip'")[0][0]
neid = self.execute("INSERT Note X: X todo_by U, X filed_under T WHERE U login 'admin', T name 'hop'")[0][0]
weid = self.execute("INSERT Affaire X: X concerne N, X filed_under T WHERE N is Note, T name 'hip'")[0][0]
rset1 = self.execute('Any N,U WHERE N filed_under T, T eid %s,'
'N todo_by U, W concerne N,'
'W is Affaire, W filed_under A, A eid %s' % (teid1, teid2))
rset2 = self.execute('Any N,U WHERE N filed_under T, T eid %s,'
'N todo_by U, W concerne N,'
'W filed_under A, A eid %s' % (teid1, teid2))
rset3 = self.execute('Any N,U WHERE N todo_by U, T eid %s,'
'N filed_under T, W concerne N,'
'W is Affaire, W filed_under A, A eid %s' % (teid1, teid2))
rset4 = self.execute('Any N,U WHERE N todo_by U, T eid %s,'
'N filed_under T, W concerne N,'
'W filed_under A, A eid %s' % (teid1, teid2))
self.assertEquals(rset1.rows, rset2.rows)
self.assertEquals(rset1.rows, rset3.rows)
self.assertEquals(rset1.rows, rset4.rows)
def test_nonregr_6(self):
self.execute('Any N,COUNT(S) GROUPBY N ORDERBY COUNT(N) WHERE S name N, S is State')
def test_sqlite_encoding(self):
"""XXX this test was trying to show a bug on use of lower which only
occurs with non ascii string and misconfigured locale
"""
self.execute("INSERT Tag X: X name %(name)s,"
"X modification_date %(modification_date)s,"
"X creation_date %(creation_date)s",
{'name': u'�name0',
'modification_date': '2003/03/12 11:00',
'creation_date': '2000/07/03 11:00'})
rset = self.execute('Any lower(N) ORDERBY LOWER(N) WHERE X is Tag, X name N,'
'X owned_by U, U eid %(x)s',
{'x':self.session.user.eid})
self.assertEquals(rset.rows, [[u'\xe9name0']])
def test_nonregr_description(self):
"""check that a correct description is built in case where infered
solutions may be "fusionned" into one by the querier while all solutions
are needed to build the result's description
"""
self.execute("INSERT Personne X: X nom 'bidule'")
self.execute("INSERT Societe Y: Y nom 'toto'")
beid = self.execute("INSERT Basket B: B name 'mybasket'")[0][0]
self.execute("SET X in_basket B WHERE X is Personne")
self.execute("SET X in_basket B WHERE X is Societe")
rset = self.execute('Any X WHERE X in_basket B, B eid %s' % beid)
self.assertEquals(len(rset), 2)
self.assertEquals(rset.description, [('Personne',), ('Societe',)])
def test_nonregr_cache_1(self):
peid = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
beid = self.execute("INSERT Basket X: X name 'tag'")[0][0]
self.execute("SET X in_basket Y WHERE X is Personne, Y eid %(y)s",
{'y': beid})
rset = self.execute("Any X WHERE X in_basket B, B eid %(x)s",
{'x': beid})
self.assertEquals(rset.rows, [[peid]])
rset = self.execute("Any X WHERE X in_basket B, B eid %(x)s",
{'x': beid})
self.assertEquals(rset.rows, [[peid]])
def test_nonregr_has_text_cache(self):
eid1 = self.execute("INSERT Personne X: X nom 'bidule'")[0][0]
eid2 = self.execute("INSERT Personne X: X nom 'tag'")[0][0]
self.commit()
rset = self.execute("Any X WHERE X has_text %(text)s", {'text': 'bidule'})
self.assertEquals(rset.rows, [[eid1]])
rset = self.execute("Any X WHERE X has_text %(text)s", {'text': 'tag'})
self.assertEquals(rset.rows, [[eid2]])
def test_nonregr_sortterm_management(self):
"""Error: Variable has no attribute 'sql' in rql2sql.py (visit_variable)
cause: old variable ref inserted into a fresh rqlst copy
(in RQLSpliter._complex_select_plan)
need sqlite including http://www.sqlite.org/cvstrac/tktview?tn=3773 fix
"""
self.execute('Any X ORDERBY D DESC WHERE X creation_date D')
def test_nonregr_extra_joins(self):
ueid = self.session.user.eid
teid1 = self.execute("INSERT Folder X: X name 'folder1'")[0][0]
teid2 = self.execute("INSERT Folder X: X name 'folder2'")[0][0]
neid1 = self.execute("INSERT Note X: X para 'note1'")[0][0]
neid2 = self.execute("INSERT Note X: X para 'note2'")[0][0]
self.execute("SET X filed_under Y WHERE X eid %s, Y eid %s"
% (neid1, teid1))
self.execute("SET X filed_under Y WHERE X eid %s, Y eid %s"
% (neid2, teid2))
self.execute("SET X todo_by Y WHERE X is Note, Y eid %s" % ueid)
rset = self.execute('Any N WHERE N todo_by U, N is Note, U eid %s, N filed_under T, T eid %s'
% (ueid, teid1))
self.assertEquals(len(rset), 1)
def test_nonregr_XXX(self):
teid = self.execute('Transition S WHERE S name "deactivate"')[0][0]
rset = self.execute('Any O WHERE O is State, '
'S eid %(x)s, S transition_of ET, O state_of ET', {'x': teid})
self.assertEquals(len(rset), 2)
rset = self.execute('Any O WHERE O is State, NOT S destination_state O, '
'S eid %(x)s, S transition_of ET, O state_of ET', {'x': teid})
self.assertEquals(len(rset), 1)
def test_nonregr_set_datetime(self):
# huum, psycopg specific
self.execute('SET X creation_date %(date)s WHERE X eid 1', {'date': date.today()})
def test_nonregr_set_query(self):
ueid = self.execute("INSERT CWUser X: X login 'bob', X upassword 'toto'")[0][0]
self.execute("SET E in_group G, E firstname %(firstname)s, E surname %(surname)s "
"WHERE E eid %(x)s, G name 'users'",
{'x':ueid, 'firstname': u'jean', 'surname': u'paul'})
def test_nonregr_u_owned_by_u(self):
ueid = self.execute("INSERT CWUser X: X login 'bob', X upassword 'toto', X in_group G "
"WHERE G name 'users'")[0][0]
rset = self.execute("CWUser U")
self.assertEquals(len(rset), 3) # bob + admin + anon
rset = self.execute("Any U WHERE NOT U owned_by U")
self.assertEquals(len(rset), 0) # even admin created at repo initialization time should belong to itself
def test_nonreg_update_index(self):
# this is the kind of queries generated by "cubicweb-ctl db-check -ry"
self.execute("SET X description D WHERE X is State, X description D")
def test_nonregr_is(self):
uteid = self.execute('Any ET WHERE ET name "CWUser"')[0][0]
self.execute('Any X, ET WHERE X is ET, ET eid %s' % uteid)
def test_nonregr_orderby(self):
seid = self.execute('Any X WHERE X name "activated"')[0][0]
self.execute('Any X,S, MAX(T) GROUPBY X,S ORDERBY S WHERE X is CWUser, T tags X, S eid IN(%s), X in_state S' % seid)
def test_nonregr_solution_cache(self):
self.skip('XXX should be fixed or documented') # (doesn't occur if cache key is provided.)
rset = self.execute('Any X WHERE X is CWUser, X eid %(x)s', {'x':self.ueid})
self.assertEquals(len(rset), 1)
rset = self.execute('Any X WHERE X is CWUser, X eid %(x)s', {'x':12345})
self.assertEquals(len(rset), 0)
def test_nonregr_final_norestr(self):
self.assertRaises(BadRQLQuery, self.execute, 'Date X')
if __name__ == '__main__':
unittest_main()