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|
# -*- coding: utf-8 -*-
# Part of Odoo. See LICENSE file for full copyright and licensing details.
import psycopg2
from odoo.models import BaseModel
from odoo.tests.common import TransactionCase
from odoo.tools import mute_logger
from odoo.osv import expression
class TestExpression(TransactionCase):
def test_00_in_not_in_m2m(self):
# Create 4 partners with no category, or one or two categories (out of two categories).
categories = self.env['res.partner.category']
cat_a = categories.create({'name': 'test_expression_category_A'})
cat_b = categories.create({'name': 'test_expression_category_B'})
partners = self.env['res.partner']
a = partners.create({'name': 'test_expression_partner_A', 'category_id': [(6, 0, [cat_a.id])]})
b = partners.create({'name': 'test_expression_partner_B', 'category_id': [(6, 0, [cat_b.id])]})
ab = partners.create({'name': 'test_expression_partner_AB', 'category_id': [(6, 0, [cat_a.id, cat_b.id])]})
c = partners.create({'name': 'test_expression_partner_C'})
# The tests.
# On a one2many or many2many field, `in` should be read `contains` (and
# `not in` should be read `doesn't contain`.
with_a = partners.search([('category_id', 'in', [cat_a.id])])
self.assertEqual(a + ab, with_a, "Search for category_id in cat_a failed.")
with_b = partners.search([('category_id', 'in', [cat_b.id])])
self.assertEqual(b + ab, with_b, "Search for category_id in cat_b failed.")
# Partners with the category A or the category B.
with_a_or_b = partners.search([('category_id', 'in', [cat_a.id, cat_b.id])])
self.assertEqual(a + b + ab, with_a_or_b, "Search for category_id contains cat_a or cat_b failed.")
# Show that `contains list` is really `contains element or contains element`.
with_a_or_with_b = partners.search(['|', ('category_id', 'in', [cat_a.id]), ('category_id', 'in', [cat_b.id])])
self.assertEqual(a + b + ab, with_a_or_with_b, "Search for category_id contains cat_a or contains cat_b failed.")
# If we change the OR in AND...
with_a_and_b = partners.search([('category_id', 'in', [cat_a.id]), ('category_id', 'in', [cat_b.id])])
self.assertEqual(ab, with_a_and_b, "Search for category_id contains cat_a and cat_b failed.")
# Partners without category A and without category B.
without_a_or_b = partners.search([('category_id', 'not in', [cat_a.id, cat_b.id])])
self.assertFalse(without_a_or_b & (a + b + ab), "Search for category_id doesn't contain cat_a or cat_b failed (1).")
self.assertTrue(c in without_a_or_b, "Search for category_id doesn't contain cat_a or cat_b failed (2).")
# Show that `doesn't contain list` is really `doesn't contain element and doesn't contain element`.
without_a_and_without_b = partners.search([('category_id', 'not in', [cat_a.id]), ('category_id', 'not in', [cat_b.id])])
self.assertFalse(without_a_and_without_b & (a + b + ab), "Search for category_id doesn't contain cat_a and cat_b failed (1).")
self.assertTrue(c in without_a_and_without_b, "Search for category_id doesn't contain cat_a and cat_b failed (2).")
# We can exclude any partner containing the category A.
without_a = partners.search([('category_id', 'not in', [cat_a.id])])
self.assertTrue(a not in without_a, "Search for category_id doesn't contain cat_a failed (1).")
self.assertTrue(ab not in without_a, "Search for category_id doesn't contain cat_a failed (2).")
self.assertLessEqual(b + c, without_a, "Search for category_id doesn't contain cat_a failed (3).")
# (Obviously we can do the same for cateory B.)
without_b = partners.search([('category_id', 'not in', [cat_b.id])])
self.assertTrue(b not in without_b, "Search for category_id doesn't contain cat_b failed (1).")
self.assertTrue(ab not in without_b, "Search for category_id doesn't contain cat_b failed (2).")
self.assertLessEqual(a + c, without_b, "Search for category_id doesn't contain cat_b failed (3).")
def test_05_not_str_m2m(self):
partners = self.env['res.partner']
categories = self.env['res.partner.category']
cids = {}
for name in 'A B AB'.split():
cids[name] = categories.create({'name': name}).id
partners_config = {
'0': [],
'a': [cids['A']],
'b': [cids['B']],
'ab': [cids['AB']],
'a b': [cids['A'], cids['B']],
'b ab': [cids['B'], cids['AB']],
}
pids = {}
for name, cat_ids in partners_config.items():
pids[name] = partners.create({'name': name, 'category_id': [(6, 0, cat_ids)]}).id
base_domain = [('id', 'in', list(pids.values()))]
def test(op, value, expected):
found_ids = partners.search(base_domain + [('category_id', op, value)]).ids
expected_ids = [pids[name] for name in expected]
self.assertItemsEqual(found_ids, expected_ids, '%s %r should return %r' % (op, value, expected))
test('=', 'A', ['a', 'a b'])
test('!=', 'B', ['0', 'a', 'ab'])
test('like', 'A', ['a', 'ab', 'a b', 'b ab'])
test('not ilike', 'B', ['0', 'a'])
test('not like', 'AB', ['0', 'a', 'b', 'a b'])
def test_10_hierarchy_in_m2m(self):
Partner = self.env['res.partner']
Category = self.env['res.partner.category']
# search through m2m relation
partners = Partner.search([('category_id', 'child_of', self.ref('base.res_partner_category_0'))])
self.assertTrue(partners)
# setup test partner categories
categ_root = Category.create({'name': 'Root category'})
categ_0 = Category.create({'name': 'Parent category', 'parent_id': categ_root.id})
categ_1 = Category.create({'name': 'Child1', 'parent_id': categ_0.id})
# test hierarchical search in m2m with child id (list of ids)
cats = Category.search([('id', 'child_of', categ_root.ids)])
self.assertEqual(len(cats), 3)
# test hierarchical search in m2m with child id (single id)
cats = Category.search([('id', 'child_of', categ_root.id)])
self.assertEqual(len(cats), 3)
# test hierarchical search in m2m with child ids
cats = Category.search([('id', 'child_of', (categ_0 + categ_1).ids)])
self.assertEqual(len(cats), 2)
# test hierarchical search in m2m with child ids
cats = Category.search([('id', 'child_of', categ_0.ids)])
self.assertEqual(len(cats), 2)
# test hierarchical search in m2m with child ids
cats = Category.search([('id', 'child_of', categ_1.ids)])
self.assertEqual(len(cats), 1)
# test hierarchical search in m2m with parent id (list of ids)
cats = Category.search([('id', 'parent_of', categ_1.ids)])
self.assertEqual(len(cats), 3)
# test hierarchical search in m2m with parent id (single id)
cats = Category.search([('id', 'parent_of', categ_1.id)])
self.assertEqual(len(cats), 3)
# test hierarchical search in m2m with parent ids
cats = Category.search([('id', 'parent_of', (categ_root + categ_0).ids)])
self.assertEqual(len(cats), 2)
# test hierarchical search in m2m with parent ids
cats = Category.search([('id', 'parent_of', categ_0.ids)])
self.assertEqual(len(cats), 2)
# test hierarchical search in m2m with parent ids
cats = Category.search([('id', 'parent_of', categ_root.ids)])
self.assertEqual(len(cats), 1)
def test_10_equivalent_id(self):
# equivalent queries
Currency = self.env['res.currency']
non_currency_id = max(Currency.search([]).ids) + 1003
res_0 = Currency.search([])
res_1 = Currency.search([('name', 'not like', 'probably_unexisting_name')])
self.assertEqual(res_0, res_1)
res_2 = Currency.search([('id', 'not in', [non_currency_id])])
self.assertEqual(res_0, res_2)
res_3 = Currency.search([('id', 'not in', [])])
self.assertEqual(res_0, res_3)
res_4 = Currency.search([('id', '!=', False)])
self.assertEqual(res_0, res_4)
# equivalent queries, integer and string
Partner = self.env['res.partner']
all_partners = Partner.search([])
self.assertTrue(len(all_partners) > 1)
one = all_partners[0]
others = all_partners[1:]
res_1 = Partner.search([('id', '=', one.id)])
self.assertEqual(one, res_1)
# Partner.search([('id', '!=', others)]) # not permitted
res_2 = Partner.search([('id', 'not in', others.ids)])
self.assertEqual(one, res_2)
res_3 = Partner.search(['!', ('id', '!=', one.id)])
self.assertEqual(one, res_3)
res_4 = Partner.search(['!', ('id', 'in', others.ids)])
self.assertEqual(one, res_4)
# res_5 = Partner.search([('id', 'in', one)]) # TODO make it permitted, just like for child_of
# self.assertEqual(one, res_5)
res_6 = Partner.search([('id', 'in', [one.id])])
self.assertEqual(one, res_6)
res_7 = Partner.search([('name', '=', one.name)])
self.assertEqual(one, res_7)
res_8 = Partner.search([('name', 'in', [one.name])])
# res_9 = Partner.search([('name', 'in', one.name)]) # TODO
def test_15_m2o(self):
Partner = self.env['res.partner']
# testing equality with name
partners = Partner.search([('parent_id', '=', 'Agrolait')])
self.assertTrue(partners)
# testing the in operator with name
partners = Partner.search([('parent_id', 'in', 'Agrolait')])
self.assertTrue(partners)
# testing the in operator with a list of names
partners = Partner.search([('parent_id', 'in', ['Agrolait', 'ASUStek'])])
self.assertTrue(partners)
# check if many2one works with empty search list
partners = Partner.search([('company_id', 'in', [])])
self.assertFalse(partners)
# create new company with partners, and partners with no company
company2 = self.env['res.company'].create({'name': 'Acme 2'})
for i in range(4):
Partner.create({'name': 'P of Acme %s' % i, 'company_id': company2.id})
Partner.create({'name': 'P of All %s' % i, 'company_id': False})
# check if many2one works with negative empty list
all_partners = Partner.search([])
res_partners = Partner.search(['|', ('company_id', 'not in', []), ('company_id', '=', False)])
self.assertEqual(all_partners, res_partners, "not in [] fails")
# check that many2one will pick the correct records with a list
partners = Partner.search([('company_id', 'in', [False])])
self.assertTrue(len(partners) >= 4, "We should have at least 4 partners with no company")
# check that many2one will exclude the correct records with a list
partners = Partner.search([('company_id', 'not in', [1])])
self.assertTrue(len(partners) >= 4, "We should have at least 4 partners not related to company #1")
# check that many2one will exclude the correct records with a list and False
partners = Partner.search(['|', ('company_id', 'not in', [1]),
('company_id', '=', False)])
self.assertTrue(len(partners) >= 8, "We should have at least 8 partners not related to company #1")
# check that multi-level expressions also work
partners = Partner.search([('company_id.partner_id', 'in', [])])
self.assertFalse(partners)
# check multi-level expressions with magic columns
partners = Partner.search([('create_uid.active', '=', True)])
# check that multi-level expressions with negative op work
all_partners = Partner.search([('company_id', '!=', False)])
res_partners = Partner.search([('company_id.partner_id', 'not in', [])])
self.assertEqual(all_partners, res_partners, "not in [] fails")
# Test the '(not) like/in' behavior. res.partner and its parent_id
# column are used because parent_id is a many2one, allowing to test the
# Null value, and there are actually some null and non-null values in
# the demo data.
all_partners = Partner.search([])
non_partner_id = max(all_partners.ids) + 1
with_parent = all_partners.filtered(lambda p: p.parent_id)
without_parent = all_partners.filtered(lambda p: not p.parent_id)
with_website = all_partners.filtered(lambda p: p.website)
# We treat null values differently than in SQL. For instance in SQL:
# SELECT id FROM res_partner WHERE parent_id NOT IN (0)
# will return only the records with non-null parent_id.
# SELECT id FROM res_partner WHERE parent_id IN (0)
# will return expectedly nothing (our ids always begin at 1).
# This means the union of those two results will give only some
# records, but not all present in database.
#
# When using domains and the ORM's search method, we think it is
# more intuitive that the union returns all the records, and that
# a domain like ('parent_id', 'not in', [0]) will return all
# the records. For instance, if you perform a search for the companies
# that don't have OpenERP has a parent company, you expect to find,
# among others, the companies that don't have parent company.
#
# existing values be treated similarly if we simply check that some
# existing value belongs to them.
res_0 = Partner.search([('parent_id', 'not like', 'probably_unexisting_name')]) # get all rows, included null parent_id
self.assertEqual(res_0, all_partners)
res_1 = Partner.search([('parent_id', 'not in', [non_partner_id])]) # get all rows, included null parent_id
self.assertEqual(res_1, all_partners)
res_2 = Partner.search([('parent_id', '!=', False)]) # get rows with not null parent_id, deprecated syntax
self.assertEqual(res_2, with_parent)
res_3 = Partner.search([('parent_id', 'not in', [])]) # get all rows, included null parent_id
self.assertEqual(res_3, all_partners)
res_4 = Partner.search([('parent_id', 'not in', [False])]) # get rows with not null parent_id
self.assertEqual(res_4, with_parent)
res_4b = Partner.search([('parent_id', 'not ilike', '')]) # get only rows without parent
self.assertEqual(res_4b, without_parent)
# The results of these queries, when combined with queries 0..4 must
# give the whole set of ids.
res_5 = Partner.search([('parent_id', 'like', 'probably_unexisting_name')])
self.assertFalse(res_5)
res_6 = Partner.search([('parent_id', 'in', [non_partner_id])])
self.assertFalse(res_6)
res_7 = Partner.search([('parent_id', '=', False)])
self.assertEqual(res_7, without_parent)
res_8 = Partner.search([('parent_id', 'in', [])])
self.assertFalse(res_8)
res_9 = Partner.search([('parent_id', 'in', [False])])
self.assertEqual(res_9, without_parent)
res_9b = Partner.search([('parent_id', 'ilike', '')]) # get those with a parent
self.assertEqual(res_9b, with_parent)
# These queries must return exactly the results than the queries 0..4,
# i.e. not ... in ... must be the same as ... not in ... .
res_10 = Partner.search(['!', ('parent_id', 'like', 'probably_unexisting_name')])
self.assertEqual(res_0, res_10)
res_11 = Partner.search(['!', ('parent_id', 'in', [non_partner_id])])
self.assertEqual(res_1, res_11)
res_12 = Partner.search(['!', ('parent_id', '=', False)])
self.assertEqual(res_2, res_12)
res_13 = Partner.search(['!', ('parent_id', 'in', [])])
self.assertEqual(res_3, res_13)
res_14 = Partner.search(['!', ('parent_id', 'in', [False])])
self.assertEqual(res_4, res_14)
# Testing many2one field is not enough, a regular char field is tested
res_15 = Partner.search([('website', 'in', [])])
self.assertFalse(res_15)
res_16 = Partner.search([('website', 'not in', [])])
self.assertEqual(res_16, all_partners)
res_17 = Partner.search([('website', '!=', False)])
self.assertEqual(res_17, with_website)
# check behavior for required many2one fields: currency_id is required
companies = self.env['res.company'].search([])
res_101 = companies.search([('currency_id', 'not ilike', '')]) # get no companies
self.assertFalse(res_101)
res_102 = companies.search([('currency_id', 'ilike', '')]) # get all companies
self.assertEqual(res_102, companies)
def test_in_operator(self):
""" check that we can use the 'in' operator for plain fields """
menus = self.env['ir.ui.menu'].search([('sequence', 'in', [1, 2, 10, 20])])
self.assertTrue(menus)
def test_15_o2m(self):
Partner = self.env['res.partner']
# test one2many operator with empty search list
partners = Partner.search([('child_ids', 'in', [])])
self.assertFalse(partners)
# test one2many operator with False
partners = Partner.search([('child_ids', '=', False)])
for partner in partners:
self.assertFalse(partner.child_ids)
# verify domain evaluation for one2many != False and one2many == False
categories = self.env['res.partner.category'].search([])
parents = categories.search([('child_ids', '!=', False)])
self.assertEqual(parents, categories.filtered(lambda c: c.child_ids))
leafs = categories.search([('child_ids', '=', False)])
self.assertEqual(leafs, categories.filtered(lambda c: not c.child_ids))
# test many2many operator with empty search list
partners = Partner.search([('category_id', 'in', [])])
self.assertFalse(partners)
# test many2many operator with False
partners = Partner.search([('category_id', '=', False)])
for partner in partners:
self.assertFalse(partner.category_id)
# filtering on nonexistent value across x2many should return nothing
partners = Partner.search([('child_ids.city', '=', 'foo')])
self.assertFalse(partners)
def test_15_equivalent_one2many_1(self):
Company = self.env['res.company']
company3 = Company.create({'name': 'Acme 3'})
company4 = Company.create({'name': 'Acme 4', 'parent_id': company3.id})
# one2many towards same model
res_1 = Company.search([('child_ids', 'in', company3.child_ids.ids)]) # any company having a child of company3 as child
self.assertEqual(res_1, company3)
res_2 = Company.search([('child_ids', 'in', company3.child_ids[0].ids)]) # any company having the first child of company3 as child
self.assertEqual(res_2, company3)
# child_of x returns x and its children (direct or not).
expected = company3 + company4
res_1 = Company.search([('id', 'child_of', [company3.id])])
self.assertEqual(res_1, expected)
res_2 = Company.search([('id', 'child_of', company3.id)])
self.assertEqual(res_2, expected)
res_3 = Company.search([('id', 'child_of', [company3.name])])
self.assertEqual(res_3, expected)
res_4 = Company.search([('id', 'child_of', company3.name)])
self.assertEqual(res_4, expected)
# parent_of x returns x and its parents (direct or not).
expected = company3 + company4
res_1 = Company.search([('id', 'parent_of', [company4.id])])
self.assertEqual(res_1, expected)
res_2 = Company.search([('id', 'parent_of', company4.id)])
self.assertEqual(res_2, expected)
res_3 = Company.search([('id', 'parent_of', [company4.name])])
self.assertEqual(res_3, expected)
res_4 = Company.search([('id', 'parent_of', company4.name)])
self.assertEqual(res_4, expected)
# try testing real subsets with IN/NOT IN
Partner = self.env['res.partner']
Users = self.env['res.users']
p1, _ = Partner.name_create("Dédé Boitaclou")
p2, _ = Partner.name_create("Raoulette Pizza O'poil")
u1a = Users.create({'login': 'dbo', 'partner_id': p1}).id
u1b = Users.create({'login': 'dbo2', 'partner_id': p1}).id
u2 = Users.create({'login': 'rpo', 'partner_id': p2}).id
self.assertEqual([p1], Partner.search([('user_ids', 'in', u1a)]).ids, "o2m IN accept single int on right side")
self.assertEqual([p1], Partner.search([('user_ids', '=', 'Dédé Boitaclou')]).ids, "o2m NOT IN matches none on the right side")
self.assertEqual([], Partner.search([('user_ids', 'in', [10000])]).ids, "o2m NOT IN matches none on the right side")
self.assertEqual([p1,p2], Partner.search([('user_ids', 'in', [u1a,u2])]).ids, "o2m IN matches any on the right side")
all_ids = Partner.search([]).ids
self.assertEqual(set(all_ids) - set([p1]), set(Partner.search([('user_ids', 'not in', u1a)]).ids), "o2m NOT IN matches none on the right side")
self.assertEqual(set(all_ids) - set([p1]), set(Partner.search([('user_ids', '!=', 'Dédé Boitaclou')]).ids), "o2m NOT IN matches none on the right side")
self.assertEqual(set(all_ids) - set([p1,p2]), set(Partner.search([('user_ids', 'not in', [u1b, u2])]).ids), "o2m NOT IN matches none on the right side")
def test_15_equivalent_one2many_2(self):
Currency = self.env['res.currency']
CurrencyRate = self.env['res.currency.rate']
# create a currency and a currency rate
currency = Currency.create({'name': 'ZZZ', 'symbol': 'ZZZ', 'rounding': 1.0})
currency_rate = CurrencyRate.create({'name': '2010-01-01', 'currency_id': currency.id, 'rate': 1.0})
non_currency_id = currency_rate.id + 1000
default_currency = Currency.browse(1)
# search the currency via its rates one2many (the one2many must point back at the currency)
currency_rate1 = CurrencyRate.search([('name', 'not like', 'probably_unexisting_name')])
currency_rate2 = CurrencyRate.search([('id', 'not in', [non_currency_id])])
self.assertEqual(currency_rate1, currency_rate2)
currency_rate3 = CurrencyRate.search([('id', 'not in', [])])
self.assertEqual(currency_rate1, currency_rate3)
# one2many towards another model
res_3 = Currency.search([('rate_ids', 'in', default_currency.rate_ids.ids)]) # currencies having a rate of main currency
self.assertEqual(res_3, default_currency)
res_4 = Currency.search([('rate_ids', 'in', default_currency.rate_ids[0].ids)]) # currencies having first rate of main currency
self.assertEqual(res_4, default_currency)
res_5 = Currency.search([('rate_ids', 'in', default_currency.rate_ids[0].id)]) # currencies having first rate of main currency
self.assertEqual(res_5, default_currency)
# res_6 = Currency.search([('rate_ids', 'in', [default_currency.rate_ids[0].name])])
# res_7 = Currency.search([('rate_ids', '=', default_currency.rate_ids[0].name)])
# res_8 = Currency.search([('rate_ids', 'like', default_currency.rate_ids[0].name)])
res_9 = Currency.search([('rate_ids', 'like', 'probably_unexisting_name')])
self.assertFalse(res_9)
# Currency.search([('rate_ids', 'unexisting_op', 'probably_unexisting_name')]) # TODO expected exception
# get the currencies referenced by some currency rates using a weird negative domain
res_10 = Currency.search([('rate_ids', 'not like', 'probably_unexisting_name')])
res_11 = Currency.search([('rate_ids', 'not in', [non_currency_id])])
self.assertEqual(res_10, res_11)
res_12 = Currency.search([('rate_ids', '!=', False)])
self.assertEqual(res_10, res_12)
res_13 = Currency.search([('rate_ids', 'not in', [])])
self.assertEqual(res_10, res_13)
def test_20_expression_parse(self):
# TDE note: those tests have been added when refactoring the expression.parse() method.
# They come in addition to the already existing tests; maybe some tests
# will be a bit redundant
Users = self.env['res.users']
# Create users
a = Users.create({'name': 'test_A', 'login': 'test_A'})
b1 = Users.create({'name': 'test_B', 'login': 'test_B'})
b2 = Users.create({'name': 'test_B2', 'login': 'test_B2', 'parent_id': b1.partner_id.id})
# Test1: simple inheritance
users = Users.search([('name', 'like', 'test')])
self.assertEqual(users, a + b1 + b2, 'searching through inheritance failed')
users = Users.search([('name', '=', 'test_B')])
self.assertEqual(users, b1, 'searching through inheritance failed')
# Test2: inheritance + relational fields
users = Users.search([('child_ids.name', 'like', 'test_B')])
self.assertEqual(users, b1, 'searching through inheritance failed')
# Special =? operator mean "is equal if right is set, otherwise always True"
users = Users.search([('name', 'like', 'test'), ('parent_id', '=?', False)])
self.assertEqual(users, a + b1 + b2, '(x =? False) failed')
users = Users.search([('name', 'like', 'test'), ('parent_id', '=?', b1.partner_id.id)])
self.assertEqual(users, b2, '(x =? id) failed')
def test_30_normalize_domain(self):
norm_domain = domain = ['&', (1, '=', 1), ('a', '=', 'b')]
self.assertEqual(norm_domain, expression.normalize_domain(domain), "Normalized domains should be left untouched")
domain = [('x', 'in', ['y', 'z']), ('a.v', '=', 'e'), '|', '|', ('a', '=', 'b'), '!', ('c', '>', 'd'), ('e', '!=', 'f'), ('g', '=', 'h')]
norm_domain = ['&', '&', '&'] + domain
self.assertEqual(norm_domain, expression.normalize_domain(domain), "Non-normalized domains should be properly normalized")
def test_40_negating_long_expression(self):
source = ['!', '&', ('user_id', '=', 4), ('partner_id', 'in', [1, 2])]
expect = ['|', ('user_id', '!=', 4), ('partner_id', 'not in', [1, 2])]
self.assertEqual(expression.distribute_not(source), expect,
"distribute_not on expression applied wrongly")
pos_leaves = [[('a', 'in', [])], [('d', '!=', 3)]]
neg_leaves = [[('a', 'not in', [])], [('d', '=', 3)]]
source = expression.OR([expression.AND(pos_leaves)] * 1000)
expect = source
self.assertEqual(expression.distribute_not(source), expect,
"distribute_not on long expression without negation operator should not alter it")
source = ['!'] + source
expect = expression.AND([expression.OR(neg_leaves)] * 1000)
self.assertEqual(expression.distribute_not(source), expect,
"distribute_not on long expression applied wrongly")
def test_accent(self):
if not self.registry.has_unaccent:
return
Company = self.env['res.company']
helene = Company.create({'name': u'Hélène'})
self.assertEqual(helene, Company.search([('name','ilike','Helene')]))
self.assertEqual(helene, Company.search([('name','ilike','hélène')]))
self.assertNotIn(helene, Company.search([('name','not ilike','Helene')]))
self.assertNotIn(helene, Company.search([('name','not ilike','hélène')]))
def test_like_wildcards(self):
# check that =like/=ilike expressions are working on an untranslated field
Partner = self.env['res.partner']
partners = Partner.search([('name', '=like', 'A_U_TeK')])
self.assertTrue(len(partners) == 1, "Must match one partner (ASUSTeK)")
partners = Partner.search([('name', '=ilike', 'c%')])
self.assertTrue(len(partners) >= 1, "Must match one partner (China Export)")
# check that =like/=ilike expressions are working on translated field
Country = self.env['res.country']
countries = Country.search([('name', '=like', 'Ind__')])
self.assertTrue(len(countries) == 1, "Must match India only")
countries = Country.search([('name', '=ilike', 'z%')])
self.assertTrue(len(countries) == 2, "Must match only countries with names starting with Z (currently 2)")
def test_translate_search(self):
Country = self.env['res.country']
belgium = self.env.ref('base.be')
domains = [
[('name', '=', 'Belgium')],
[('name', 'ilike', 'Belgi')],
[('name', 'in', ['Belgium', 'Care Bears'])],
]
for domain in domains:
countries = Country.search(domain)
self.assertEqual(countries, belgium)
def test_long_table_alias(self):
# To test the 64 characters limit for table aliases in PostgreSQL
self.patch_order('res.users', 'partner_id')
self.patch_order('res.partner', 'commercial_partner_id,company_id,name')
self.patch_order('res.company', 'parent_id')
self.env['res.users'].search([('name', '=', 'test')])
@mute_logger('odoo.sql_db')
def test_invalid(self):
""" verify that invalid expressions are refused, even for magic fields """
Country = self.env['res.country']
with self.assertRaises(ValueError):
Country.search([('does_not_exist', '=', 'foo')])
with self.assertRaises(ValueError):
Country.search([('create_date', '>>', 'foo')])
with self.assertRaises(psycopg2.DataError):
Country.search([('create_date', '=', "1970-01-01'); --")])
def test_active(self):
# testing for many2many field with category vendor and active=False
Partner = self.env['res.partner']
vals = {
'name': 'OpenERP Test',
'active': False,
'category_id': [(6, 0, [self.ref("base.res_partner_category_1")])],
'child_ids': [(0, 0, {'name': 'address of OpenERP Test', 'country_id': self.ref("base.be")})],
}
Partner.create(vals)
partner = Partner.search([('category_id', 'ilike', 'vendor'), ('active', '=', False)])
self.assertTrue(partner, "Record not Found with category vendor and active False.")
# testing for one2many field with country Belgium and active=False
partner = Partner.search([('child_ids.country_id','=','Belgium'),('active','=',False)])
self.assertTrue(partner, "Record not Found with country Belgium and active False.")
def test_lp1071710(self):
""" Check that we can exclude translated fields (bug lp:1071710) """
# first install french language
self.env['ir.translation'].load_module_terms(['base'], ['fr_FR'])
# actual test
Country = self.env['res.country']
be = self.env.ref('base.be')
not_be = Country.with_context(lang='fr_FR').search([('name', '!=', 'Belgique')])
self.assertNotIn(be, not_be)
# indirect search via m2o
Partner = self.env['res.partner']
agrolait = Partner.search([('name', '=', 'Agrolait')])
not_be = Partner.search([('country_id', '!=', 'Belgium')])
self.assertNotIn(agrolait, not_be)
not_be = Partner.with_context(lang='fr_FR').search([('country_id', '!=', 'Belgique')])
self.assertNotIn(agrolait, not_be)
class TestAutoJoin(TransactionCase):
def setUp(self):
super(TestAutoJoin, self).setUp()
# Mock BaseModel._where_calc(), to be able to proceed to some tests about generated expression
self._reinit_mock()
BaseModel_where_calc = BaseModel._where_calc
def _where_calc(model, *args, **kwargs):
""" Mock `_where_calc` to be able to test its results. Store them
into some internal variable for latter processing. """
query = BaseModel_where_calc(model, *args, **kwargs)
self.query_list.append(query)
return query
self.patch(BaseModel, '_where_calc', _where_calc)
def _reinit_mock(self):
self.query_list = []
def test_auto_join(self):
unaccent = expression.get_unaccent_wrapper(self.cr)
# Get models
partner_obj = self.env['res.partner']
state_obj = self.env['res.country.state']
bank_obj = self.env['res.partner.bank']
# Get test columns
def patch_auto_join(model, fname, value):
self.patch(model._fields[fname], 'auto_join', value)
def patch_domain(model, fname, value):
self.patch(model._fields[fname], 'domain', value)
# Get country/state data
country_us = self.env['res.country'].search([('code', 'like', 'US')], limit=1)
states = self.env['res.country.state'].search([('country_id', '=', country_us.id)], limit=2)
# Create demo data: partners and bank object
p_a = partner_obj.create({'name': 'test__A', 'state_id': states[0].id})
p_b = partner_obj.create({'name': 'test__B', 'state_id': states[1].id})
p_aa = partner_obj.create({'name': 'test__AA', 'parent_id': p_a.id, 'state_id': states[0].id})
p_ab = partner_obj.create({'name': 'test__AB', 'parent_id': p_a.id, 'state_id': states[1].id})
p_ba = partner_obj.create({'name': 'test__BA', 'parent_id': p_b.id, 'state_id': states[0].id})
b_aa = bank_obj.create({'acc_number': '123', 'acc_type': 'bank', 'partner_id': p_aa.id})
b_ab = bank_obj.create({'acc_number': '456', 'acc_type': 'bank', 'partner_id': p_ab.id})
b_ba = bank_obj.create({'acc_number': '789', 'acc_type': 'bank', 'partner_id': p_ba.id})
# --------------------------------------------------
# Test1: basics about the attribute
# --------------------------------------------------
patch_auto_join(partner_obj, 'category_id', True)
with self.assertRaises(NotImplementedError):
partner_obj.search([('category_id.name', '=', 'foo')])
# --------------------------------------------------
# Test2: one2many
# --------------------------------------------------
name_test = '12'
# Do: one2many without _auto_join
self._reinit_mock()
partners = partner_obj.search([('bank_ids.sanitized_acc_number', 'like', name_test)])
# Test result
self.assertEqual(partners, p_aa,
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..'): incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 2,
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') should produce 2 queries (1 in res_partner_bank, 1 on res_partner)")
sql_query = self.query_list[0].get_sql()
self.assertIn('res_partner_bank', sql_query[0],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') first query incorrect main table")
expected = "%s like %s" % (unaccent('"res_partner_bank"."sanitized_acc_number"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') first query incorrect where condition")
self.assertEqual(['%' + name_test + '%'], sql_query[2],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') first query incorrect parameter")
sql_query = self.query_list[1].get_sql()
self.assertIn('res_partner', sql_query[0],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') second query incorrect main table")
self.assertIn('"res_partner"."id" in (%s)', sql_query[1],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') second query incorrect where condition")
self.assertIn(p_aa.id, sql_query[2],
"_auto_join off: ('bank_ids.sanitized_acc_number', 'like', '..') second query incorrect parameter")
# Do: cascaded one2many without _auto_join
self._reinit_mock()
partners = partner_obj.search([('child_ids.bank_ids.id', 'in', [b_aa.id, b_ba.id])])
# Test result
self.assertEqual(partners, p_a + p_b,
"_auto_join off: ('child_ids.bank_ids.id', 'in', [..]): incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 3,
"_auto_join off: ('child_ids.bank_ids.id', 'in', [..]) should produce 3 queries (1 in res_partner_bank, 2 on res_partner)")
# Do: one2many with _auto_join
patch_auto_join(partner_obj, 'bank_ids', True)
self._reinit_mock()
partners = partner_obj.search([('bank_ids.sanitized_acc_number', 'like', name_test)])
# Test result
self.assertEqual(partners, p_aa,
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 1,
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') should produce 1 query")
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') query incorrect main table")
self.assertIn('"res_partner_bank" as "res_partner__bank_ids"', sql_query[0],
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') query incorrect join")
expected = "%s like %s" % (unaccent('"res_partner__bank_ids"."sanitized_acc_number"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') query incorrect where condition")
self.assertIn('"res_partner"."id"="res_partner__bank_ids"."partner_id"', sql_query[1],
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') query incorrect join condition")
self.assertIn('%' + name_test + '%', sql_query[2],
"_auto_join on: ('bank_ids.sanitized_acc_number', 'like', '..') query incorrect parameter")
# Do: one2many with _auto_join, test final leaf is an id
self._reinit_mock()
bank_ids = [b_aa.id, b_ab.id]
partners = partner_obj.search([('bank_ids.id', 'in', bank_ids)])
# Test result
self.assertEqual(partners, p_aa + p_ab,
"_auto_join on: ('bank_ids.id', 'in', [..]) incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 1,
"_auto_join on: ('bank_ids.id', 'in', [..]) should produce 1 query")
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on: ('bank_ids.id', 'in', [..]) query incorrect main table")
self.assertIn('"res_partner__bank_ids"."id" in (%s,%s)', sql_query[1],
"_auto_join on: ('bank_ids.id', 'in', [..]) query incorrect where condition")
self.assertLessEqual(set(bank_ids), set(sql_query[2]),
"_auto_join on: ('bank_ids.id', 'in', [..]) query incorrect parameter")
# Do: 2 cascaded one2many with _auto_join, test final leaf is an id
patch_auto_join(partner_obj, 'child_ids', True)
self._reinit_mock()
bank_ids = [b_aa.id, b_ba.id]
partners = partner_obj.search([('child_ids.bank_ids.id', 'in', bank_ids)])
# Test result
self.assertEqual(partners, p_a + p_b,
"_auto_join on: ('child_ids.bank_ids.id', 'not in', [..]): incorrect result")
# # Test produced queries
self.assertEqual(len(self.query_list), 1,
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) should produce 1 query")
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) incorrect main table")
self.assertIn('"res_partner" as "res_partner__child_ids"', sql_query[0],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect join")
self.assertIn('"res_partner_bank" as "res_partner__child_ids__bank_ids"', sql_query[0],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect join")
self.assertIn('"res_partner__child_ids__bank_ids"."id" in (%s,%s)', sql_query[1],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect where condition")
self.assertIn('"res_partner"."id"="res_partner__child_ids"."parent_id"', sql_query[1],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect join condition")
self.assertIn('"res_partner__child_ids"."id"="res_partner__child_ids__bank_ids"."partner_id"', sql_query[1],
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect join condition")
self.assertLessEqual(set(bank_ids), set(sql_query[2][-2:]),
"_auto_join on: ('child_ids.bank_ids.id', 'in', [..]) query incorrect parameter")
# --------------------------------------------------
# Test3: many2one
# --------------------------------------------------
name_test = 'US'
# Do: many2one without _auto_join
self._reinit_mock()
partners = partner_obj.search([('state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b + p_aa + p_ab + p_ba, partners,
"_auto_join off: ('state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 3,
"_auto_join off: ('state_id.country_id.code', 'like', '..') should produce 3 queries (1 on res_country, 1 on res_country_state, 1 on res_partner)")
# Do: many2one with 1 _auto_join on the first many2one
patch_auto_join(partner_obj, 'state_id', True)
self._reinit_mock()
partners = partner_obj.search([('state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b + p_aa + p_ab + p_ba, partners,
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 2,
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') should produce 2 query")
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_country"', sql_query[0],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect main table")
expected = "%s like %s" % (unaccent('"res_country"."code"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect where condition")
self.assertEqual(['%' + name_test + '%'], sql_query[2],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect parameter")
sql_query = self.query_list[1].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect main table")
self.assertIn('"res_country_state" as "res_partner__state_id"', sql_query[0],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect join")
self.assertIn('"res_partner__state_id"."country_id" in (%s)', sql_query[1],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect where condition")
self.assertIn('"res_partner"."state_id"="res_partner__state_id"."id"', sql_query[1],
"_auto_join on for state_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect join condition")
# Do: many2one with 1 _auto_join on the second many2one
patch_auto_join(partner_obj, 'state_id', False)
patch_auto_join(state_obj, 'country_id', True)
self._reinit_mock()
partners = partner_obj.search([('state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b + p_aa + p_ab + p_ba, partners,
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 2,
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') should produce 2 query")
# -- first query
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_country_state"', sql_query[0],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect main table")
self.assertIn('"res_country" as "res_country_state__country_id"', sql_query[0],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect join")
expected = "%s like %s" % (unaccent('"res_country_state__country_id"."code"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect where condition")
self.assertIn('"res_country_state"."country_id"="res_country_state__country_id"."id"', sql_query[1],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect join condition")
self.assertEqual(['%' + name_test + '%'], sql_query[2],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 1 incorrect parameter")
# -- second query
sql_query = self.query_list[1].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect main table")
self.assertIn('"res_partner"."state_id" in', sql_query[1],
"_auto_join on for country_id: ('state_id.country_id.code', 'like', '..') query 2 incorrect where condition")
# Do: many2one with 2 _auto_join
patch_auto_join(partner_obj, 'state_id', True)
patch_auto_join(state_obj, 'country_id', True)
self._reinit_mock()
partners = partner_obj.search([('state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b + p_aa + p_ab + p_ba, partners,
"_auto_join on: ('state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 1,
"_auto_join on: ('state_id.country_id.code', 'like', '..') should produce 1 query")
sql_query = self.query_list[0].get_sql()
self.assertIn('"res_partner"', sql_query[0],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect main table")
self.assertIn('"res_country_state" as "res_partner__state_id"', sql_query[0],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect join")
self.assertIn('"res_country" as "res_partner__state_id__country_id"', sql_query[0],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect join")
expected = "%s like %s" % (unaccent('"res_partner__state_id__country_id"."code"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect where condition")
self.assertIn('"res_partner"."state_id"="res_partner__state_id"."id"', sql_query[1],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect join condition")
self.assertIn('"res_partner__state_id"."country_id"="res_partner__state_id__country_id"."id"', sql_query[1],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect join condition")
self.assertIn('%' + name_test + '%', sql_query[2],
"_auto_join on: ('state_id.country_id.code', 'like', '..') query incorrect parameter")
# --------------------------------------------------
# Test4: domain attribute on one2many fields
# --------------------------------------------------
patch_auto_join(partner_obj, 'child_ids', True)
patch_auto_join(partner_obj, 'bank_ids', True)
patch_domain(partner_obj, 'child_ids', lambda self: ['!', ('name', '=', self._name)])
patch_domain(partner_obj, 'bank_ids', [('sanitized_acc_number', 'like', '2')])
# Do: 2 cascaded one2many with _auto_join, test final leaf is an id
self._reinit_mock()
partners = partner_obj.search(['&', (1, '=', 1), ('child_ids.bank_ids.id', 'in', [b_aa.id, b_ba.id])])
# Test result: at least one of our added data
self.assertLessEqual(p_a, partners,
"_auto_join on one2many with domains incorrect result")
self.assertFalse((p_ab + p_ba) & partners,
"_auto_join on one2many with domains incorrect result")
# Test produced queries that domains effectively present
sql_query = self.query_list[0].get_sql()
expected = "%s like %s" % (unaccent('"res_partner__child_ids__bank_ids"."sanitized_acc_number"::text'), unaccent('%s'))
self.assertIn(expected, sql_query[1],
"_auto_join on one2many with domains incorrect result")
# TDE TODO: check first domain has a correct table name
self.assertIn('"res_partner__child_ids"."name" = %s', sql_query[1],
"_auto_join on one2many with domains incorrect result")
patch_domain(partner_obj, 'child_ids', lambda self: [('name', '=', '__%s' % self._name)])
self._reinit_mock()
partners = partner_obj.search(['&', (1, '=', 1), ('child_ids.bank_ids.id', 'in', [b_aa.id, b_ba.id])])
# Test result: no one
self.assertFalse(partners,
"_auto_join on one2many with domains incorrect result")
# ----------------------------------------
# Test5: result-based tests
# ----------------------------------------
patch_auto_join(partner_obj, 'bank_ids', False)
patch_auto_join(partner_obj, 'child_ids', False)
patch_auto_join(partner_obj, 'state_id', False)
patch_auto_join(partner_obj, 'parent_id', False)
patch_auto_join(state_obj, 'country_id', False)
patch_domain(partner_obj, 'child_ids', [])
patch_domain(partner_obj, 'bank_ids', [])
# Do: ('child_ids.state_id.country_id.code', 'like', '..') without _auto_join
self._reinit_mock()
partners = partner_obj.search([('child_ids.state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b, partners,
"_auto_join off: ('child_ids.state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 4,
"_auto_join off: ('child_ids.state_id.country_id.code', 'like', '..') number of queries incorrect")
# Do: ('child_ids.state_id.country_id.code', 'like', '..') with _auto_join
patch_auto_join(partner_obj, 'child_ids', True)
patch_auto_join(partner_obj, 'state_id', True)
patch_auto_join(state_obj, 'country_id', True)
self._reinit_mock()
partners = partner_obj.search([('child_ids.state_id.country_id.code', 'like', name_test)])
# Test result: at least our added data + demo data
self.assertLessEqual(p_a + p_b, partners,
"_auto_join on: ('child_ids.state_id.country_id.code', 'like', '..') incorrect result")
# Test produced queries
self.assertEqual(len(self.query_list), 1,
"_auto_join on: ('child_ids.state_id.country_id.code', 'like', '..') number of queries incorrect")
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