# Copyright 2016-2017 Therp BV # License AGPL-3.0 or later (https://www.gnu.org/licenses/agpl.html). from datetime import date from flectra.exceptions import ValidationError from .test_partner_relation_common import TestPartnerRelationCommon class TestPartnerRelation(TestPartnerRelationCommon): def setUp(self): super(TestPartnerRelation, self).setUp() # Create a new relation type which will not have valid relations: category_nobody = self.category_model.create({"name": "Nobody"}) ( self.type_nobody, self.selection_nobody, self.selection_nobody_inverse, ) = self._create_relation_type_selection( { "name": "has relation with nobody", "name_inverse": "nobody has relation with", "contact_type_left": "c", "contact_type_right": "p", "partner_category_left": category_nobody.id, "partner_category_right": category_nobody.id, } ) def _get_empty_relation(self): """Get empty relation record for onchange tests.""" # Need English, because we will compare text return self.relation_all_model.with_context(lang="en_US").new({}) def test_get_partner_types(self): """Partner types should contain at least 'c' and 'p'.""" partner_types = self.selection_model.get_partner_types() type_codes = [ptype[0] for ptype in partner_types] self.assertTrue("c" in type_codes) self.assertTrue("p" in type_codes) def test_create_with_active_id(self): """Test creation with this_partner_id from active_id.""" # Check wether we can create connection from company to person, # taking the particular company from the active records: relation = self.relation_all_model.with_context( active_id=self.partner_02_company.id, active_ids=self.partner_02_company.ids ).create( { "other_partner_id": self.partner_01_person.id, "type_selection_id": self.selection_company2person.id, } ) self.assertTrue(relation) self.assertEqual(relation.this_partner_id, self.partner_02_company) # Partner should have one relation now: relation.invalidate_cache(None, relation.ids) self.partner_01_person.flush() self.assertEqual(self.partner_01_person.relation_count, 1) # Test create without type_selection_id: with self.assertRaises(ValidationError): self.relation_all_model.create( { "this_partner_id": self.partner_02_company.id, "other_partner_id": self.partner_01_person.id, } ) def test_display_name(self): """Test display name""" relation = self._create_company2person_relation() self.assertEqual( relation.display_name, "%s %s %s" % ( relation.this_partner_id.name, relation.type_selection_id.name, relation.other_partner_id.name, ), ) def test_regular_write(self): """Test write with valid data.""" relation = self._create_company2person_relation() relation.write({"date_start": "2014-09-01"}) self.assertEqual(relation.date_start, date(2014, 9, 1)) def test_write_incompatible_dates(self): """Test write with date_end before date_start.""" relation = self._create_company2person_relation() with self.assertRaises(ValidationError): relation.write({"date_start": "2016-09-01", "date_end": "2016-08-01"}) def test_validate_overlapping_01(self): """Test create overlapping with no start / end dates.""" relation = self._create_company2person_relation() with self.assertRaises(ValidationError): # New relation with no start / end should give error self.relation_all_model.create( { "this_partner_id": relation.this_partner_id.id, "type_selection_id": relation.type_selection_id.id, "other_partner_id": relation.other_partner_id.id, } ) def test_validate_overlapping_02(self): """Test create overlapping with start / end dates.""" relation = self.relation_all_model.create( { "this_partner_id": self.partner_02_company.id, "type_selection_id": self.selection_company2person.id, "other_partner_id": self.partner_01_person.id, "date_start": "2015-09-01", "date_end": "2016-08-31", } ) # New relation with overlapping start / end should give error with self.assertRaises(ValidationError): self.relation_all_model.create( { "this_partner_id": relation.this_partner_id.id, "type_selection_id": relation.type_selection_id.id, "other_partner_id": relation.other_partner_id.id, "date_start": "2016-08-01", "date_end": "2017-07-30", } ) def test_validate_overlapping_03(self): """Test create not overlapping.""" relation = self.relation_all_model.create( { "this_partner_id": self.partner_02_company.id, "type_selection_id": self.selection_company2person.id, "other_partner_id": self.partner_01_person.id, "date_start": "2015-09-01", "date_end": "2016-08-31", } ) relation_another_record = self.relation_all_model.create( { "this_partner_id": relation.this_partner_id.id, "type_selection_id": relation.type_selection_id.id, "other_partner_id": relation.other_partner_id.id, "date_start": "2016-09-01", "date_end": "2017-08-31", } ) self.assertTrue(relation_another_record) def test_inverse_record(self): """Test creation of inverse record.""" relation = self._create_company2person_relation() inverse_relation = self.relation_all_model.search( [ ("this_partner_id", "=", relation.other_partner_id.id), ("other_partner_id", "=", relation.this_partner_id.id), ] ) self.assertEqual(len(inverse_relation), 1) self.assertEqual( inverse_relation.type_selection_id.name, self.selection_person2company.name ) def test_inverse_creation(self): """Test creation of record through inverse selection.""" relation = self.relation_all_model.create( { "this_partner_id": self.partner_01_person.id, "type_selection_id": self.selection_person2company.id, "other_partner_id": self.partner_02_company.id, } ) # Check wether display name is what we should expect: self.assertEqual( relation.display_name, "%s %s %s" % ( self.partner_01_person.name, self.selection_person2company.name, self.partner_02_company.name, ), ) def test_inverse_creation_type_id(self): """Test creation of record through inverse selection with type_id.""" relation = self.relation_all_model.create( { "this_partner_id": self.partner_01_person.id, "type_id": self.selection_person2company.type_id.id, "is_inverse": True, "other_partner_id": self.partner_02_company.id, } ) # Check wether display name is what we should expect: self.assertEqual( relation.display_name, "%s %s %s" % ( self.partner_01_person.name, self.selection_person2company.name, self.partner_02_company.name, ), ) def test_unlink(self): """Unlinking derived relation should unlink base relation.""" # Check wether underlying record is removed when record is removed: relation = self._create_company2person_relation() base_model = self.env[relation.res_model] base_relation = base_model.browse([relation.res_id]) relation.unlink() self.assertFalse(base_relation.exists()) # Check unlinking record sets with both derived relation records self.assertTrue(self.relation_all_model.search([]).unlink()) def test_on_change_type_selection(self): """Test on_change_type_selection.""" # 1. Test call with empty relation relation_empty = self._get_empty_relation() result = relation_empty.onchange_type_selection_id() self.assertTrue("domain" in result) self.assertFalse("warning" in result) self.assertTrue("this_partner_id" in result["domain"]) self.assertFalse(result["domain"]["this_partner_id"]) self.assertTrue("other_partner_id" in result["domain"]) self.assertFalse(result["domain"]["other_partner_id"]) # 2. Test call with company 2 person relation relation = self._create_company2person_relation() domain = relation.onchange_type_selection_id()["domain"] self.assertTrue(("is_company", "=", False) in domain["other_partner_id"]) # 3. Test with relation needing categories, # take active partner from active_id: relation_ngo_volunteer = self.relation_all_model.with_context( active_id=self.partner_03_ngo.id ).create( { "type_selection_id": self.selection_ngo2volunteer.id, "other_partner_id": self.partner_04_volunteer.id, } ) domain = relation_ngo_volunteer.onchange_type_selection_id()["domain"] self.assertTrue( ("category_id", "in", [self.category_01_ngo.id]) in domain["this_partner_id"] ) self.assertTrue( ("category_id", "in", [self.category_02_volunteer.id]) in domain["other_partner_id"] ) # 4. Test with invalid or impossible combinations relation_nobody = self._get_empty_relation() relation_nobody.type_selection_id = self.selection_nobody warning = relation_nobody.onchange_type_selection_id()["warning"] self.assertTrue("message" in warning) self.assertTrue("No this partner available" in warning["message"]) relation_nobody.this_partner_id = self.partner_02_company warning = relation_nobody.onchange_type_selection_id()["warning"] self.assertTrue("message" in warning) self.assertTrue("incompatible" in warning["message"]) # Allow left partner and check message for other partner: self.type_nobody.write({"partner_category_left": False}) self.type_nobody.flush() self.selection_nobody.invalidate_cache(ids=self.selection_nobody.ids) warning = relation_nobody.onchange_type_selection_id()["warning"] self.assertTrue("message" in warning) self.assertTrue("No other partner available" in warning["message"]) def test_on_change_partner_id(self): """Test on_change_partner_id.""" # 1. Test call with empty relation relation_empty = self._get_empty_relation() result = relation_empty.onchange_partner_id() self.assertTrue("domain" in result) self.assertFalse("warning" in result) self.assertTrue("type_selection_id" in result["domain"]) self.assertFalse(result["domain"]["type_selection_id"]) # 2. Test call with company 2 person relation relation = self._create_company2person_relation() domain = relation.onchange_partner_id()["domain"] self.assertTrue(("contact_type_this", "=", "c") in domain["type_selection_id"]) # 3. Test with invalid or impossible combinations relation_nobody = self._get_empty_relation() relation_nobody.this_partner_id = self.partner_02_company relation_nobody.type_selection_id = self.selection_nobody warning = relation_nobody.onchange_partner_id()["warning"] self.assertTrue("message" in warning) self.assertTrue("incompatible" in warning["message"]) def test_write(self): """Test write. Special attention for changing type.""" relation_company2person = self._create_company2person_relation() company_partner = relation_company2person.this_partner_id # First get another worker: partner_extra_person = self.partner_model.create( {"name": "A new worker", "is_company": False, "ref": "NW01"} ) relation_company2person.write({"other_partner_id": partner_extra_person.id}) self.assertEqual( relation_company2person.other_partner_id.name, partner_extra_person.name ) # We will also change to a type going from person to company: ( type_worker2company, selection_worker2company, selection_company2worker, ) = self._create_relation_type_selection( { "name": "works for", "name_inverse": "has worker", "contact_type_left": "p", "contact_type_right": "c", } ) relation_company2person.write( { "this_partner_id": partner_extra_person.id, "type_selection_id": selection_worker2company.id, "other_partner_id": company_partner.id, } ) self.assertEqual( relation_company2person.this_partner_id.id, partner_extra_person.id ) self.assertEqual( relation_company2person.type_selection_id.id, selection_worker2company.id ) self.assertEqual( relation_company2person.other_partner_id.id, company_partner.id )