# -*- coding: utf-8 -*- # Part of Odoo. See LICENSE file for full copyright and licensing details. from contextlib import contextmanager from unittest.mock import patch from odoo import Command from odoo.addons.base.models.res_partner import Partner from odoo.addons.base.tests.common import TransactionCaseWithUserDemo from odoo.exceptions import AccessError, RedirectWarning, UserError, ValidationError from odoo.tests import Form from odoo.tests.common import tagged, TransactionCase # samples use effective TLDs from the Mozilla public suffix # list at http://publicsuffix.org SAMPLES = [ ('"Raoul Grosbedon" ', 'Raoul Grosbedon', 'raoul@chirurgiens-dentistes.fr'), ('ryu+giga-Sushi@aizubange.fukushima.jp', 'ryu+giga-sushi@aizubange.fukushima.jp', 'ryu+giga-sushi@aizubange.fukushima.jp'), ('Raoul chirurgiens-dentistes.fr', 'Raoul chirurgiens-dentistes.fr', ''), (" Raoul O'hara ", "Raoul O'hara", '!@historicalsociety.museum'), ('Raoul Grosbedon ', 'Raoul Grosbedon', 'raoul@chirurgiens-dentistes.fr'), ('Raoul megaraoul@chirurgiens-dentistes.fr', 'Raoul', 'megaraoul@chirurgiens-dentistes.fr'), ] @tagged('res_partner') class TestPartner(TransactionCaseWithUserDemo): @contextmanager def mockPartnerCalls(self): _original_create = Partner.create self._new_partners = self.env['res.partner'] def _res_partner_create(model, *args, **kwargs): records = _original_create(model, *args, **kwargs) self._new_partners += records.sudo() return records with patch.object(Partner, 'create', autospec=True, side_effect=_res_partner_create): yield def _check_find_or_create(self, test_string, expected_name, expected_email, expected_partner=False): with self.mockPartnerCalls(): partner = self.env['res.partner'].find_or_create(test_string) if expected_partner: self.assertEqual( partner, expected_partner, f'Should have found {expected_partner.name} ({expected_partner.id}), found {partner.name} ({partner.id}) instead') self.assertFalse(self._new_partners) else: self.assertEqual( partner, self._new_partners, f'Should have created a partner, found {partner.name} ({partner.id}) instead' ) self.assertEqual(partner.name, expected_name) self.assertEqual(partner.email or '', expected_email) return partner def test_archive_internal_partners(self): test_partner = self.env['res.partner'].create({'name':'test partner'}) test_user = self.env['res.users'].create({ 'login': 'test@odoo.com', 'partner_id': test_partner.id, }) # Cannot archive the partner with self.assertRaises(RedirectWarning): test_partner.with_user(self.env.ref('base.user_admin')).toggle_active() with self.assertRaises(ValidationError): test_partner.with_user(self.user_demo).toggle_active() # Can archive the user but the partner stays active test_user.toggle_active() self.assertTrue(test_partner.active, 'Parter related to user should remain active') # Now we can archive the partner test_partner.toggle_active() # Activate the user should reactivate the partner test_user.toggle_active() self.assertTrue(test_partner.active, 'Activating user must active related partner') def test_email_formatted(self): """ Test various combinations of name / email, notably to check result of email_formatted field. """ # multi create new_partners = self.env['res.partner'].create([{ 'name': "Vlad the Impaler", 'email': f'vlad.the.impaler.{idx:02d}@example.com', } for idx in range(2)]) self.assertEqual( sorted(new_partners.mapped('email_formatted')), sorted([f'"Vlad the Impaler" ' for idx in range(2)]), 'Email formatted should be "name" ' ) # test name_create with formatting / multi emails for source, (exp_name, exp_email, exp_email_formatted) in [ ( 'Balázs , vlad.the.impaler@example.com', ("Balázs", "vlad.the.negociator@example.com", '"Balázs" ') ), ( 'Balázs ', ("Balázs", "vlad.the.impaler@example.com", '"Balázs" ') ), ]: with self.subTest(source=source): new_partner_id = self.env['res.partner'].name_create(source)[0] new_partner = self.env['res.partner'].browse(new_partner_id) self.assertEqual(new_partner.name, exp_name) self.assertEqual(new_partner.email, exp_email) self.assertEqual( new_partner.email_formatted, exp_email_formatted, 'Name_create should take first found email' ) # check name updates for source, exp_email_formatted in [ ('Vlad the Impaler', '"Vlad the Impaler" '), ('Balázs', '"Balázs" '), ('Balázs ', '"Balázs " '), ]: with self.subTest(source=source): new_partner.write({'name': source}) self.assertEqual(new_partner.email_formatted, exp_email_formatted) # check email updates new_partner.write({'name': 'Balázs'}) for source, exp_email_formatted in [ # encapsulated email ( "Vlad the Impaler ", '"Balázs" ' ), ( '"Balázs" ', '"Balázs" ' ), # multi email ( "vlad.the.impaler@example.com, vlad.the.dragon@example.com", '"Balázs" ' ), ( "vlad.the.impaler.com, vlad.the.dragon@example.com", '"Balázs" ' ), ( 'vlad.the.impaler.com, "Vlad the Dragon" ', '"Balázs" ' ), # falsy emails (False, False), ('', False), (' ', '"Balázs" <@ >'), ('notanemail', '"Balázs" <@notanemail>'), ]: with self.subTest(source=source): new_partner.write({'email': source}) self.assertEqual(new_partner.email_formatted, exp_email_formatted) def test_find_or_create(self): original_partner = self.env['res.partner'].browse( self.env['res.partner'].name_create(SAMPLES[0][0])[0] ) all_partners = [] for (text_input, expected_name, expected_email), expected_partner, find_idx in zip( SAMPLES, [original_partner, False, False, False, original_partner, False, # patrick example False, False, False, # multi email False], [0, 0, 0, 0, 0, 0, 0, 6, 0, 0], ): with self.subTest(text_input=text_input): if not expected_partner and find_idx: expected_partner = all_partners[find_idx] all_partners.append( self._check_find_or_create( text_input, expected_name, expected_email, expected_partner=expected_partner, ) ) def test_is_public(self): """ Check that base.partner_user is a public partner.""" self.assertFalse(self.env.ref('base.public_user').active) self.assertFalse(self.env.ref('base.public_partner').active) self.assertTrue(self.env.ref('base.public_partner').is_public) def test_lang_computation_code(self): """ Check computation of lang: coming from installed languages, forced default value and propagation from parent.""" default_lang_info = self.env['res.lang'].get_installed()[0] default_lang_code = default_lang_info[0] self.assertNotEqual(default_lang_code, 'de_DE') # should not be the case, just to ease test self.assertNotEqual(default_lang_code, 'fr_FR') # should not be the case, just to ease test # default is installed lang partner = self.env['res.partner'].create({'name': "Test Company"}) self.assertEqual(partner.lang, default_lang_code) # check propagation of parent to child child = self.env['res.partner'].create({'name': 'First Child', 'parent_id': partner.id}) self.assertEqual(child.lang, default_lang_code) # activate another languages to test language propagation when being in multi-lang self.env['res.lang']._activate_lang('de_DE') self.env['res.lang']._activate_lang('fr_FR') # default from context > default from installed partner = self.env['res.partner'].with_context(default_lang='de_DE').create({'name': "Test Company"}) self.assertEqual(partner.lang, 'de_DE') first_child = self.env['res.partner'].create({'name': 'First Child', 'parent_id': partner.id}) partner.write({'lang': 'fr_FR'}) second_child = self.env['res.partner'].create({'name': 'Second Child', 'parent_id': partner.id}) # check user input is kept self.assertEqual(partner.lang, 'fr_FR') self.assertEqual(first_child.lang, 'de_DE') self.assertEqual(second_child.lang, 'fr_FR') def test_name_create(self): res_partner = self.env['res.partner'] for text, expected_name, expected_mail in SAMPLES: with self.subTest(text=text): partner_id, dummy = res_partner.name_create(text) partner = res_partner.browse(partner_id) self.assertEqual(expected_name or expected_mail.lower(), partner.name) self.assertEqual(expected_mail.lower() or False, partner.email) # name_create supports default_email fallback partner = self.env['res.partner'].browse( self.env['res.partner'].with_context( default_email='John.Wick@example.com' ).name_create('"Raoulette Vachette" ')[0] ) self.assertEqual(partner.name, 'Raoulette Vachette') self.assertEqual(partner.email, 'raoul@grosbedon.fr') partner = self.env['res.partner'].browse( self.env['res.partner'].with_context( default_email='John.Wick@example.com' ).name_create('Raoulette Vachette')[0] ) self.assertEqual(partner.name, 'Raoulette Vachette') self.assertEqual(partner.email, 'John.Wick@example.com') def test_name_search(self): res_partner = self.env['res.partner'] sources = [ ('"A Raoul Grosbedon" ', False), ('B Raoul chirurgiens-dentistes.fr', True), ("C Raoul O'hara ", True), ('ryu+giga-Sushi@aizubange.fukushima.jp', True), ] for name, active in sources: _partner_id, dummy = res_partner.with_context(default_active=active).name_create(name) partners = res_partner.name_search('Raoul') self.assertEqual(len(partners), 2, 'Incorrect search number result for name_search') partners = res_partner.name_search('Raoul', limit=1) self.assertEqual(len(partners), 1, 'Incorrect search number result for name_search with a limit') self.assertEqual(partners[0][1], 'B Raoul chirurgiens-dentistes.fr', 'Incorrect partner returned, should be the first active') def test_name_search_with_user(self): """ Check name_search on partner, especially with domain based on auto_join user_ids field. Check specific SQL of name_search correctly handle joined tables. """ test_partner = self.env['res.partner'].create({'name': 'Vlad the Impaler'}) test_user = self.env['res.users'].create({'name': 'Vlad the Impaler', 'login': 'vlad', 'email': 'vlad.the.impaler@example.com'}) ns_res = self.env['res.partner'].name_search('Vlad', operator='ilike') self.assertEqual(set(i[0] for i in ns_res), set((test_partner | test_user.partner_id).ids)) ns_res = self.env['res.partner'].name_search('Vlad', args=[('user_ids.email', 'ilike', 'vlad')]) self.assertEqual(set(i[0] for i in ns_res), set(test_user.partner_id.ids)) # Check a partner may be searched when current user has no access but sudo is used public_user = self.env.ref('base.public_user') with self.assertRaises(AccessError): test_partner.with_user(public_user).check_access_rule('read') ns_res = self.env['res.partner'].with_user(public_user).sudo().name_search('Vlad', args=[('user_ids.email', 'ilike', 'vlad')]) self.assertEqual(set(i[0] for i in ns_res), set(test_user.partner_id.ids)) def test_partner_merge_wizard_dst_partner_id(self): """ Check that dst_partner_id in merge wizard displays id along with partner name """ test_partner = self.env['res.partner'].create({'name': 'Radu the Handsome'}) expected_partner_name = '%s (%s)' % (test_partner.name, test_partner.id) partner_merge_wizard = self.env['base.partner.merge.automatic.wizard'].with_context( {'partner_show_db_id': True, 'default_dst_partner_id': test_partner}).new() self.assertEqual( partner_merge_wizard.dst_partner_id.display_name, expected_partner_name, "'Destination Contact' name should contain db ID in brackets" ) def test_read_group(self): title_sir = self.env['res.partner.title'].create({'name': 'Sir...'}) title_lady = self.env['res.partner.title'].create({'name': 'Lady...'}) user_vals_list = [ {'name': 'Alice', 'login': 'alice', 'color': 1, 'function': 'Friend', 'date': '2015-03-28', 'title': title_lady.id}, {'name': 'Alice', 'login': 'alice2', 'color': 0, 'function': 'Friend', 'date': '2015-01-28', 'title': title_lady.id}, {'name': 'Bob', 'login': 'bob', 'color': 2, 'function': 'Friend', 'date': '2015-03-02', 'title': title_sir.id}, {'name': 'Eve', 'login': 'eve', 'color': 3, 'function': 'Eavesdropper', 'date': '2015-03-20', 'title': title_lady.id}, {'name': 'Nab', 'login': 'nab', 'color': -3, 'function': '5$ Wrench', 'date': '2014-09-10', 'title': title_sir.id}, {'name': 'Nab', 'login': 'nab-she', 'color': 6, 'function': '5$ Wrench', 'date': '2014-01-02', 'title': title_lady.id}, ] res_users = self.env['res.users'] users = res_users.create(user_vals_list) domain = [('id', 'in', users.ids)] # group on local char field without domain and without active_test (-> empty WHERE clause) groups_data = res_users.with_context(active_test=False).read_group([], fields=['login'], groupby=['login'], orderby='login DESC') self.assertGreater(len(groups_data), 6, "Incorrect number of results when grouping on a field") # group on local char field with limit groups_data = res_users.read_group(domain, fields=['login'], groupby=['login'], orderby='login DESC', limit=3, offset=3) self.assertEqual(len(groups_data), 3, "Incorrect number of results when grouping on a field with limit") self.assertEqual([g['login'] for g in groups_data], ['bob', 'alice2', 'alice'], 'Result mismatch') # group on inherited char field, aggregate on int field (second groupby ignored on purpose) groups_data = res_users.read_group(domain, fields=['name', 'color', 'function'], groupby=['function', 'login']) self.assertEqual(len(groups_data), 3, "Incorrect number of results when grouping on a field") self.assertEqual(['5$ Wrench', 'Eavesdropper', 'Friend'], [g['function'] for g in groups_data], 'incorrect read_group order') for group_data in groups_data: self.assertIn('color', group_data, "Aggregated data for the column 'color' is not present in read_group return values") self.assertEqual(group_data['color'], 3, "Incorrect sum for aggregated data for the column 'color'") # group on inherited char field, reverse order groups_data = res_users.read_group(domain, fields=['name', 'color'], groupby='name', orderby='name DESC') self.assertEqual([g['name'] for g in groups_data], ['Nab', 'Eve', 'Bob', 'Alice'], 'Incorrect ordering of the list') # group on int field, default ordering groups_data = res_users.read_group(domain, fields=['color'], groupby='color') self.assertEqual([g['color'] for g in groups_data], [-3, 0, 1, 2, 3, 6], 'Incorrect ordering of the list') # multi group, second level is int field, should still be summed in first level grouping groups_data = res_users.read_group(domain, fields=['name', 'color'], groupby=['name', 'color'], orderby='name DESC') self.assertEqual([g['name'] for g in groups_data], ['Nab', 'Eve', 'Bob', 'Alice'], 'Incorrect ordering of the list') self.assertEqual([g['color'] for g in groups_data], [3, 3, 2, 1], 'Incorrect ordering of the list') # group on inherited char field, multiple orders with directions groups_data = res_users.read_group(domain, fields=['name', 'color'], groupby='name', orderby='color DESC, name') self.assertEqual(len(groups_data), 4, "Incorrect number of results when grouping on a field") self.assertEqual([g['name'] for g in groups_data], ['Eve', 'Nab', 'Bob', 'Alice'], 'Incorrect ordering of the list') self.assertEqual([g['name_count'] for g in groups_data], [1, 2, 1, 2], 'Incorrect number of results') # group on inherited date column (res_partner.date) -> Year-Month, default ordering groups_data = res_users.read_group(domain, fields=['function', 'color', 'date'], groupby=['date']) self.assertEqual(len(groups_data), 4, "Incorrect number of results when grouping on a field") self.assertEqual([g['date'] for g in groups_data], ['January 2014', 'September 2014', 'January 2015', 'March 2015'], 'Incorrect ordering of the list') self.assertEqual([g['date_count'] for g in groups_data], [1, 1, 1, 3], 'Incorrect number of results') # group on inherited date column (res_partner.date) specifying the :year -> Year default ordering groups_data = res_users.read_group(domain, fields=['function', 'color', 'date'], groupby=['date:year']) self.assertEqual(len(groups_data), 2, "Incorrect number of results when grouping on a field") self.assertEqual([g['date:year'] for g in groups_data], ['2014', '2015'], 'Incorrect ordering of the list') self.assertEqual([g['date_count'] for g in groups_data], [2, 4], 'Incorrect number of results') # group on inherited date column (res_partner.date) -> Year-Month, custom order groups_data = res_users.read_group(domain, fields=['function', 'color', 'date'], groupby=['date'], orderby='date DESC') self.assertEqual(len(groups_data), 4, "Incorrect number of results when grouping on a field") self.assertEqual([g['date'] for g in groups_data], ['March 2015', 'January 2015', 'September 2014', 'January 2014'], 'Incorrect ordering of the list') self.assertEqual([g['date_count'] for g in groups_data], [3, 1, 1, 1], 'Incorrect number of results') # group on inherited many2one (res_partner.title), default order groups_data = res_users.read_group(domain, fields=['function', 'color', 'title'], groupby=['title']) self.assertEqual(len(groups_data), 2, "Incorrect number of results when grouping on a field") # m2o is returned as a (id, label) pair self.assertEqual([g['title'] for g in groups_data], [(title_lady.id, 'Lady...'), (title_sir.id, 'Sir...')], 'Incorrect ordering of the list') self.assertEqual([g['title_count'] for g in groups_data], [4, 2], 'Incorrect number of results') self.assertEqual([g['color'] for g in groups_data], [10, -1], 'Incorrect aggregation of int column') # group on inherited many2one (res_partner.title), reversed natural order groups_data = res_users.read_group(domain, fields=['function', 'color', 'title'], groupby=['title'], orderby="title desc") self.assertEqual(len(groups_data), 2, "Incorrect number of results when grouping on a field") # m2o is returned as a (id, label) pair self.assertEqual([(title_sir.id, 'Sir...'), (title_lady.id, 'Lady...')], [g['title'] for g in groups_data], 'Incorrect ordering of the list') self.assertEqual([g['title_count'] for g in groups_data], [2, 4], 'Incorrect number of results') self.assertEqual([g['color'] for g in groups_data], [-1, 10], 'Incorrect aggregation of int column') # group on inherited many2one (res_partner.title), multiple orders with m2o in second position groups_data = res_users.read_group(domain, fields=['function', 'color', 'title'], groupby=['title'], orderby="color desc, title desc") self.assertEqual(len(groups_data), 2, "Incorrect number of results when grouping on a field") # m2o is returned as a (id, label) pair self.assertEqual([g['title'] for g in groups_data], [(title_lady.id, 'Lady...'), (title_sir.id, 'Sir...')], 'Incorrect ordering of the result') self.assertEqual([g['title_count'] for g in groups_data], [4, 2], 'Incorrect number of results') self.assertEqual([g['color'] for g in groups_data], [10, -1], 'Incorrect aggregation of int column') # group on inherited many2one (res_partner.title), ordered by other inherited field (color) groups_data = res_users.read_group(domain, fields=['function', 'color', 'title'], groupby=['title'], orderby='color') self.assertEqual(len(groups_data), 2, "Incorrect number of results when grouping on a field") # m2o is returned as a (id, label) pair self.assertEqual([g['title'] for g in groups_data], [(title_sir.id, 'Sir...'), (title_lady.id, 'Lady...')], 'Incorrect ordering of the list') self.assertEqual([g['title_count'] for g in groups_data], [2, 4], 'Incorrect number of results') self.assertEqual([g['color'] for g in groups_data], [-1, 10], 'Incorrect aggregation of int column') def test_display_name_translation(self): self.env['res.lang']._activate_lang('fr_FR') self.env.ref('base.module_base')._update_translations(['fr_FR']) res_partner = self.env['res.partner'] parent_contact = res_partner.create({ 'name': 'Parent', 'type': 'contact', }) child_contact = res_partner.create({ 'type': 'other', 'parent_id': parent_contact.id, }) self.assertEqual(child_contact.with_context(lang='en_US').display_name, 'Parent, Other Address') self.assertEqual(child_contact.with_context(lang='fr_FR').display_name, 'Parent, Autre adresse') @tagged('res_partner') class TestPartnerAddressCompany(TransactionCase): def test_address(self): res_partner = self.env['res.partner'] ghoststep = res_partner.create({ 'name': 'GhostStep', 'is_company': True, 'street': 'Main Street, 10', 'phone': '123456789', 'email': 'info@ghoststep.com', 'vat': 'BE0477472701', 'type': 'contact', }) p1 = res_partner.browse(res_partner.name_create('Denis Bladesmith ')[0]) self.assertEqual(p1.type, 'contact', 'Default type must be "contact"') p1phone = '123456789#34' p1.write({'phone': p1phone, 'parent_id': ghoststep.id}) self.assertEqual(p1.street, ghoststep.street, 'Address fields must be synced') self.assertEqual(p1.phone, p1phone, 'Phone should be preserved after address sync') self.assertEqual(p1.type, 'contact', 'Type should be preserved after address sync') self.assertEqual(p1.email, 'denis.bladesmith@ghoststep.com', 'Email should be preserved after sync') # turn off sync p1street = 'Different street, 42' p1.write({'street': p1street, 'type': 'invoice'}) self.assertEqual(p1.street, p1street, 'Address fields must not be synced after turning sync off') self.assertNotEqual(ghoststep.street, p1street, 'Parent address must never be touched') # turn on sync again p1.write({'type': 'contact'}) self.assertEqual(p1.street, ghoststep.street, 'Address fields must be synced again') self.assertEqual(p1.phone, p1phone, 'Phone should be preserved after address sync') self.assertEqual(p1.type, 'contact', 'Type should be preserved after address sync') self.assertEqual(p1.email, 'denis.bladesmith@ghoststep.com', 'Email should be preserved after sync') # Modify parent, sync to children ghoststreet = 'South Street, 25' ghoststep.write({'street': ghoststreet}) self.assertEqual(p1.street, ghoststreet, 'Address fields must be synced automatically') self.assertEqual(p1.phone, p1phone, 'Phone should not be synced') self.assertEqual(p1.email, 'denis.bladesmith@ghoststep.com', 'Email should be preserved after sync') p1street = 'My Street, 11' p1.write({'street': p1street}) self.assertEqual(ghoststep.street, ghoststreet, 'Touching contact should never alter parent') def test_address_first_contact_sync(self): """ Test initial creation of company/contact pair where contact address gets copied to company """ res_partner = self.env['res.partner'] ironshield = res_partner.browse(res_partner.name_create('IronShield')[0]) self.assertFalse(ironshield.is_company, 'Partners are not companies by default') self.assertEqual(ironshield.type, 'contact', 'Default type must be "contact"') ironshield.write({'type': 'contact'}) p1 = res_partner.create({ 'name': 'Isen Hardearth', 'street': 'Strongarm Avenue, 12', 'parent_id': ironshield.id, }) self.assertEqual(p1.type, 'contact', 'Default type must be "contact", not the copied parent type') self.assertEqual(ironshield.street, p1.street, 'Address fields should be copied to company') def test_address_get(self): """ Test address_get address resolution mechanism: it should first go down through descendants, stopping when encountering another is_copmany entity, then go up, stopping again at the first is_company entity or the root ancestor and if nothing matches, it should use the provided partner itself """ res_partner = self.env['res.partner'] elmtree = res_partner.browse(res_partner.name_create('Elmtree')[0]) branch1 = res_partner.create({'name': 'Branch 1', 'parent_id': elmtree.id, 'is_company': True}) leaf10 = res_partner.create({'name': 'Leaf 10', 'parent_id': branch1.id, 'type': 'invoice'}) branch11 = res_partner.create({'name': 'Branch 11', 'parent_id': branch1.id, 'type': 'other'}) leaf111 = res_partner.create({'name': 'Leaf 111', 'parent_id': branch11.id, 'type': 'delivery'}) branch11.write({'is_company': False}) # force is_company after creating 1rst child branch2 = res_partner.create({'name': 'Branch 2', 'parent_id': elmtree.id, 'is_company': True}) leaf21 = res_partner.create({'name': 'Leaf 21', 'parent_id': branch2.id, 'type': 'delivery'}) leaf22 = res_partner.create({'name': 'Leaf 22', 'parent_id': branch2.id}) leaf23 = res_partner.create({'name': 'Leaf 23', 'parent_id': branch2.id, 'type': 'contact'}) # go up, stop at branch1 self.assertEqual(leaf111.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf111.id, 'invoice': leaf10.id, 'contact': branch1.id, 'other': branch11.id}, 'Invalid address resolution') self.assertEqual(branch11.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf111.id, 'invoice': leaf10.id, 'contact': branch1.id, 'other': branch11.id}, 'Invalid address resolution') # go down, stop at at all child companies self.assertEqual(elmtree.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': elmtree.id, 'invoice': elmtree.id, 'contact': elmtree.id, 'other': elmtree.id}, 'Invalid address resolution') # go down through children self.assertEqual(branch1.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf111.id, 'invoice': leaf10.id, 'contact': branch1.id, 'other': branch11.id}, 'Invalid address resolution') self.assertEqual(branch2.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf21.id, 'invoice': branch2.id, 'contact': branch2.id, 'other': branch2.id}, 'Invalid address resolution. Company is the first encountered contact, therefore default for unfound addresses.') # go up then down through siblings self.assertEqual(leaf21.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf21.id, 'invoice': branch2.id, 'contact': branch2.id, 'other': branch2.id}, 'Invalid address resolution, should scan commercial entity ancestor and its descendants') self.assertEqual(leaf22.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf21.id, 'invoice': leaf22.id, 'contact': leaf22.id, 'other': leaf22.id}, 'Invalid address resolution, should scan commercial entity ancestor and its descendants') self.assertEqual(leaf23.address_get(['delivery', 'invoice', 'contact', 'other']), {'delivery': leaf21.id, 'invoice': leaf23.id, 'contact': leaf23.id, 'other': leaf23.id}, 'Invalid address resolution, `default` should only override if no partner with specific type exists') # empty adr_pref means only 'contact' self.assertEqual(elmtree.address_get([]), {'contact': elmtree.id}, 'Invalid address resolution, no contact means commercial entity ancestor') self.assertEqual(leaf111.address_get([]), {'contact': branch1.id}, 'Invalid address resolution, no contact means finding contact in ancestors') branch11.write({'type': 'contact'}) self.assertEqual(leaf111.address_get([]), {'contact': branch11.id}, 'Invalid address resolution, branch11 should now be contact') def test_commercial_partner_nullcompany(self): """ The commercial partner is the first/nearest ancestor-or-self which is a company or doesn't have a parent """ P = self.env['res.partner'] p0 = P.create({'name': '0', 'email': '0'}) self.assertEqual(p0.commercial_partner_id, p0, "partner without a parent is their own commercial partner") p1 = P.create({'name': '1', 'email': '1', 'parent_id': p0.id}) self.assertEqual(p1.commercial_partner_id, p0, "partner's parent is their commercial partner") p12 = P.create({'name': '12', 'email': '12', 'parent_id': p1.id}) self.assertEqual(p12.commercial_partner_id, p0, "partner's GP is their commercial partner") p2 = P.create({'name': '2', 'email': '2', 'parent_id': p0.id, 'is_company': True}) self.assertEqual(p2.commercial_partner_id, p2, "partner flagged as company is their own commercial partner") p21 = P.create({'name': '21', 'email': '21', 'parent_id': p2.id}) self.assertEqual(p21.commercial_partner_id, p2, "commercial partner is closest ancestor with themselves as commercial partner") p3 = P.create({'name': '3', 'email': '3', 'is_company': True}) self.assertEqual(p3.commercial_partner_id, p3, "being both parent-less and company should be the same as either") notcompanies = p0 | p1 | p12 | p21 self.env.cr.execute('update res_partner set is_company=null where id = any(%s)', [notcompanies.ids]) for parent in notcompanies: p = P.create({ 'name': parent.name + '_sub', 'email': parent.email + '_sub', 'parent_id': parent.id, }) self.assertEqual( p.commercial_partner_id, parent.commercial_partner_id, "check that is_company=null is properly handled when looking for ancestor" ) def test_commercial_field_sync(self): """Check if commercial fields are synced properly: testing with VAT field""" Partner = self.env['res.partner'] company_1 = Partner.create({'name': 'company 1', 'is_company': True, 'vat': 'BE0123456789'}) company_2 = Partner.create({'name': 'company 2', 'is_company': True, 'vat': 'BE9876543210'}) partner = Partner.create({'name': 'someone', 'is_company': False, 'parent_id': company_1.id}) Partner.flush_recordset() self.assertEqual(partner.vat, company_1.vat, "VAT should be inherited from the company 1") # create a delivery address for the partner delivery = Partner.create({'name': 'somewhere', 'type': 'delivery', 'parent_id': partner.id}) self.assertEqual(delivery.commercial_partner_id.id, company_1.id, "Commercial partner should be recomputed") self.assertEqual(delivery.vat, company_1.vat, "VAT should be inherited from the company 1") # move the partner to another company partner.write({'parent_id': company_2.id}) partner.flush_recordset() self.assertEqual(partner.commercial_partner_id.id, company_2.id, "Commercial partner should be recomputed") self.assertEqual(partner.vat, company_2.vat, "VAT should be inherited from the company 2") self.assertEqual(delivery.commercial_partner_id.id, company_2.id, "Commercial partner should be recomputed on delivery") self.assertEqual(delivery.vat, company_2.vat, "VAT should be inherited from the company 2 to delivery") def test_commercial_sync(self): res_partner = self.env['res.partner'] p0 = res_partner.create({'name': 'Sigurd Sunknife', 'email': 'ssunknife@gmail.com'}) sunhelm = res_partner.create({'name': 'Sunhelm', 'is_company': True, 'street': 'Rainbow Street, 13', 'phone': '1122334455', 'email': 'info@sunhelm.com', 'vat': 'BE0477472701', 'child_ids': [Command.link(p0.id), Command.create({'name': 'Alrik Greenthorn', 'email': 'agr@sunhelm.com'})]}) p1 = res_partner.create({'name': 'Otto Blackwood', 'email': 'otto.blackwood@sunhelm.com', 'parent_id': sunhelm.id}) p11 = res_partner.create({'name': 'Gini Graywool', 'email': 'ggr@sunhelm.com', 'parent_id': p1.id}) p2 = res_partner.search([('email', '=', 'agr@sunhelm.com')], limit=1) sunhelm.write({'child_ids': [Command.create({'name': 'Ulrik Greenthorn', 'email': 'ugr@sunhelm.com'})]}) p3 = res_partner.search([('email', '=', 'ugr@sunhelm.com')], limit=1) for p in (p0, p1, p11, p2, p3): self.assertEqual(p.commercial_partner_id, sunhelm, 'Incorrect commercial entity resolution') self.assertEqual(p.vat, sunhelm.vat, 'Commercial fields must be automatically synced') sunhelmvat = 'BE0123456749' sunhelm.write({'vat': sunhelmvat}) for p in (p0, p1, p11, p2, p3): self.assertEqual(p.vat, sunhelmvat, 'Commercial fields must be automatically and recursively synced') p1vat = 'BE0987654394' p1.write({'vat': p1vat}) for p in (sunhelm, p0, p11, p2, p3): self.assertEqual(p.vat, sunhelmvat, 'Sync to children should only work downstream and on commercial entities') # promote p1 to commercial entity p1.write({'parent_id': sunhelm.id, 'is_company': True, 'name': 'Sunhelm Subsidiary'}) self.assertEqual(p1.vat, p1vat, 'Setting is_company should stop auto-sync of commercial fields') self.assertEqual(p1.commercial_partner_id, p1, 'Incorrect commercial entity resolution after setting is_company') # writing on parent should not touch child commercial entities sunhelmvat2 = 'BE0112233453' sunhelm.write({'vat': sunhelmvat2}) self.assertEqual(p1.vat, p1vat, 'Setting is_company should stop auto-sync of commercial fields') self.assertEqual(p0.vat, sunhelmvat2, 'Commercial fields must be automatically synced') def test_company_change_propagation(self): """ Check propagation of company_id across children """ User = self.env['res.users'] Partner = self.env['res.partner'] Company = self.env['res.company'] company_1 = Company.create({'name': 'company_1'}) company_2 = Company.create({'name': 'company_2'}) test_partner_company = Partner.create({'name': 'This company'}) test_user = User.create({'name': 'This user', 'login': 'thisu', 'email': 'this.user@example.com', 'company_id': company_1.id, 'company_ids': [company_1.id]}) test_user.partner_id.write({'parent_id': test_partner_company.id}) test_partner_company.write({'company_id': company_1.id}) self.assertEqual(test_user.partner_id.company_id.id, company_1.id, "The new company_id of the partner company should be propagated to its children") test_partner_company.write({'company_id': False}) self.assertFalse(test_user.partner_id.company_id.id, "If the company_id is deleted from the partner company, it should be propagated to its children") with self.assertRaises(UserError, msg="You should not be able to update the company_id of the partner company if the linked user of a child partner is not an allowed to be assigned to that company"), self.cr.savepoint(): test_partner_company.write({'company_id': company_2.id}) def test_display_address_missing_key(self): """ Check _display_address when some keys are missing. As a defaultdict is used, missing keys should be filled with empty strings. """ country = self.env["res.country"].create({"name": "TestCountry", "address_format": "%(city)s %(zip)s", "code": "ZV"}) partner = self.env["res.partner"].create({ "name": "TestPartner", "country_id": country.id, "city": "TestCity", "zip": "12345", }) before = partner._display_address() # Manually update the country address_format because placeholders are checked by create self.env.cr.execute( "UPDATE res_country SET address_format ='%%(city)s %%(zip)s %%(nothing)s' WHERE id=%s", [country.id] ) self.env["res.country"].invalidate_model() self.assertEqual(before, partner._display_address().strip()) def test_display_name(self): """ Check display_name on partner, especially with different context Check display_name correctly return name with context. """ test_partner_jetha = self.env['res.partner'].create({'name': 'Jethala', 'street': 'Powder gali', 'street2': 'Gokuldham Society'}) test_partner_bhide = self.env['res.partner'].create({'name': 'Atmaram Bhide'}) res_jetha = test_partner_jetha.with_context(show_address=1).display_name self.assertEqual(res_jetha, "Jethala\nPowder gali\nGokuldham Society", "name should contain comma separated name and address") res_bhide = test_partner_bhide.with_context(show_address=1).display_name self.assertEqual(res_bhide, "Atmaram Bhide", "name should contain only name if address is not available, without extra commas") res_jetha = test_partner_jetha.with_context(show_address=1, address_inline=1).display_name self.assertEqual(res_jetha, "Jethala, Powder gali, Gokuldham Society", "name should contain comma separated name and address") res_bhide = test_partner_bhide.with_context(show_address=1, address_inline=1).display_name self.assertEqual(res_bhide, "Atmaram Bhide", "name should contain only name if address is not available, without extra commas") @tagged('res_partner', 'post_install', '-at_install') class TestPartnerForm(TransactionCase): # those tests are made post-install because they need module 'web' for the # form view to work properly def test_lang_computation_form_view(self): """ Check computation of lang: coming from installed languages, forced default value and propagation from parent.""" default_lang_info = self.env['res.lang'].get_installed()[0] default_lang_code = default_lang_info[0] self.assertNotEqual(default_lang_code, 'de_DE') # should not be the case, just to ease test self.assertNotEqual(default_lang_code, 'fr_FR') # should not be the case, just to ease test # default is installed lang partner_form = Form(self.env['res.partner'], 'base.view_partner_form') partner_form.name = "Test Company" self.assertEqual(partner_form.lang, default_lang_code, "New partner's lang should be default one") partner = partner_form.save() self.assertEqual(partner.lang, default_lang_code) # check propagation of parent to child with partner_form.child_ids.new() as child: child.name = "First Child" self.assertEqual(child.lang, default_lang_code, "Child contact's lang should have the same as its parent") partner = partner_form.save() self.assertEqual(partner.child_ids.lang, default_lang_code) # activate another languages to test language propagation when being in multi-lang self.env['res.lang']._activate_lang('de_DE') self.env['res.lang']._activate_lang('fr_FR') # default from context > default from installed partner_form = Form( self.env['res.partner'].with_context(default_lang='de_DE'), 'base.view_partner_form' ) # # # @api.onchange('company_type') # def onchange_company_type(self): # self.is_company = (self.company_type == 'company') partner_form.company_type = 'company' partner_form.name = "Test Company" self.assertEqual(partner_form.lang, 'de_DE', "New partner's lang should take default from context") with partner_form.child_ids.new() as child: child.name = "First Child" self.assertEqual(child.lang, 'de_DE', "Child contact's lang should be the same as its parent.") partner_form.lang = 'fr_FR' self.assertEqual(partner_form.lang, 'fr_FR', "New partner's lang should take user input") with partner_form.child_ids.new() as child: child.name = "Second Child" self.assertEqual(child.lang, 'fr_FR', "Child contact's lang should be the same as its parent.") partner = partner_form.save() # check final values (kept from form input) self.assertEqual(partner.lang, 'fr_FR') self.assertEqual(partner.child_ids.filtered(lambda p: p.name == "First Child").lang, 'de_DE') self.assertEqual(partner.child_ids.filtered(lambda p: p.name == "Second Child").lang, 'fr_FR') def test_onchange_parent_sync_user(self): company_1 = self.env['res.company'].create({'name': 'company_1'}) test_user = self.env['res.users'].create({ 'name': 'This user', 'login': 'thisu', 'email': 'this.user@example.com', 'company_id': company_1.id, 'company_ids': [company_1.id], }) test_parent_partner = self.env['res.partner'].create({ 'company_type': 'company', 'name': 'Micheline', 'user_id': test_user.id, }) with Form(self.env['res.partner']) as partner_form: partner_form.parent_id = test_parent_partner partner_form.company_type = 'person' partner_form.name = 'Philip' self.assertEqual(partner_form.user_id, test_parent_partner.user_id) @tagged('res_partner') class TestPartnerRecursion(TransactionCase): def setUp(self): super(TestPartnerRecursion, self).setUp() res_partner = self.env['res.partner'] self.p1 = res_partner.browse(res_partner.name_create('Elmtree')[0]) self.p2 = res_partner.create({'name': 'Elmtree Child 1', 'parent_id': self.p1.id}) self.p3 = res_partner.create({'name': 'Elmtree Grand-Child 1.1', 'parent_id': self.p2.id}) def test_100_res_partner_recursion(self): self.assertTrue(self.p3._check_recursion()) self.assertTrue((self.p1 + self.p2 + self.p3)._check_recursion()) # split 101, 102, 103 tests to force SQL rollback between them def test_101_res_partner_recursion(self): with self.assertRaises(ValidationError): self.p1.write({'parent_id': self.p3.id}) def test_102_res_partner_recursion(self): with self.assertRaises(ValidationError): self.p2.write({'parent_id': self.p3.id}) def test_103_res_partner_recursion(self): with self.assertRaises(ValidationError): self.p3.write({'parent_id': self.p3.id}) def test_104_res_partner_recursion_indirect_cycle(self): """ Indirect hacky write to create cycle in children """ p3b = self.p1.create({'name': 'Elmtree Grand-Child 1.2', 'parent_id': self.p2.id}) with self.assertRaises(ValidationError): self.p2.write({'child_ids': [Command.update(self.p3.id, {'parent_id': p3b.id}), Command.update(p3b.id, {'parent_id': self.p3.id})]}) def test_110_res_partner_recursion_multi_update(self): """ multi-write on several partners in same hierarchy must not trigger a false cycle detection """ ps = self.p1 + self.p2 + self.p3 self.assertTrue(ps.write({'phone': '123456'})) def test_111_res_partner_recursion_infinite_loop(self): """ The recursion check must not loop forever """ self.p2.parent_id = False self.p3.parent_id = False self.p1.parent_id = self.p2 with self.assertRaises(ValidationError): (self.p3|self.p2).write({'parent_id': self.p1.id})