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280 lines
13 KiB
Python
280 lines
13 KiB
Python
# Copyright 2016-2017 Therp BV
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# License AGPL-3.0 or later (http://www.gnu.org/licenses/agpl.html).
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from flectra.exceptions import ValidationError
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from .test_partner_relation_common import TestPartnerRelationCommon
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class TestPartnerRelation(TestPartnerRelationCommon):
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def setUp(self):
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super(TestPartnerRelation, self).setUp()
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# Create a new relation type which will not have valid relations:
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category_nobody = self.category_model.create({
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'name': 'Nobody'})
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(self.type_nobody,
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self.selection_nobody,
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self.selection_nobody_inverse) = (
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self._create_relation_type_selection({
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'name': 'has relation with nobody',
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'name_inverse': 'nobody has relation with',
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'contact_type_left': 'c',
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'contact_type_right': 'p',
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'partner_category_left': category_nobody.id,
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'partner_category_right': category_nobody.id}))
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def _get_empty_relation(self):
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"""Get empty relation record for onchange tests."""
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# Need English, because we will compare text
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return self.relation_all_model.with_context(lang='en_US').new({})
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def test_get_partner_types(self):
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"""Partner types should contain at least 'c' and 'p'."""
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partner_types = self.selection_model.get_partner_types()
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type_codes = [ptype[0] for ptype in partner_types]
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self.assertTrue('c' in type_codes)
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self.assertTrue('p' in type_codes)
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def test_create_with_active_id(self):
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"""Test creation with this_partner_id from active_id."""
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# Check wether we can create connection from company to person,
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# taking the particular company from the active records:
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relation = self.relation_all_model.with_context(
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active_id=self.partner_02_company.id,
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active_ids=self.partner_02_company.ids).create({
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'other_partner_id': self.partner_01_person.id,
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'type_selection_id': self.selection_company2person.id})
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self.assertTrue(relation)
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self.assertEqual(relation.this_partner_id, self.partner_02_company)
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# Partner should have one relation now:
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self.assertEqual(self.partner_01_person.relation_count, 1)
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# Test create without type_selection_id:
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with self.assertRaises(ValidationError):
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self.relation_all_model.create({
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'this_partner_id': self.partner_02_company.id,
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'other_partner_id': self.partner_01_person.id})
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def test_display_name(self):
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"""Test display name"""
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relation = self._create_company2person_relation()
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self.assertEqual(
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relation.display_name, '%s %s %s' % (
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relation.this_partner_id.name,
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relation.type_selection_id.name,
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relation.other_partner_id.name))
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def test__regular_write(self):
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"""Test write with valid data."""
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relation = self._create_company2person_relation()
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relation.write({'date_start': '2014-09-01'})
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relation.invalidate_cache(ids=relation.ids)
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self.assertEqual(relation.date_start, '2014-09-01')
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def test_write_incompatible_dates(self):
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"""Test write with date_end before date_start."""
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relation = self._create_company2person_relation()
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with self.assertRaises(ValidationError):
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relation.write({
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'date_start': '2016-09-01',
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'date_end': '2016-08-01'})
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def test_validate_overlapping_01(self):
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"""Test create overlapping with no start / end dates."""
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relation = self._create_company2person_relation()
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with self.assertRaises(ValidationError):
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# New relation with no start / end should give error
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self.relation_all_model.create({
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'this_partner_id': relation.this_partner_id.id,
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'type_selection_id': relation.type_selection_id.id,
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'other_partner_id': relation.other_partner_id.id})
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def test_validate_overlapping_02(self):
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"""Test create overlapping with start / end dates."""
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relation = self.relation_all_model.create({
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'this_partner_id': self.partner_02_company.id,
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'type_selection_id': self.selection_company2person.id,
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'other_partner_id': self.partner_01_person.id,
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'date_start': '2015-09-01',
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'date_end': '2016-08-31'})
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# New relation with overlapping start / end should give error
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with self.assertRaises(ValidationError):
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self.relation_all_model.create({
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'this_partner_id': relation.this_partner_id.id,
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'type_selection_id': relation.type_selection_id.id,
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'other_partner_id': relation.other_partner_id.id,
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'date_start': '2016-08-01',
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'date_end': '2017-07-30'})
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def test_validate_overlapping_03(self):
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"""Test create not overlapping."""
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relation = self.relation_all_model.create({
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'this_partner_id': self.partner_02_company.id,
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'type_selection_id': self.selection_company2person.id,
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'other_partner_id': self.partner_01_person.id,
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'date_start': '2015-09-01',
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'date_end': '2016-08-31'})
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relation_another_record = self.relation_all_model.create({
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'this_partner_id': relation.this_partner_id.id,
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'type_selection_id': relation.type_selection_id.id,
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'other_partner_id': relation.other_partner_id.id,
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'date_start': '2016-09-01',
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'date_end': '2017-08-31'})
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self.assertTrue(relation_another_record)
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def test_inverse_record(self):
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"""Test creation of inverse record."""
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relation = self._create_company2person_relation()
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inverse_relation = self.relation_all_model.search([
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('this_partner_id', '=', relation.other_partner_id.id),
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('other_partner_id', '=', relation.this_partner_id.id)])
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self.assertEqual(len(inverse_relation), 1)
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self.assertEqual(
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inverse_relation.type_selection_id.name,
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self.selection_person2company.name)
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def test_inverse_creation(self):
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"""Test creation of record through inverse selection."""
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relation = self.relation_all_model.create({
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'this_partner_id': self.partner_01_person.id,
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'type_selection_id': self.selection_person2company.id,
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'other_partner_id': self.partner_02_company.id})
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# Check wether display name is what we should expect:
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self.assertEqual(
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relation.display_name, '%s %s %s' % (
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self.partner_01_person.name,
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self.selection_person2company.name,
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self.partner_02_company.name))
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def test_inverse_creation_type_id(self):
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"""Test creation of record through inverse selection with type_id."""
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relation = self.relation_all_model.create({
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'this_partner_id': self.partner_01_person.id,
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'type_id': self.selection_person2company.type_id.id,
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'is_inverse': True,
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'other_partner_id': self.partner_02_company.id})
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# Check wether display name is what we should expect:
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self.assertEqual(
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relation.display_name, '%s %s %s' % (
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self.partner_01_person.name,
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self.selection_person2company.name,
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self.partner_02_company.name))
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def test_unlink(self):
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"""Unlinking derived relation should unlink base relation."""
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# Check wether underlying record is removed when record is removed:
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relation = self._create_company2person_relation()
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base_model = self.env[relation.res_model]
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base_relation = base_model.browse([relation.res_id])
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relation.unlink()
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self.assertFalse(base_relation.exists())
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# Check unlinking record sets with both derived relation records
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self.assertTrue(self.relation_all_model.search([]).unlink())
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def test_on_change_type_selection(self):
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"""Test on_change_type_selection."""
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# 1. Test call with empty relation
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relation_empty = self._get_empty_relation()
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result = relation_empty.onchange_type_selection_id()
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self.assertTrue('domain' in result)
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self.assertFalse('warning' in result)
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self.assertTrue('this_partner_id' in result['domain'])
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self.assertFalse(result['domain']['this_partner_id'])
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self.assertTrue('other_partner_id' in result['domain'])
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self.assertFalse(result['domain']['other_partner_id'])
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# 2. Test call with company 2 person relation
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relation = self._create_company2person_relation()
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domain = relation.onchange_type_selection_id()['domain']
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self.assertTrue(
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('is_company', '=', False) in domain['other_partner_id'])
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# 3. Test with relation needing categories,
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# take active partner from active_id:
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relation_ngo_volunteer = self.relation_all_model.with_context(
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active_id=self.partner_03_ngo.id).create({
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'type_selection_id': self.selection_ngo2volunteer.id,
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'other_partner_id': self.partner_04_volunteer.id})
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domain = relation_ngo_volunteer.onchange_type_selection_id()['domain']
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self.assertTrue(
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('category_id', 'in', [self.category_01_ngo.id]) in
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domain['this_partner_id'])
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self.assertTrue(
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('category_id', 'in', [self.category_02_volunteer.id]) in
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domain['other_partner_id'])
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# 4. Test with invalid or impossible combinations
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relation_nobody = self._get_empty_relation()
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with self.env.do_in_draft():
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relation_nobody.type_selection_id = self.selection_nobody
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warning = relation_nobody.onchange_type_selection_id()['warning']
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self.assertTrue('message' in warning)
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self.assertTrue('No this partner available' in warning['message'])
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with self.env.do_in_draft():
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relation_nobody.this_partner_id = self.partner_02_company
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warning = relation_nobody.onchange_type_selection_id()['warning']
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self.assertTrue('message' in warning)
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self.assertTrue('incompatible' in warning['message'])
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# Allow left partner and check message for other partner:
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self.type_nobody.write({'partner_category_left': False})
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self.selection_nobody.invalidate_cache(ids=self.selection_nobody.ids)
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warning = relation_nobody.onchange_type_selection_id()['warning']
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self.assertTrue('message' in warning)
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self.assertTrue('No other partner available' in warning['message'])
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def test_on_change_partner_id(self):
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"""Test on_change_partner_id."""
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# 1. Test call with empty relation
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relation_empty = self._get_empty_relation()
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result = relation_empty.onchange_partner_id()
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self.assertTrue('domain' in result)
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self.assertFalse('warning' in result)
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self.assertTrue('type_selection_id' in result['domain'])
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self.assertFalse(result['domain']['type_selection_id'])
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# 2. Test call with company 2 person relation
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relation = self._create_company2person_relation()
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domain = relation.onchange_partner_id()['domain']
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self.assertTrue(
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('contact_type_this', '=', 'c') in domain['type_selection_id'])
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# 3. Test with invalid or impossible combinations
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relation_nobody = self._get_empty_relation()
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with self.env.do_in_draft():
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relation_nobody.this_partner_id = self.partner_02_company
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relation_nobody.type_selection_id = self.selection_nobody
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warning = relation_nobody.onchange_partner_id()['warning']
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self.assertTrue('message' in warning)
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self.assertTrue('incompatible' in warning['message'])
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def test_write(self):
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"""Test write. Special attention for changing type."""
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relation_company2person = self._create_company2person_relation()
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company_partner = relation_company2person.this_partner_id
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# First get another worker:
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partner_extra_person = self.partner_model.create({
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'name': 'A new worker',
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'is_company': False,
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'ref': 'NW01'})
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relation_company2person.write({
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'other_partner_id': partner_extra_person.id})
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self.assertEqual(
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relation_company2person.other_partner_id.name,
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partner_extra_person.name)
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# We will also change to a type going from person to company:
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(type_worker2company,
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selection_worker2company,
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selection_company2worker) = self._create_relation_type_selection({
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'name': 'works for',
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'name_inverse': 'has worker',
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'contact_type_left': 'p',
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'contact_type_right': 'c'})
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relation_company2person.write({
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'this_partner_id': partner_extra_person.id,
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'type_selection_id': selection_worker2company.id,
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'other_partner_id': company_partner.id})
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self.assertEqual(
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relation_company2person.this_partner_id.id,
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partner_extra_person.id)
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self.assertEqual(
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relation_company2person.type_selection_id.id,
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selection_worker2company.id)
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self.assertEqual(
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relation_company2person.other_partner_id.id,
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company_partner.id)
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