def test_populate_missing_factories(self):
no_factory_models = []
for model in self.env.values():
factories = model._populate_factories()
if not factories:
if model._transient or model._abstract:
continue
ir_model = self.env['ir.model'].search([('model', '=',
model._name)])
if all(
module.startswith('test_')
for module in ir_model.modules.split(',')):
continue
no_factory_models.append(model._name)
else:
factories_fields = next(
populate.chain_factories(factories, model._name)).keys()
def is_electable(field):
return not field.compute \
and field.store \
and field.name not in ('create_uid', 'write_uid', 'write_date', 'create_date', 'id') \
and field.type not in ('many2many', 'one2many')
electable_fields = set([
key for key, field in model._fields.items()
if is_electable(field)
])
no_factory_fields = set(electable_fields - factories_fields)
if no_factory_fields:
_logger.info('Model %s has some undefined field: %s',
model._name, no_factory_fields)
_logger.info('No populate factories defiend for %s', no_factory_models)
def generate_dependant(iterator, *args):
dependants_generator = populate.chain_factories(
dependant_factories, self._name)
for values in dependants_generator:
dependant_values = next(iterator)
yield {
**values,
**dependant_values, '__complete':
values['__complete'] and dependant_values['__complete']
}
def generate_partner_id(iterator, *args):
partner_factories = self.env['res.partner']._populate_factories()
partner_generator = populate.chain_factories(
partner_factories, self._name)
for dependant_values in partner_generator:
values = next(iterator)
yield {
**dependant_values,
**values, '__complete': values['__complete']
}
def generate_address(iterator, *args):
address_generators = [
populate.chain_factories(address_factories, self._name)
for address_factories in address_factories_groups
]
# first, exhaust all address_generators
for adress_generator in address_generators:
for adress_values in adress_generator:
if adress_values['__complete']:
break
values = next(
iterator) # only consume main iterator if usefull
yield {**values, **adress_values}
# then, go pseudorandom between generators
r = populate.Random('res.partner+address_generator_selector')
for values in iterator:
adress_generator = r.choice(address_generators)
adress_values = next(adress_generator)
yield {**adress_values, **values}
def _populate_factories(self):
partner_ids = self.env.registry.populated_models['res.partner']
# phone based on country
country_be, country_us, country_in = self.env.ref(
'base.be'), self.env.ref('base.us'), self.env.ref('base.in')
phones_per_country = {
country_be.id:
[False, '+32456555432', '+32456555675', '+32456555627'],
country_us.id:
[False, '+15555564246', '+15558455343', '+15557129033'],
country_in.id:
[False, '+919755538077', '+917555765232', '+918555199309'],
False: [False, '', '+3212345678', '003212345678', '12345678'],
}
# example of more complex generator composed of multiple sub generators
# this define one subgenerator per "country"
address_factories_groups = [
[ # Falsy, 2 records
('street', populate.iterate([False, ''])),
('street2', populate.iterate([False, ''])),
('city', populate.iterate([False, ''])),
('zip', populate.iterate([False, ''])),
('country_id', populate.iterate([False])),
],
[ # BE, 2 records
('street',
populate.iterate([
'Rue des Bourlottes {counter}', 'Rue Pinckaers {counter}'
])),
('city', populate.iterate(['Brussels', 'Ramillies'])),
('zip', populate.iterate([1020, 1367])),
('country_id', populate.iterate([self.env.ref('base.be').id])),
],
[ # US, 3 records
('street',
populate.iterate(
['Main street', '3th street {counter}', False])),
('street2',
populate.iterate([False, '', 'Behind the tree {counter}'],
[90, 5, 5])),
('city',
populate.randomize(
['San Fransisco', 'Los Angeles', '', False])),
('zip', populate.iterate([False, '', '50231'])),
('country_id', populate.iterate([self.env.ref('base.us').id])),
],
[ # IN, 2 records
('street',
populate.iterate(['Main Street', 'Some Street {counter}'])),
('city', populate.iterate(['ગાંધીનગર (Gandhinagar)'])),
('zip', populate.randomize(['382002', '382008'])),
('country_id', populate.randomize([self.env.ref('base.in').id
])),
],
[ # other corner cases, 2 records
('street',
populate.iterate(['万泉寺村', 'საბჭოს სკვერი {counter}'])),
('city', populate.iterate(['北京市', 'თბილისი'])),
('zip', populate.iterate([False, 'UF47'])),
('country_id',
populate.randomize([False] +
self.env['res.country'].search([]).ids)),
]
]
address_generators = [
populate.chain_factories(address_factories, self._name)
for address_factories in address_factories_groups
]
def _compute_address(iterator, *args):
r = populate.Random('res.partner+address_generator_selector')
for values in iterator:
if values['partner_id']:
yield {**values}
else:
address_gen = r.choice(address_generators)
address_values = next(address_gen)
yield {**values, **address_values}
def _compute_contact(iterator, *args):
r = populate.Random('res.partner+contact_generator_selector')
for values in iterator:
if values['partner_id']:
yield {**values}
else:
fn = r.choice(tools._p_forename_groups)
mn = r.choices(
[False] + tools._p_middlename_groups,
weights=[1] +
[1 / (len(tools._p_middlename_groups) or 1)] *
len(tools._p_middlename_groups))[0]
sn = r.choice(tools._p_surname_groups)
mn_wseparator = f' "{mn}" '
contact_name = f'{fn}{mn_wseparator}{sn}'
country_id = values['country_id']
if country_id not in phones_per_country.keys():
country_id = False
mobile = r.choice(phones_per_country[country_id])
phone = r.choice(phones_per_country[country_id])
yield {
**values,
'contact_name': contact_name,
'mobile': mobile,
'phone': phone,
}
def _compute_contact_name(values=None, counter=0, **kwargs):
""" Generate lead names a bit better than lead_counter because this is Odoo. """
partner_id = values['partner_id']
complete = values['__complete']
fn = kwargs['random'].choice(tools._p_forename_groups)
mn = kwargs['random'].choices(
[False] + tools._p_middlename_groups,
weights=[1] + [1 / (len(tools._p_middlename_groups) or 1)] *
len(tools._p_middlename_groups))[0]
sn = kwargs['random'].choice(tools._p_surname_groups)
return '%s%s %s (%s_%s (partner %s))' % (
fn, ' "%s"' % mn if mn else '', sn, int(complete), counter,
partner_id)
def _compute_date_open(random=None, values=None, **kwargs):
user_id = values['user_id']
if user_id:
delta = random.randint(0, 10)
return datetime.now() - timedelta(days=delta)
return False
def _compute_name(values=None, counter=0, **kwargs):
""" Generate lead names a bit better than lead_counter because this is Odoo. """
complete = values['__complete']
fn = kwargs['random'].choice(tools._case_prefix_groups)
sn = kwargs['random'].choice(tools._case_object_groups)
return '%s %s (%s_%s)' % (fn, sn, int(complete), counter)
return [
('partner_id',
populate.iterate(
[False] + partner_ids,
[2] + [1 / (len(partner_ids) or 1)] * len(partner_ids))),
('_address', _compute_address), # uses partner_id
('_contact', _compute_contact), # uses partner_id, country_id
('user_id', populate.iterate([False], )),
('date_open',
populate.compute(_compute_date_open)), # uses user_id
('name', populate.compute(_compute_name)),
('type', populate.iterate(['lead', 'opportunity'], [0.8, 0.2])),
]
