[dbapi] Fix broken inmemory:// URLs parsing (closes #3225832)
ParseResult.path is what comes after the "domain name" in standard URLs.
So in the case of 'inmemory://<instance' URLs, it is always empty.
ParseResult.netloc contains the "domain name" part that we really want.
# copyright 2003-2013 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/>.
from logilab.common.testlib import unittest_main, TestCase
from logilab.common.testlib import mock_object
from yams import BadSchemaDefinition
from rql import parse, nodes, RQLHelper
from cubicweb import Unauthorized, rqlrewrite
from cubicweb.schema import RRQLExpression, ERQLExpression
from cubicweb.devtools import repotest, TestServerConfiguration, BaseApptestConfiguration
def setUpModule(*args):
global rqlhelper, schema
config = TestServerConfiguration(RQLRewriteTC.datapath('rewrite'))
config.bootstrap_cubes()
schema = config.load_schema()
from yams.buildobjs import RelationDefinition
schema.add_relation_def(RelationDefinition(subject='Card', name='in_state',
object='State', cardinality='1*'))
rqlhelper = RQLHelper(schema, special_relations={'eid': 'uid',
'has_text': 'fti'})
repotest.do_monkey_patch()
def tearDownModule(*args):
repotest.undo_monkey_patch()
global rqlhelper, schema
del rqlhelper, schema
def eid_func_map(eid):
return {1: 'CWUser',
2: 'Card',
3: 'Affaire'}[eid]
def rewrite(rqlst, snippets_map, kwargs, existingvars=None):
class FakeVReg:
schema = schema
@staticmethod
def solutions(sqlcursor, mainrqlst, kwargs):
rqlhelper.compute_solutions(rqlst, {'eid': eid_func_map}, kwargs=kwargs)
class rqlhelper:
@staticmethod
def annotate(rqlst):
rqlhelper.annotate(rqlst)
@staticmethod
def simplify(mainrqlst, needcopy=False):
rqlhelper.simplify(rqlst, needcopy)
rewriter = rqlrewrite.RQLRewriter(
mock_object(vreg=FakeVReg, user=(mock_object(eid=1))))
snippets = []
for v, exprs in sorted(snippets_map.items()):
rqlexprs = [isinstance(snippet, basestring)
and mock_object(snippet_rqlst=parse('Any X WHERE '+snippet).children[0],
expression='Any X WHERE '+snippet)
or snippet
for snippet in exprs]
snippets.append((dict([v]), rqlexprs))
rqlhelper.compute_solutions(rqlst.children[0], {'eid': eid_func_map}, kwargs=kwargs)
rewriter.rewrite(rqlst.children[0], snippets, kwargs, existingvars)
test_vrefs(rqlst.children[0])
return rewriter.rewritten
def test_vrefs(node):
vrefmaps = {}
selects = []
for vref in node.iget_nodes(nodes.VariableRef):
stmt = vref.stmt
try:
vrefmaps[stmt].setdefault(vref.name, set()).add(vref)
except KeyError:
vrefmaps[stmt] = {vref.name: set( (vref,) )}
selects.append(stmt)
assert node in selects
for stmt in selects:
for var in stmt.defined_vars.itervalues():
assert var.stinfo['references']
vrefmap = vrefmaps[stmt]
assert not (var.stinfo['references'] ^ vrefmap[var.name]), (node.as_string(), var, var.stinfo['references'], vrefmap[var.name])
class RQLRewriteTC(TestCase):
"""a faire:
* optimisation: detecter les relations utilisees dans les rqlexpressions qui
sont presentes dans la requete de depart pour les reutiliser si possible
* "has_<ACTION>_permission" ?
"""
def test_base_var(self):
constraint = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'X'): (constraint,)}, {})
self.assertEqual(rqlst.as_string(),
u"Any C WHERE C is Card, B eid %(D)s, "
"EXISTS(C in_state A, B in_group E, F require_state A, "
"F name 'read', F require_group E, A is State, E is CWGroup, F is CWPermission)")
def test_multiple_var(self):
card_constraint = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
affaire_constraints = ('X ref LIKE "PUBLIC%"', 'U in_group G, G name "public"')
kwargs = {'u':2}
rqlst = parse('Any S WHERE S documented_by C, C eid %(u)s')
rewrite(rqlst, {('C', 'X'): (card_constraint,), ('S', 'X'): affaire_constraints},
kwargs)
self.assertMultiLineEqual(
rqlst.as_string(),
"Any S WHERE S documented_by C, C eid %(u)s, B eid %(D)s, "
"EXISTS(C in_state A, B in_group E, F require_state A, "
"F name 'read', F require_group E, A is State, E is CWGroup, F is CWPermission), "
"(EXISTS(S ref LIKE 'PUBLIC%')) OR (EXISTS(B in_group G, G name 'public', G is CWGroup)), "
"S is Affaire")
self.assertTrue('D' in kwargs)
def test_or(self):
constraint = '(X identity U) OR (X in_state ST, CL identity U, CL in_state ST, ST name "subscribed")'
rqlst = parse('Any S WHERE S owned_by C, C eid %(u)s, S is in (CWUser, CWGroup)')
rewrite(rqlst, {('C', 'X'): (constraint,)}, {'u':1})
self.assertEqual(rqlst.as_string(),
"Any S WHERE S owned_by C, C eid %(u)s, S is IN(CWUser, CWGroup), A eid %(B)s, "
"EXISTS((C identity A) OR (C in_state D, E identity A, "
"E in_state D, D name 'subscribed'), D is State, E is CWUser)")
def test_simplified_rqlst(self):
constraint = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
rqlst = parse('Any 2') # this is the simplified rql st for Any X WHERE X eid 12
rewrite(rqlst, {('2', 'X'): (constraint,)}, {})
self.assertEqual(rqlst.as_string(),
u"Any 2 WHERE B eid %(C)s, "
"EXISTS(2 in_state A, B in_group D, E require_state A, "
"E name 'read', E require_group D, A is State, D is CWGroup, E is CWPermission)")
def test_optional_var_1(self):
constraint = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
rqlst = parse('Any A,C WHERE A documented_by C?')
rewrite(rqlst, {('C', 'X'): (constraint,)}, {})
self.assertEqual(rqlst.as_string(),
"Any A,C WHERE A documented_by C?, A is Affaire "
"WITH C BEING "
"(Any C WHERE EXISTS(C in_state B, D in_group F, G require_state B, G name 'read', "
"G require_group F), D eid %(A)s, C is Card)")
def test_optional_var_2(self):
constraint = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
rqlst = parse('Any A,C,T WHERE A documented_by C?, C title T')
rewrite(rqlst, {('C', 'X'): (constraint,)}, {})
self.assertEqual(rqlst.as_string(),
"Any A,C,T WHERE A documented_by C?, A is Affaire "
"WITH C,T BEING "
"(Any C,T WHERE C title T, EXISTS(C in_state B, D in_group F, "
"G require_state B, G name 'read', G require_group F), "
"D eid %(A)s, C is Card)")
def test_optional_var_3(self):
constraint1 = ('X in_state S, U in_group G, P require_state S,'
'P name "read", P require_group G')
constraint2 = 'X in_state S, S name "public"'
rqlst = parse('Any A,C,T WHERE A documented_by C?, C title T')
rewrite(rqlst, {('C', 'X'): (constraint1, constraint2)}, {})
self.assertEqual(rqlst.as_string(),
"Any A,C,T WHERE A documented_by C?, A is Affaire "
"WITH C,T BEING (Any C,T WHERE C title T, "
"(EXISTS(C in_state B, D in_group F, G require_state B, G name 'read', G require_group F)) "
"OR (EXISTS(C in_state E, E name 'public')), "
"D eid %(A)s, C is Card)")
def test_optional_var_4(self):
constraint1 = 'A created_by U, X documented_by A'
constraint2 = 'A created_by U, X concerne A'
constraint3 = 'X created_by U'
rqlst = parse('Any X,LA,Y WHERE LA? documented_by X, LA concerne Y')
rewrite(rqlst, {('LA', 'X'): (constraint1, constraint2),
('X', 'X'): (constraint3,),
('Y', 'X'): (constraint3,)}, {})
self.assertEqual(rqlst.as_string(),
u'Any X,LA,Y WHERE LA? documented_by X, LA concerne Y, B eid %(C)s, '
'EXISTS(X created_by B), EXISTS(Y created_by B), '
'X is Card, Y is IN(Division, Note, Societe) '
'WITH LA BEING (Any LA WHERE (EXISTS(A created_by B, LA documented_by A)) OR (EXISTS(E created_by B, LA concerne E)), '
'B eid %(D)s, LA is Affaire)')
def test_ambiguous_optional_same_exprs(self):
"""See #3013535"""
# see test of the same name in RewriteFullTC: original problem is
# unreproducible here because it actually lies in
# RQLRewriter.insert_local_checks
rqlst = parse('Any A,AR,X,CD WHERE A concerne X?, A ref AR, A eid %(a)s, X creation_date CD')
rewrite(rqlst, {('X', 'X'): ('X created_by U',),}, {'a': 3})
self.assertEqual(rqlst.as_string(),
u'Any A,AR,X,CD WHERE A concerne X?, A ref AR, A eid %(a)s WITH X,CD BEING (Any X,CD WHERE X creation_date CD, EXISTS(X created_by B), B eid %(A)s, X is IN(Division, Note, Societe))')
def test_optional_var_inlined(self):
c1 = ('X require_permission P')
c2 = ('X inlined_card O, O require_permission P')
rqlst = parse('Any C,A,R WHERE A? inlined_card C, A ref R')
rewrite(rqlst, {('C', 'X'): (c1,),
('A', 'X'): (c2,),
}, {})
# XXX suboptimal
self.assertEqual(rqlst.as_string(),
"Any C,A,R WITH A,C,R BEING "
"(Any A,C,R WHERE A? inlined_card C, A ref R, "
"(A is NULL) OR (EXISTS(A inlined_card B, B require_permission D, "
"B is Card, D is CWPermission)), "
"A is Affaire, C is Card, EXISTS(C require_permission E, E is CWPermission))")
# def test_optional_var_inlined_has_perm(self):
# c1 = ('X require_permission P')
# c2 = ('X inlined_card O, U has_read_permission O')
# rqlst = parse('Any C,A,R WHERE A? inlined_card C, A ref R')
# rewrite(rqlst, {('C', 'X'): (c1,),
# ('A', 'X'): (c2,),
# }, {})
# self.assertEqual(rqlst.as_string(),
# "")
def test_optional_var_inlined_imbricated_error(self):
c1 = ('X require_permission P')
c2 = ('X inlined_card O, O require_permission P')
rqlst = parse('Any C,A,R,A2,R2 WHERE A? inlined_card C, A ref R,A2? inlined_card C, A2 ref R2')
self.assertRaises(BadSchemaDefinition,
rewrite, rqlst, {('C', 'X'): (c1,),
('A', 'X'): (c2,),
('A2', 'X'): (c2,),
}, {})
def test_optional_var_inlined_linked(self):
c1 = ('X require_permission P')
c2 = ('X inlined_card O, O require_permission P')
rqlst = parse('Any A,W WHERE A inlined_card C?, C inlined_note N, '
'N inlined_affaire W')
rewrite(rqlst, {('C', 'X'): (c1,)}, {})
self.assertEqual(rqlst.as_string(),
'Any A,W WHERE A inlined_card C?, A is Affaire '
'WITH C,N,W BEING (Any C,N,W WHERE C inlined_note N, '
'N inlined_affaire W, EXISTS(C require_permission B), '
'C is Card, N is Note, W is Affaire)')
def test_relation_optimization_1_lhs(self):
# since Card in_state State as monovalued cardinality, the in_state
# relation used in the rql expression can be ignored and S replaced by
# the variable from the incoming query
snippet = ('X in_state S, S name "hop"')
rqlst = parse('Card C WHERE C in_state STATE')
rewrite(rqlst, {('C', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C in_state STATE, C is Card, "
"EXISTS(STATE name 'hop'), STATE is State")
def test_relation_optimization_1_rhs(self):
snippet = ('TW subworkflow_exit X, TW name "hop"')
rqlst = parse('WorkflowTransition C WHERE C subworkflow_exit EXIT')
rewrite(rqlst, {('EXIT', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C subworkflow_exit EXIT, C is WorkflowTransition, "
"EXISTS(C name 'hop'), EXIT is SubWorkflowExitPoint")
def test_relation_optimization_2_lhs(self):
# optional relation can be shared if also optional in the snippet
snippet = ('X in_state S?, S name "hop"')
rqlst = parse('Card C WHERE C in_state STATE?')
rewrite(rqlst, {('C', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C in_state STATE?, C is Card, "
"EXISTS(STATE name 'hop'), STATE is State")
def test_relation_optimization_2_rhs(self):
snippet = ('TW? subworkflow_exit X, TW name "hop"')
rqlst = parse('SubWorkflowExitPoint EXIT WHERE C? subworkflow_exit EXIT')
rewrite(rqlst, {('EXIT', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any EXIT WHERE C? subworkflow_exit EXIT, EXIT is SubWorkflowExitPoint, "
"EXISTS(C name 'hop'), C is WorkflowTransition")
def test_relation_optimization_3_lhs(self):
# optional relation in the snippet but not in the orig tree can be shared
snippet = ('X in_state S?, S name "hop"')
rqlst = parse('Card C WHERE C in_state STATE')
rewrite(rqlst, {('C', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C in_state STATE, C is Card, "
"EXISTS(STATE name 'hop'), STATE is State")
def test_relation_optimization_3_rhs(self):
snippet = ('TW? subworkflow_exit X, TW name "hop"')
rqlst = parse('WorkflowTransition C WHERE C subworkflow_exit EXIT')
rewrite(rqlst, {('EXIT', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C subworkflow_exit EXIT, C is WorkflowTransition, "
"EXISTS(C name 'hop'), EXIT is SubWorkflowExitPoint")
def test_relation_non_optimization_1_lhs(self):
# but optional relation in the orig tree but not in the snippet can't be shared
snippet = ('X in_state S, S name "hop"')
rqlst = parse('Card C WHERE C in_state STATE?')
rewrite(rqlst, {('C', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any C WHERE C in_state STATE?, C is Card, "
"EXISTS(C in_state A, A name 'hop', A is State), STATE is State")
def test_relation_non_optimization_1_rhs(self):
snippet = ('TW subworkflow_exit X, TW name "hop"')
rqlst = parse('SubWorkflowExitPoint EXIT WHERE C? subworkflow_exit EXIT')
rewrite(rqlst, {('EXIT', 'X'): (snippet,)}, {})
self.assertEqual(rqlst.as_string(),
"Any EXIT WHERE C? subworkflow_exit EXIT, EXIT is SubWorkflowExitPoint, "
"EXISTS(A subworkflow_exit EXIT, A name 'hop', A is WorkflowTransition), "
"C is WorkflowTransition")
def test_relation_non_optimization_2(self):
"""See #3024730"""
# 'X inlined_note N' must not be shared with 'C inlined_note N'
# previously inserted, else this may introduce duplicated results, as N
# will then be shared by multiple EXISTS and so at SQL generation time,
# the table will be in the FROM clause of the outermost query
rqlst = parse('Any A,C WHERE A inlined_card C')
rewrite(rqlst, {('A', 'X'): ('X inlined_card C, C inlined_note N, N owned_by U',),
('C', 'X'): ('X inlined_note N, N owned_by U',)}, {})
self.assertEqual(rqlst.as_string(),
'Any A,C WHERE A inlined_card C, D eid %(E)s, '
'EXISTS(C inlined_note B, B owned_by D, B is Note), '
'EXISTS(C inlined_note F, F owned_by D, F is Note), '
'A is Affaire, C is Card')
def test_unsupported_constraint_1(self):
# CWUser doesn't have require_permission
trinfo_constraint = ('X wf_info_for Y, Y require_permission P, P name "read"')
rqlst = parse('Any U,T WHERE U is CWUser, T wf_info_for U')
self.assertRaises(Unauthorized, rewrite, rqlst, {('T', 'X'): (trinfo_constraint,)}, {})
def test_unsupported_constraint_2(self):
trinfo_constraint = ('X wf_info_for Y, Y require_permission P, P name "read"')
rqlst = parse('Any U,T WHERE U is CWUser, T wf_info_for U')
rewrite(rqlst, {('T', 'X'): (trinfo_constraint, 'X wf_info_for Y, Y in_group G, G name "managers"')}, {})
self.assertEqual(rqlst.as_string(),
u"Any U,T WHERE U is CWUser, T wf_info_for U, "
"EXISTS(U in_group B, B name 'managers', B is CWGroup), T is TrInfo")
def test_unsupported_constraint_3(self):
self.skipTest('raise unauthorized for now')
trinfo_constraint = ('X wf_info_for Y, Y require_permission P, P name "read"')
rqlst = parse('Any T WHERE T wf_info_for X')
rewrite(rqlst, {('T', 'X'): (trinfo_constraint, 'X in_group G, G name "managers"')}, {})
self.assertEqual(rqlst.as_string(),
u'XXX dunno what should be generated')
def test_add_ambiguity_exists(self):
constraint = ('X concerne Y')
rqlst = parse('Affaire X')
rewrite(rqlst, {('X', 'X'): (constraint,)}, {})
self.assertEqual(rqlst.as_string(),
u"Any X WHERE X is Affaire, ((EXISTS(X concerne A, A is Division)) OR (EXISTS(X concerne C, C is Societe))) OR (EXISTS(X concerne B, B is Note))")
def test_add_ambiguity_outerjoin(self):
constraint = ('X concerne Y')
rqlst = parse('Any X,C WHERE X? documented_by C')
rewrite(rqlst, {('X', 'X'): (constraint,)}, {})
# ambiguity are kept in the sub-query, no need to be resolved using OR
self.assertEqual(rqlst.as_string(),
u"Any X,C WHERE X? documented_by C, C is Card WITH X BEING (Any X WHERE EXISTS(X concerne A), X is Affaire)")
def test_rrqlexpr_nonexistant_subject_1(self):
constraint = RRQLExpression('S owned_by U')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SU')
self.assertEqual(rqlst.as_string(),
u"Any C WHERE C is Card, A eid %(B)s, EXISTS(C owned_by A)")
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'OU')
self.assertEqual(rqlst.as_string(),
u"Any C WHERE C is Card")
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SOU')
self.assertEqual(rqlst.as_string(),
u"Any C WHERE C is Card, A eid %(B)s, EXISTS(C owned_by A)")
def test_rrqlexpr_nonexistant_subject_2(self):
constraint = RRQLExpression('S owned_by U, O owned_by U, O is Card')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SU')
self.assertEqual(rqlst.as_string(),
'Any C WHERE C is Card, A eid %(B)s, EXISTS(C owned_by A)')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'OU')
self.assertEqual(rqlst.as_string(),
'Any C WHERE C is Card, B eid %(D)s, EXISTS(A owned_by B, A is Card)')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SOU')
self.assertEqual(rqlst.as_string(),
'Any C WHERE C is Card, A eid %(B)s, EXISTS(C owned_by A, D owned_by A, D is Card)')
def test_rrqlexpr_nonexistant_subject_3(self):
constraint = RRQLExpression('U in_group G, G name "users"')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SU')
self.assertEqual(rqlst.as_string(),
u'Any C WHERE C is Card, A eid %(B)s, EXISTS(A in_group D, D name "users", D is CWGroup)')
def test_rrqlexpr_nonexistant_subject_4(self):
constraint = RRQLExpression('U in_group G, G name "users", S owned_by U')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'SU')
self.assertEqual(rqlst.as_string(),
u'Any C WHERE C is Card, A eid %(B)s, EXISTS(A in_group D, D name "users", C owned_by A, D is CWGroup)')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'OU')
self.assertEqual(rqlst.as_string(),
u'Any C WHERE C is Card, A eid %(B)s, EXISTS(A in_group D, D name "users", D is CWGroup)')
def test_rrqlexpr_nonexistant_subject_5(self):
constraint = RRQLExpression('S owned_by Z, O owned_by Z, O is Card')
rqlst = parse('Card C')
rewrite(rqlst, {('C', 'S'): (constraint,)}, {}, 'S')
self.assertEqual(rqlst.as_string(),
u"Any C WHERE C is Card, EXISTS(C owned_by A, A is CWUser)")
def test_rqlexpr_not_relation_1_1(self):
constraint = ERQLExpression('X owned_by Z, Z login "hop"', 'X')
rqlst = parse('Affaire A WHERE NOT EXISTS(A documented_by C)')
rewrite(rqlst, {('C', 'X'): (constraint,)}, {}, 'X')
self.assertEqual(rqlst.as_string(),
u'Any A WHERE NOT EXISTS(A documented_by C, EXISTS(C owned_by B, B login "hop", B is CWUser), C is Card), A is Affaire')
def test_rqlexpr_not_relation_1_2(self):
constraint = ERQLExpression('X owned_by Z, Z login "hop"', 'X')
rqlst = parse('Affaire A WHERE NOT EXISTS(A documented_by C)')
rewrite(rqlst, {('A', 'X'): (constraint,)}, {}, 'X')
self.assertEqual(rqlst.as_string(),
u'Any A WHERE NOT EXISTS(A documented_by C, C is Card), A is Affaire, EXISTS(A owned_by B, B login "hop", B is CWUser)')
def test_rqlexpr_not_relation_2(self):
constraint = ERQLExpression('X owned_by Z, Z login "hop"', 'X')
rqlst = rqlhelper.parse('Affaire A WHERE NOT A documented_by C', annotate=False)
rewrite(rqlst, {('C', 'X'): (constraint,)}, {}, 'X')
self.assertEqual(rqlst.as_string(),
u'Any A WHERE NOT EXISTS(A documented_by C, EXISTS(C owned_by B, B login "hop", B is CWUser), C is Card), A is Affaire')
def test_rqlexpr_multiexpr_outerjoin(self):
c1 = ERQLExpression('X owned_by Z, Z login "hop"', 'X')
c2 = ERQLExpression('X owned_by Z, Z login "hip"', 'X')
c3 = ERQLExpression('X owned_by Z, Z login "momo"', 'X')
rqlst = rqlhelper.parse('Any A WHERE A documented_by C?', annotate=False)
rewrite(rqlst, {('C', 'X'): (c1, c2, c3)}, {}, 'X')
self.assertEqual(rqlst.as_string(),
u'Any A WHERE A documented_by C?, A is Affaire '
'WITH C BEING (Any C WHERE ((EXISTS(C owned_by B, B login "hop")) '
'OR (EXISTS(C owned_by D, D login "momo"))) '
'OR (EXISTS(C owned_by A, A login "hip")), C is Card)')
def test_multiple_erql_one_bad(self):
#: reproduce bug #2236985
#: (rqlrewrite fails to remove rewritten entry for unsupported constraint and then crash)
#:
#: This check a very rare code path triggered by the four condition below
# 1. c_ok introduce an ambiguity
c_ok = ERQLExpression('X concerne R')
# 2. c_bad is just plain wrong and won't be kept
# 3. but it declare a new variable
# 4. this variable require a rewrite
c_bad = ERQLExpression('X documented_by R, A in_state R')
rqlst = parse('Any A, R WHERE A ref R, S is Affaire')
rewrite(rqlst, {('A', 'X'): (c_ok, c_bad)}, {})
from cubicweb.devtools.testlib import CubicWebTC
from logilab.common.decorators import classproperty
class RewriteFullTC(CubicWebTC):
@classproperty
def config(cls):
return BaseApptestConfiguration(apphome=cls.datapath('rewrite'))
def process(self, rql, args=None):
if args is None:
args = {}
querier = self.repo.querier
union = querier.parse(rql)
querier.solutions(self.session, union, args)
querier._annotate(union)
plan = querier.plan_factory(union, args, self.session)
plan.preprocess(union)
return union
def test_ambiguous_optional_same_exprs(self):
"""See #3013535"""
edef1 = self.schema['Societe']
edef2 = self.schema['Division']
edef3 = self.schema['Note']
with self.temporary_permissions((edef1, {'read': (ERQLExpression('X owned_by U'),)}),
(edef2, {'read': (ERQLExpression('X owned_by U'),)}),
(edef3, {'read': (ERQLExpression('X owned_by U'),)})):
union = self.process('Any A,AR,X,CD WHERE A concerne X?, A ref AR, X creation_date CD')
self.assertEqual('Any A,AR,X,CD WHERE A concerne X?, A ref AR, A is Affaire '
'WITH X,CD BEING (Any X,CD WHERE X creation_date CD, '
'EXISTS(X owned_by %(A)s), X is IN(Division, Note, Societe))',
union.as_string())
def test_xxxx(self):
edef1 = self.schema['Societe']
edef2 = self.schema['Division']
read_expr = ERQLExpression('X responsable E, U has_read_permission E')
with self.temporary_permissions((edef1, {'read': (read_expr,)}),
(edef2, {'read': (read_expr,)})):
union = self.process('Any X,AA,AC,AD ORDERBY AD DESC '
'WHERE X responsable E, X nom AA, '
'X responsable AC?, AC modification_date AD')
self.assertEqual('Any X,AA,AC,AD ORDERBY AD DESC '
'WHERE X responsable E, X nom AA, '
'X responsable AC?, AC modification_date AD, '
'AC is CWUser, E is CWUser, X is IN(Division, Societe)',
union.as_string())
if __name__ == '__main__':
unittest_main()