1 # -*- coding: utf-8 -*-
2 ##############################################################################
4 # OpenERP, Open Source Management Solution
5 # Copyright (C) 2004-2009 Tiny SPRL (<http://tiny.be>).
7 # This program is free software: you can redistribute it and/or modify
8 # it under the terms of the GNU Affero General Public License as
9 # published by the Free Software Foundation, either version 3 of the
10 # License, or (at your option) any later version.
12 # This program is distributed in the hope that it will be useful,
13 # but WITHOUT ANY WARRANTY; without even the implied warranty of
14 # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
15 # GNU Affero General Public License for more details.
17 # You should have received a copy of the GNU Affero General Public License
18 # along with this program. If not, see <http://www.gnu.org/licenses/>.
20 ##############################################################################
24 Object Relational Mapping module:
25 * Hierarchical structure
26 * Constraints consistency and validation
27 * Object metadata depends on its status
28 * Optimised processing by complex query (multiple actions at once)
29 * Default field values
30 * Permissions optimisation
31 * Persistant object: DB postgresql
33 * Multi-level caching system
34 * Two different inheritance mechanisms
35 * Rich set of field types:
36 - classical (varchar, integer, boolean, ...)
37 - relational (one2many, many2one, many2many)
52 from collections import defaultdict, MutableMapping
53 from inspect import getmembers
56 import dateutil.relativedelta
58 from lxml import etree
61 from . import SUPERUSER_ID
64 from .api import Environment
65 from .exceptions import except_orm, AccessError, MissingError
66 from .osv import fields
67 from .osv.query import Query
68 from .tools import lazy_property
69 from .tools.config import config
70 from .tools.misc import CountingStream, DEFAULT_SERVER_DATETIME_FORMAT, DEFAULT_SERVER_DATE_FORMAT
71 from .tools.safe_eval import safe_eval as eval
72 from .tools.translate import _
74 _logger = logging.getLogger(__name__)
75 _schema = logging.getLogger(__name__ + '.schema')
77 regex_order = re.compile('^( *([a-z0-9:_]+|"[a-z0-9:_]+")( *desc| *asc)?( *, *|))+$', re.I)
78 regex_object_name = re.compile(r'^[a-z0-9_.]+$')
79 onchange_v7 = re.compile(r"^(\w+)\((.*)\)$")
81 AUTOINIT_RECALCULATE_STORED_FIELDS = 1000
84 def check_object_name(name):
85 """ Check if the given name is a valid openerp object name.
87 The _name attribute in osv and osv_memory object is subject to
88 some restrictions. This function returns True or False whether
89 the given name is allowed or not.
91 TODO: this is an approximation. The goal in this approximation
92 is to disallow uppercase characters (in some places, we quote
93 table/column names and in other not, which leads to this kind
96 psycopg2.ProgrammingError: relation "xxx" does not exist).
98 The same restriction should apply to both osv and osv_memory
99 objects for consistency.
102 if regex_object_name.match(name) is None:
106 def raise_on_invalid_object_name(name):
107 if not check_object_name(name):
108 msg = "The _name attribute %s is not valid." % name
110 raise except_orm('ValueError', msg)
112 POSTGRES_CONFDELTYPES = {
120 def intersect(la, lb):
121 return filter(lambda x: x in lb, la)
124 """ Test whether functions `f` and `g` are identical or have the same name """
125 return f == g or getattr(f, '__name__', 0) == getattr(g, '__name__', 1)
127 def fix_import_export_id_paths(fieldname):
129 Fixes the id fields in import and exports, and splits field paths
132 :param str fieldname: name of the field to import/export
133 :return: split field name
136 fixed_db_id = re.sub(r'([^/])\.id', r'\1/.id', fieldname)
137 fixed_external_id = re.sub(r'([^/]):id', r'\1/id', fixed_db_id)
138 return fixed_external_id.split('/')
140 def pg_varchar(size=0):
141 """ Returns the VARCHAR declaration for the provided size:
143 * If no size (or an empty or negative size is provided) return an
145 * Otherwise return a VARCHAR(n)
147 :type int size: varchar size, optional
151 if not isinstance(size, int):
152 raise TypeError("VARCHAR parameter should be an int, got %s"
155 return 'VARCHAR(%d)' % size
158 FIELDS_TO_PGTYPES = {
159 fields.boolean: 'bool',
160 fields.integer: 'int4',
164 fields.datetime: 'timestamp',
165 fields.binary: 'bytea',
166 fields.many2one: 'int4',
167 fields.serialized: 'text',
170 def get_pg_type(f, type_override=None):
172 :param fields._column f: field to get a Postgres type for
173 :param type type_override: use the provided type for dispatching instead of the field's own type
174 :returns: (postgres_identification_type, postgres_type_specification)
177 field_type = type_override or type(f)
179 if field_type in FIELDS_TO_PGTYPES:
180 pg_type = (FIELDS_TO_PGTYPES[field_type], FIELDS_TO_PGTYPES[field_type])
181 elif issubclass(field_type, fields.float):
183 pg_type = ('numeric', 'NUMERIC')
185 pg_type = ('float8', 'DOUBLE PRECISION')
186 elif issubclass(field_type, (fields.char, fields.reference)):
187 pg_type = ('varchar', pg_varchar(f.size))
188 elif issubclass(field_type, fields.selection):
189 if (isinstance(f.selection, list) and isinstance(f.selection[0][0], int))\
190 or getattr(f, 'size', None) == -1:
191 pg_type = ('int4', 'INTEGER')
193 pg_type = ('varchar', pg_varchar(getattr(f, 'size', None)))
194 elif issubclass(field_type, fields.function):
195 if f._type == 'selection':
196 pg_type = ('varchar', pg_varchar())
198 pg_type = get_pg_type(f, getattr(fields, f._type))
200 _logger.warning('%s type not supported!', field_type)
206 class MetaModel(api.Meta):
207 """ Metaclass for the models.
209 This class is used as the metaclass for the class :class:`BaseModel` to
210 discover the models defined in a module (without instanciating them).
211 If the automatic discovery is not needed, it is possible to set the model's
212 ``_register`` attribute to False.
216 module_to_models = {}
218 def __init__(self, name, bases, attrs):
219 if not self._register:
220 self._register = True
221 super(MetaModel, self).__init__(name, bases, attrs)
224 if not hasattr(self, '_module'):
225 # The (OpenERP) module name can be in the `openerp.addons` namespace
226 # or not. For instance, module `sale` can be imported as
227 # `openerp.addons.sale` (the right way) or `sale` (for backward
229 module_parts = self.__module__.split('.')
230 if len(module_parts) > 2 and module_parts[:2] == ['openerp', 'addons']:
231 module_name = self.__module__.split('.')[2]
233 module_name = self.__module__.split('.')[0]
234 self._module = module_name
236 # Remember which models to instanciate for this module.
238 self.module_to_models.setdefault(self._module, []).append(self)
242 """ Pseudo-ids for new records. """
243 def __nonzero__(self):
246 IdType = (int, long, basestring, NewId)
249 # special columns automatically created by the ORM
250 LOG_ACCESS_COLUMNS = ['create_uid', 'create_date', 'write_uid', 'write_date']
251 MAGIC_COLUMNS = ['id'] + LOG_ACCESS_COLUMNS
253 class BaseModel(object):
254 """ Base class for OpenERP models.
256 OpenERP models are created by inheriting from this class' subclasses:
258 * :class:`Model` for regular database-persisted models
260 * :class:`TransientModel` for temporary data, stored in the database but
261 automatically vaccuumed every so often
263 * :class:`AbstractModel` for abstract super classes meant to be shared by
264 multiple inheriting model
266 The system automatically instantiates every model once per database. Those
267 instances represent the available models on each database, and depend on
268 which modules are installed on that database. The actual class of each
269 instance is built from the Python classes that create and inherit from the
272 Every model instance is a "recordset", i.e., an ordered collection of
273 records of the model. Recordsets are returned by methods like
274 :meth:`~.browse`, :meth:`~.search`, or field accesses. Records have no
275 explicit representation: a record is represented as a recordset of one
278 To create a class that should not be instantiated, the _register class
279 attribute may be set to False.
281 __metaclass__ = MetaModel
282 _auto = True # create database backend
283 _register = False # Set to false if the model shouldn't be automatically discovered.
290 _parent_name = 'parent_id'
291 _parent_store = False
292 _parent_order = False
299 # dict of {field:method}, with method returning the (name_get of records, {id: fold})
300 # to include in the _read_group, if grouped on this field
304 _transient = False # True in a TransientModel
307 # { 'parent_model': 'm2o_field', ... }
310 # Mapping from inherits'd field name to triple (m, r, f, n) where m is the
311 # model from which it is inherits'd, r is the (local) field towards m, f
312 # is the _column object itself, and n is the original (i.e. top-most)
315 # { 'field_name': ('parent_model', 'm2o_field_to_reach_parent',
316 # field_column_obj, origina_parent_model), ... }
319 # Mapping field name/column_info object
320 # This is similar to _inherit_fields but:
321 # 1. includes self fields,
322 # 2. uses column_info instead of a triple.
327 _sql_constraints = []
329 # model dependencies, for models backed up by sql views:
330 # {model_name: field_names, ...}
333 CONCURRENCY_CHECK_FIELD = '__last_update'
335 def log(self, cr, uid, id, message, secondary=False, context=None):
336 return _logger.warning("log() is deprecated. Please use OpenChatter notification system instead of the res.log mechanism.")
338 def view_init(self, cr, uid, fields_list, context=None):
339 """Override this method to do specific things when a view on the object is opened."""
342 def _field_create(self, cr, context=None):
343 """ Create entries in ir_model_fields for all the model's fields.
345 If necessary, also create an entry in ir_model, and if called from the
346 modules loading scheme (by receiving 'module' in the context), also
347 create entries in ir_model_data (for the model and the fields).
349 - create an entry in ir_model (if there is not already one),
350 - create an entry in ir_model_data (if there is not already one, and if
351 'module' is in the context),
352 - update ir_model_fields with the fields found in _columns
353 (TODO there is some redundancy as _columns is updated from
354 ir_model_fields in __init__).
359 cr.execute("SELECT id FROM ir_model WHERE model=%s", (self._name,))
361 cr.execute('SELECT nextval(%s)', ('ir_model_id_seq',))
362 model_id = cr.fetchone()[0]
363 cr.execute("INSERT INTO ir_model (id,model, name, info,state) VALUES (%s, %s, %s, %s, %s)", (model_id, self._name, self._description, self.__doc__, 'base'))
365 model_id = cr.fetchone()[0]
366 if 'module' in context:
367 name_id = 'model_'+self._name.replace('.', '_')
368 cr.execute('select * from ir_model_data where name=%s and module=%s', (name_id, context['module']))
370 cr.execute("INSERT INTO ir_model_data (name,date_init,date_update,module,model,res_id) VALUES (%s, (now() at time zone 'UTC'), (now() at time zone 'UTC'), %s, %s, %s)", \
371 (name_id, context['module'], 'ir.model', model_id)
374 cr.execute("SELECT * FROM ir_model_fields WHERE model=%s", (self._name,))
376 for rec in cr.dictfetchall():
377 cols[rec['name']] = rec
379 ir_model_fields_obj = self.pool.get('ir.model.fields')
381 # sparse field should be created at the end, as it depends on its serialized field already existing
382 model_fields = sorted(self._columns.items(), key=lambda x: 1 if x[1]._type == 'sparse' else 0)
383 for (k, f) in model_fields:
385 'model_id': model_id,
388 'field_description': f.string,
390 'relation': f._obj or '',
391 'select_level': tools.ustr(int(f.select)),
392 'readonly': (f.readonly and 1) or 0,
393 'required': (f.required and 1) or 0,
394 'selectable': (f.selectable and 1) or 0,
395 'translate': (f.translate and 1) or 0,
396 'relation_field': f._fields_id if isinstance(f, fields.one2many) else '',
397 'serialization_field_id': None,
399 if getattr(f, 'serialization_field', None):
400 # resolve link to serialization_field if specified by name
401 serialization_field_id = ir_model_fields_obj.search(cr, SUPERUSER_ID, [('model','=',vals['model']), ('name', '=', f.serialization_field)])
402 if not serialization_field_id:
403 raise except_orm(_('Error'), _("Serialization field `%s` not found for sparse field `%s`!") % (f.serialization_field, k))
404 vals['serialization_field_id'] = serialization_field_id[0]
406 # When its a custom field,it does not contain f.select
407 if context.get('field_state', 'base') == 'manual':
408 if context.get('field_name', '') == k:
409 vals['select_level'] = context.get('select', '0')
410 #setting value to let the problem NOT occur next time
412 vals['select_level'] = cols[k]['select_level']
415 cr.execute('select nextval(%s)', ('ir_model_fields_id_seq',))
416 id = cr.fetchone()[0]
418 cr.execute("""INSERT INTO ir_model_fields (
419 id, model_id, model, name, field_description, ttype,
420 relation,state,select_level,relation_field, translate, serialization_field_id
422 %s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s,%s
424 id, vals['model_id'], vals['model'], vals['name'], vals['field_description'], vals['ttype'],
425 vals['relation'], 'base',
426 vals['select_level'], vals['relation_field'], bool(vals['translate']), vals['serialization_field_id']
428 if 'module' in context:
429 name1 = 'field_' + self._table + '_' + k
430 cr.execute("select name from ir_model_data where name=%s", (name1,))
432 name1 = name1 + "_" + str(id)
433 cr.execute("INSERT INTO ir_model_data (name,date_init,date_update,module,model,res_id) VALUES (%s, (now() at time zone 'UTC'), (now() at time zone 'UTC'), %s, %s, %s)", \
434 (name1, context['module'], 'ir.model.fields', id)
437 for key, val in vals.items():
438 if cols[k][key] != vals[key]:
439 cr.execute('update ir_model_fields set field_description=%s where model=%s and name=%s', (vals['field_description'], vals['model'], vals['name']))
440 cr.execute("""UPDATE ir_model_fields SET
441 model_id=%s, field_description=%s, ttype=%s, relation=%s,
442 select_level=%s, readonly=%s ,required=%s, selectable=%s, relation_field=%s, translate=%s, serialization_field_id=%s
444 model=%s AND name=%s""", (
445 vals['model_id'], vals['field_description'], vals['ttype'],
447 vals['select_level'], bool(vals['readonly']), bool(vals['required']), bool(vals['selectable']), vals['relation_field'], bool(vals['translate']), vals['serialization_field_id'], vals['model'], vals['name']
450 self.invalidate_cache(cr, SUPERUSER_ID)
453 def _add_field(cls, name, field):
454 """ Add the given `field` under the given `name` in the class """
455 field.set_class_name(cls, name)
457 # add field in _fields (for reflection)
458 cls._fields[name] = field
460 # add field as an attribute, unless another kind of value already exists
461 if isinstance(getattr(cls, name, field), Field):
462 setattr(cls, name, field)
464 _logger.warning("In model %r, member %r is not a field", cls._name, name)
467 cls._columns[name] = field.to_column()
469 # remove potential column that may be overridden by field
470 cls._columns.pop(name, None)
473 def _add_magic_fields(cls):
474 """ Introduce magic fields on the current class
476 * id is a "normal" field (with a specific getter)
477 * create_uid, create_date, write_uid and write_date have become
479 * $CONCURRENCY_CHECK_FIELD is a computed field with its computing
480 method defined dynamically. Uses ``str(datetime.datetime.utcnow())``
481 to get the same structure as the previous
482 ``(now() at time zone 'UTC')::timestamp``::
484 # select (now() at time zone 'UTC')::timestamp;
486 ----------------------------
487 2013-06-18 08:30:37.292809
489 >>> str(datetime.datetime.utcnow())
490 '2013-06-18 08:31:32.821177'
492 def add(name, field):
493 """ add `field` with the given `name` if it does not exist yet """
494 if name not in cls._columns and name not in cls._fields:
495 cls._add_field(name, field)
500 # this field 'id' must override any other column or field
501 cls._add_field('id', fields.Id(automatic=True))
503 add('display_name', fields.Char(string='Name',
504 compute='_compute_display_name', inverse='_inverse_display_name',
505 search='_search_display_name', automatic=True))
508 add('create_uid', fields.Many2one('res.users', string='Created by', automatic=True))
509 add('create_date', fields.Datetime(string='Created on', automatic=True))
510 add('write_uid', fields.Many2one('res.users', string='Last Updated by', automatic=True))
511 add('write_date', fields.Datetime(string='Last Updated on', automatic=True))
512 last_modified_name = 'compute_concurrency_field_with_access'
514 last_modified_name = 'compute_concurrency_field'
516 # this field must override any other column or field
517 cls._add_field(cls.CONCURRENCY_CHECK_FIELD, fields.Datetime(
518 string='Last Modified on', compute=last_modified_name, automatic=True))
521 def compute_concurrency_field(self):
522 self[self.CONCURRENCY_CHECK_FIELD] = \
523 datetime.datetime.utcnow().strftime(DEFAULT_SERVER_DATETIME_FORMAT)
526 @api.depends('create_date', 'write_date')
527 def compute_concurrency_field_with_access(self):
528 self[self.CONCURRENCY_CHECK_FIELD] = \
529 self.write_date or self.create_date or \
530 datetime.datetime.utcnow().strftime(DEFAULT_SERVER_DATETIME_FORMAT)
533 # Goal: try to apply inheritance at the instanciation level and
534 # put objects in the pool var
537 def _build_model(cls, pool, cr):
538 """ Instanciate a given model.
540 This class method instanciates the class of some model (i.e. a class
541 deriving from osv or osv_memory). The class might be the class passed
542 in argument or, if it inherits from another class, a class constructed
543 by combining the two classes.
547 # IMPORTANT: the registry contains an instance for each model. The class
548 # of each model carries inferred metadata that is shared among the
549 # model's instances for this registry, but not among registries. Hence
550 # we cannot use that "registry class" for combining model classes by
551 # inheritance, since it confuses the metadata inference process.
553 # Keep links to non-inherited constraints in cls; this is useful for
554 # instance when exporting translations
555 cls._local_constraints = cls.__dict__.get('_constraints', [])
556 cls._local_sql_constraints = cls.__dict__.get('_sql_constraints', [])
558 # determine inherited models
559 parents = getattr(cls, '_inherit', [])
560 parents = [parents] if isinstance(parents, basestring) else (parents or [])
562 # determine the model's name
563 name = cls._name or (len(parents) == 1 and parents[0]) or cls.__name__
565 # determine the module that introduced the model
566 original_module = pool[name]._original_module if name in parents else cls._module
568 # build the class hierarchy for the model
569 for parent in parents:
570 if parent not in pool:
571 raise TypeError('The model "%s" specifies an unexisting parent class "%s"\n'
572 'You may need to add a dependency on the parent class\' module.' % (name, parent))
573 parent_model = pool[parent]
575 # do no use the class of parent_model, since that class contains
576 # inferred metadata; use its ancestor instead
577 parent_class = type(parent_model).__base__
579 # don't inherit custom fields
580 columns = dict((key, val)
581 for key, val in parent_class._columns.iteritems()
584 columns.update(cls._columns)
586 defaults = dict(parent_class._defaults)
587 defaults.update(cls._defaults)
589 inherits = dict(parent_class._inherits)
590 inherits.update(cls._inherits)
592 depends = dict(parent_class._depends)
593 for m, fs in cls._depends.iteritems():
594 depends.setdefault(m, []).extend(fs)
596 old_constraints = parent_class._constraints
597 new_constraints = cls._constraints
598 # filter out from old_constraints the ones overridden by a
599 # constraint with the same function name in new_constraints
600 constraints = new_constraints + [oldc
601 for oldc in old_constraints
602 if not any(newc[2] == oldc[2] and same_name(newc[0], oldc[0])
603 for newc in new_constraints)
606 sql_constraints = cls._sql_constraints + \
607 parent_class._sql_constraints
613 '_defaults': defaults,
614 '_inherits': inherits,
616 '_constraints': constraints,
617 '_sql_constraints': sql_constraints,
619 cls = type(name, (cls, parent_class), attrs)
621 # introduce the "registry class" of the model;
622 # duplicate some attributes so that the ORM can modify them
626 '_columns': dict(cls._columns),
627 '_defaults': dict(cls._defaults),
628 '_inherits': dict(cls._inherits),
629 '_depends': dict(cls._depends),
630 '_constraints': list(cls._constraints),
631 '_sql_constraints': list(cls._sql_constraints),
632 '_original_module': original_module,
634 cls = type(cls._name, (cls,), attrs)
636 # float fields are registry-dependent (digit attribute); duplicate them
638 for key, col in cls._columns.items():
639 if col._type == 'float':
640 cls._columns[key] = copy.copy(col)
642 # instantiate the model, and initialize it
643 model = object.__new__(cls)
644 model.__init__(pool, cr)
648 def _init_function_fields(cls, pool, cr):
649 # initialize the list of non-stored function fields for this model
650 pool._pure_function_fields[cls._name] = []
652 # process store of low-level function fields
653 for fname, column in cls._columns.iteritems():
654 if hasattr(column, 'digits_change'):
655 column.digits_change(cr)
656 # filter out existing store about this field
657 pool._store_function[cls._name] = [
659 for stored in pool._store_function.get(cls._name, [])
660 if (stored[0], stored[1]) != (cls._name, fname)
662 if not isinstance(column, fields.function):
665 # register it on the pool for invalidation
666 pool._pure_function_fields[cls._name].append(fname)
668 # process store parameter
671 get_ids = lambda self, cr, uid, ids, c={}: ids
672 store = {cls._name: (get_ids, None, column.priority, None)}
673 for model, spec in store.iteritems():
675 (fnct, fields2, order, length) = spec
677 (fnct, fields2, order) = spec
680 raise except_orm('Error',
681 ('Invalid function definition %s in object %s !\nYou must use the definition: store={object:(fnct, fields, priority, time length)}.' % (fname, cls._name)))
682 pool._store_function.setdefault(model, [])
683 t = (cls._name, fname, fnct, tuple(fields2) if fields2 else None, order, length)
684 if t not in pool._store_function[model]:
685 pool._store_function[model].append(t)
686 pool._store_function[model].sort(key=lambda x: x[4])
689 def _init_manual_fields(cls, pool, cr):
690 # Check whether the query is already done
691 if pool.fields_by_model is not None:
692 manual_fields = pool.fields_by_model.get(cls._name, [])
694 cr.execute('SELECT * FROM ir_model_fields WHERE model=%s AND state=%s', (cls._name, 'manual'))
695 manual_fields = cr.dictfetchall()
697 for field in manual_fields:
698 if field['name'] in cls._columns:
701 'string': field['field_description'],
702 'required': bool(field['required']),
703 'readonly': bool(field['readonly']),
704 'domain': eval(field['domain']) if field['domain'] else None,
705 'size': field['size'] or None,
706 'ondelete': field['on_delete'],
707 'translate': (field['translate']),
710 #'select': int(field['select_level'])
712 if field['serialization_field_id']:
713 cr.execute('SELECT name FROM ir_model_fields WHERE id=%s', (field['serialization_field_id'],))
714 attrs.update({'serialization_field': cr.fetchone()[0], 'type': field['ttype']})
715 if field['ttype'] in ['many2one', 'one2many', 'many2many']:
716 attrs.update({'relation': field['relation']})
717 cls._columns[field['name']] = fields.sparse(**attrs)
718 elif field['ttype'] == 'selection':
719 cls._columns[field['name']] = fields.selection(eval(field['selection']), **attrs)
720 elif field['ttype'] == 'reference':
721 cls._columns[field['name']] = fields.reference(selection=eval(field['selection']), **attrs)
722 elif field['ttype'] == 'many2one':
723 cls._columns[field['name']] = fields.many2one(field['relation'], **attrs)
724 elif field['ttype'] == 'one2many':
725 cls._columns[field['name']] = fields.one2many(field['relation'], field['relation_field'], **attrs)
726 elif field['ttype'] == 'many2many':
727 _rel1 = field['relation'].replace('.', '_')
728 _rel2 = field['model'].replace('.', '_')
729 _rel_name = 'x_%s_%s_%s_rel' % (_rel1, _rel2, field['name'])
730 cls._columns[field['name']] = fields.many2many(field['relation'], _rel_name, 'id1', 'id2', **attrs)
732 cls._columns[field['name']] = getattr(fields, field['ttype'])(**attrs)
735 def _init_constraints_onchanges(cls):
736 # store sql constraint error messages
737 for (key, _, msg) in cls._sql_constraints:
738 cls.pool._sql_error[cls._table + '_' + key] = msg
740 # collect constraint and onchange methods
741 cls._constraint_methods = []
742 cls._onchange_methods = defaultdict(list)
743 for attr, func in getmembers(cls, callable):
744 if hasattr(func, '_constrains'):
745 if not all(name in cls._fields for name in func._constrains):
746 _logger.warning("@constrains%r parameters must be field names", func._constrains)
747 cls._constraint_methods.append(func)
748 if hasattr(func, '_onchange'):
749 if not all(name in cls._fields for name in func._onchange):
750 _logger.warning("@onchange%r parameters must be field names", func._onchange)
751 for name in func._onchange:
752 cls._onchange_methods[name].append(func)
755 # In the past, this method was registering the model class in the server.
756 # This job is now done entirely by the metaclass MetaModel.
758 # Do not create an instance here. Model instances are created by method
762 def __init__(self, pool, cr):
763 """ Initialize a model and make it part of the given registry.
765 - copy the stored fields' functions in the registry,
766 - retrieve custom fields and add them in the model,
767 - ensure there is a many2one for each _inherits'd parent,
768 - update the children's _columns,
769 - give a chance to each field to initialize itself.
774 # link the class to the registry, and update the registry
776 cls._model = self # backward compatibility
777 pool.add(cls._name, self)
779 # determine description, table, sequence and log_access
780 if not cls._description:
781 cls._description = cls._name
783 cls._table = cls._name.replace('.', '_')
784 if not cls._sequence:
785 cls._sequence = cls._table + '_id_seq'
786 if not hasattr(cls, '_log_access'):
787 # If _log_access is not specified, it is the same value as _auto.
788 cls._log_access = cls._auto
791 if cls.is_transient():
792 cls._transient_check_count = 0
793 cls._transient_max_count = config.get('osv_memory_count_limit')
794 cls._transient_max_hours = config.get('osv_memory_age_limit')
795 assert cls._log_access, \
796 "TransientModels must have log_access turned on, " \
797 "in order to implement their access rights policy"
799 # retrieve new-style fields and duplicate them (to avoid clashes with
800 # inheritance between different models)
802 for attr, field in getmembers(cls, Field.__instancecheck__):
803 if not field._origin:
804 cls._add_field(attr, field.copy())
806 # introduce magic fields
807 cls._add_magic_fields()
809 # register stuff about low-level function fields and custom fields
810 cls._init_function_fields(pool, cr)
811 cls._init_manual_fields(pool, cr)
814 cls._inherits_check()
815 cls._inherits_reload()
817 # register constraints and onchange methods
818 cls._init_constraints_onchanges()
821 for k in cls._defaults:
822 assert k in cls._fields, \
823 "Model %s has a default for nonexiting field %s" % (cls._name, k)
826 for column in cls._columns.itervalues():
831 assert cls._rec_name in cls._fields, \
832 "Invalid rec_name %s for model %s" % (cls._rec_name, cls._name)
833 elif 'name' in cls._fields:
834 cls._rec_name = 'name'
836 # prepare ormcache, which must be shared by all instances of the model
839 def __export_xml_id(self):
840 """ Return a valid xml_id for the record `self`. """
841 ir_model_data = self.sudo().env['ir.model.data']
842 data = ir_model_data.search([('model', '=', self._name), ('res_id', '=', self.id)])
845 return '%s.%s' % (data.module, data.name)
850 name = '%s_%s' % (self._table, self.id)
851 while ir_model_data.search([('module', '=', '__export__'), ('name', '=', name)]):
853 name = '%s_%s_%s' % (self._table, self.id, postfix)
854 ir_model_data.create({
857 'module': '__export__',
860 return '__export__.' + name
863 def __export_rows(self, fields):
864 """ Export fields of the records in `self`.
866 :param fields: list of lists of fields to traverse
867 :return: list of lists of corresponding values
871 # main line of record, initially empty
872 current = [''] * len(fields)
873 lines.append(current)
875 # list of primary fields followed by secondary field(s)
878 # process column by column
879 for i, path in enumerate(fields):
884 if name in primary_done:
888 current[i] = str(record.id)
890 current[i] = record.__export_xml_id()
892 field = record._fields[name]
895 # this part could be simpler, but it has to be done this way
896 # in order to reproduce the former behavior
897 if not isinstance(value, BaseModel):
898 current[i] = field.convert_to_export(value, self.env)
900 primary_done.append(name)
902 # This is a special case, its strange behavior is intended!
903 if field.type == 'many2many' and len(path) > 1 and path[1] == 'id':
904 xml_ids = [r.__export_xml_id() for r in value]
905 current[i] = ','.join(xml_ids) or False
908 # recursively export the fields that follow name
909 fields2 = [(p[1:] if p and p[0] == name else []) for p in fields]
910 lines2 = value.__export_rows(fields2)
912 # merge first line with record's main line
913 for j, val in enumerate(lines2[0]):
916 # check value of current field
918 # assign xml_ids, and forget about remaining lines
919 xml_ids = [item[1] for item in value.name_get()]
920 current[i] = ','.join(xml_ids)
922 # append the other lines at the end
930 def export_data(self, fields_to_export, raw_data=False):
931 """ Export fields for selected objects
933 :param fields_to_export: list of fields
934 :param raw_data: True to return value in native Python type
935 :rtype: dictionary with a *datas* matrix
937 This method is used when exporting data via client menu
939 fields_to_export = map(fix_import_export_id_paths, fields_to_export)
941 self = self.with_context(export_raw_data=True)
942 return {'datas': self.__export_rows(fields_to_export)}
944 def import_data(self, cr, uid, fields, datas, mode='init', current_module='', noupdate=False, context=None, filename=None):
947 Use :meth:`~load` instead
949 Import given data in given module
951 This method is used when importing data via client menu.
953 Example of fields to import for a sale.order::
956 partner_id, (=name_search)
957 order_line/.id, (=database_id)
959 order_line/product_id/id, (=xml id)
960 order_line/price_unit,
961 order_line/product_uom_qty,
962 order_line/product_uom/id (=xml_id)
964 This method returns a 4-tuple with the following structure::
966 (return_code, errored_resource, error_message, unused)
968 * The first item is a return code, it is ``-1`` in case of
969 import error, or the last imported row number in case of success
970 * The second item contains the record data dict that failed to import
971 in case of error, otherwise it's 0
972 * The third item contains an error message string in case of error,
974 * The last item is currently unused, with no specific semantics
976 :param fields: list of fields to import
977 :param datas: data to import
978 :param mode: 'init' or 'update' for record creation
979 :param current_module: module name
980 :param noupdate: flag for record creation
981 :param filename: optional file to store partial import state for recovery
982 :returns: 4-tuple in the form (return_code, errored_resource, error_message, unused)
983 :rtype: (int, dict or 0, str or 0, str or 0)
985 context = dict(context) if context is not None else {}
986 context['_import_current_module'] = current_module
988 fields = map(fix_import_export_id_paths, fields)
989 ir_model_data_obj = self.pool.get('ir.model.data')
992 if m['type'] == 'error':
993 raise Exception(m['message'])
995 if config.get('import_partial') and filename:
996 with open(config.get('import_partial'), 'rb') as partial_import_file:
997 data = pickle.load(partial_import_file)
998 position = data.get(filename, 0)
1002 for res_id, xml_id, res, info in self._convert_records(cr, uid,
1003 self._extract_records(cr, uid, fields, datas,
1004 context=context, log=log),
1005 context=context, log=log):
1006 ir_model_data_obj._update(cr, uid, self._name,
1007 current_module, res, mode=mode, xml_id=xml_id,
1008 noupdate=noupdate, res_id=res_id, context=context)
1009 position = info.get('rows', {}).get('to', 0) + 1
1010 if config.get('import_partial') and filename and (not (position%100)):
1011 with open(config.get('import_partial'), 'rb') as partial_import:
1012 data = pickle.load(partial_import)
1013 data[filename] = position
1014 with open(config.get('import_partial'), 'wb') as partial_import:
1015 pickle.dump(data, partial_import)
1016 if context.get('defer_parent_store_computation'):
1017 self._parent_store_compute(cr)
1019 except Exception, e:
1021 return -1, {}, 'Line %d : %s' % (position + 1, tools.ustr(e)), ''
1023 if context.get('defer_parent_store_computation'):
1024 self._parent_store_compute(cr)
1025 return position, 0, 0, 0
1027 def load(self, cr, uid, fields, data, context=None):
1029 Attempts to load the data matrix, and returns a list of ids (or
1030 ``False`` if there was an error and no id could be generated) and a
1033 The ids are those of the records created and saved (in database), in
1034 the same order they were extracted from the file. They can be passed
1035 directly to :meth:`~read`
1037 :param fields: list of fields to import, at the same index as the corresponding data
1038 :type fields: list(str)
1039 :param data: row-major matrix of data to import
1040 :type data: list(list(str))
1041 :param dict context:
1042 :returns: {ids: list(int)|False, messages: [Message]}
1044 cr.execute('SAVEPOINT model_load')
1047 fields = map(fix_import_export_id_paths, fields)
1048 ModelData = self.pool['ir.model.data'].clear_caches()
1050 fg = self.fields_get(cr, uid, context=context)
1057 for id, xid, record, info in self._convert_records(cr, uid,
1058 self._extract_records(cr, uid, fields, data,
1059 context=context, log=messages.append),
1060 context=context, log=messages.append):
1062 cr.execute('SAVEPOINT model_load_save')
1063 except psycopg2.InternalError, e:
1064 # broken transaction, exit and hope the source error was
1066 if not any(message['type'] == 'error' for message in messages):
1067 messages.append(dict(info, type='error',message=
1068 u"Unknown database error: '%s'" % e))
1071 ids.append(ModelData._update(cr, uid, self._name,
1072 current_module, record, mode=mode, xml_id=xid,
1073 noupdate=noupdate, res_id=id, context=context))
1074 cr.execute('RELEASE SAVEPOINT model_load_save')
1075 except psycopg2.Warning, e:
1076 messages.append(dict(info, type='warning', message=str(e)))
1077 cr.execute('ROLLBACK TO SAVEPOINT model_load_save')
1078 except psycopg2.Error, e:
1079 messages.append(dict(
1081 **PGERROR_TO_OE[e.pgcode](self, fg, info, e)))
1082 # Failed to write, log to messages, rollback savepoint (to
1083 # avoid broken transaction) and keep going
1084 cr.execute('ROLLBACK TO SAVEPOINT model_load_save')
1085 if any(message['type'] == 'error' for message in messages):
1086 cr.execute('ROLLBACK TO SAVEPOINT model_load')
1088 return {'ids': ids, 'messages': messages}
1090 def _extract_records(self, cr, uid, fields_, data,
1091 context=None, log=lambda a: None):
1092 """ Generates record dicts from the data sequence.
1094 The result is a generator of dicts mapping field names to raw
1095 (unconverted, unvalidated) values.
1097 For relational fields, if sub-fields were provided the value will be
1098 a list of sub-records
1100 The following sub-fields may be set on the record (by key):
1101 * None is the name_get for the record (to use with name_create/name_search)
1102 * "id" is the External ID for the record
1103 * ".id" is the Database ID for the record
1105 columns = dict((k, v.column) for k, v in self._all_columns.iteritems())
1106 # Fake columns to avoid special cases in extractor
1107 columns[None] = fields.char('rec_name')
1108 columns['id'] = fields.char('External ID')
1109 columns['.id'] = fields.integer('Database ID')
1111 # m2o fields can't be on multiple lines so exclude them from the
1112 # is_relational field rows filter, but special-case it later on to
1113 # be handled with relational fields (as it can have subfields)
1114 is_relational = lambda field: columns[field]._type in ('one2many', 'many2many', 'many2one')
1115 get_o2m_values = itemgetter_tuple(
1116 [index for index, field in enumerate(fields_)
1117 if columns[field[0]]._type == 'one2many'])
1118 get_nono2m_values = itemgetter_tuple(
1119 [index for index, field in enumerate(fields_)
1120 if columns[field[0]]._type != 'one2many'])
1121 # Checks if the provided row has any non-empty non-relational field
1122 def only_o2m_values(row, f=get_nono2m_values, g=get_o2m_values):
1123 return any(g(row)) and not any(f(row))
1127 if index >= len(data): return
1130 # copy non-relational fields to record dict
1131 record = dict((field[0], value)
1132 for field, value in itertools.izip(fields_, row)
1133 if not is_relational(field[0]))
1135 # Get all following rows which have relational values attached to
1136 # the current record (no non-relational values)
1137 record_span = itertools.takewhile(
1138 only_o2m_values, itertools.islice(data, index + 1, None))
1139 # stitch record row back on for relational fields
1140 record_span = list(itertools.chain([row], record_span))
1141 for relfield in set(
1142 field[0] for field in fields_
1143 if is_relational(field[0])):
1144 column = columns[relfield]
1145 # FIXME: how to not use _obj without relying on fields_get?
1146 Model = self.pool[column._obj]
1148 # get only cells for this sub-field, should be strictly
1149 # non-empty, field path [None] is for name_get column
1150 indices, subfields = zip(*((index, field[1:] or [None])
1151 for index, field in enumerate(fields_)
1152 if field[0] == relfield))
1154 # return all rows which have at least one value for the
1155 # subfields of relfield
1156 relfield_data = filter(any, map(itemgetter_tuple(indices), record_span))
1157 record[relfield] = [subrecord
1158 for subrecord, _subinfo in Model._extract_records(
1159 cr, uid, subfields, relfield_data,
1160 context=context, log=log)]
1162 yield record, {'rows': {
1164 'to': index + len(record_span) - 1
1166 index += len(record_span)
1168 def _convert_records(self, cr, uid, records,
1169 context=None, log=lambda a: None):
1170 """ Converts records from the source iterable (recursive dicts of
1171 strings) into forms which can be written to the database (via
1172 self.create or (ir.model.data)._update)
1174 :returns: a list of triplets of (id, xid, record)
1175 :rtype: list((int|None, str|None, dict))
1177 if context is None: context = {}
1178 Converter = self.pool['ir.fields.converter']
1179 columns = dict((k, v.column) for k, v in self._all_columns.iteritems())
1180 Translation = self.pool['ir.translation']
1182 (f, (Translation._get_source(cr, uid, self._name + ',' + f, 'field',
1183 context.get('lang'))
1185 for f, column in columns.iteritems())
1187 convert = Converter.for_model(cr, uid, self, context=context)
1189 def _log(base, field, exception):
1190 type = 'warning' if isinstance(exception, Warning) else 'error'
1191 # logs the logical (not human-readable) field name for automated
1192 # processing of response, but injects human readable in message
1193 record = dict(base, type=type, field=field,
1194 message=unicode(exception.args[0]) % base)
1195 if len(exception.args) > 1 and exception.args[1]:
1196 record.update(exception.args[1])
1199 stream = CountingStream(records)
1200 for record, extras in stream:
1203 # name_get/name_create
1204 if None in record: pass
1211 dbid = int(record['.id'])
1213 # in case of overridden id column
1214 dbid = record['.id']
1215 if not self.search(cr, uid, [('id', '=', dbid)], context=context):
1218 record=stream.index,
1220 message=_(u"Unknown database identifier '%s'") % dbid))
1223 converted = convert(record, lambda field, err:\
1224 _log(dict(extras, record=stream.index, field=field_names[field]), field, err))
1226 yield dbid, xid, converted, dict(extras, record=stream.index)
1229 def _validate_fields(self, field_names):
1230 field_names = set(field_names)
1232 # old-style constraint methods
1233 trans = self.env['ir.translation']
1234 cr, uid, context = self.env.args
1237 for fun, msg, names in self._constraints:
1239 # validation must be context-independent; call `fun` without context
1240 valid = not (set(names) & field_names) or fun(self._model, cr, uid, ids)
1242 except Exception, e:
1243 _logger.debug('Exception while validating constraint', exc_info=True)
1245 extra_error = tools.ustr(e)
1248 res_msg = msg(self._model, cr, uid, ids, context=context)
1249 if isinstance(res_msg, tuple):
1250 template, params = res_msg
1251 res_msg = template % params
1253 res_msg = trans._get_source(self._name, 'constraint', self.env.lang, msg)
1255 res_msg += "\n\n%s\n%s" % (_('Error details:'), extra_error)
1257 _("Field(s) `%s` failed against a constraint: %s") %
1258 (', '.join(names), res_msg)
1261 raise except_orm('ValidateError', '\n'.join(errors))
1263 # new-style constraint methods
1264 for check in self._constraint_methods:
1265 if set(check._constrains) & field_names:
1268 def default_get(self, cr, uid, fields_list, context=None):
1269 """ Return default values for the fields in `fields_list`. Default
1270 values are determined by the context, user defaults, and the model
1273 :param fields_list: a list of field names
1274 :return: a dictionary mapping each field name to its corresponding
1275 default value; the keys of the dictionary are the fields in
1276 `fields_list` that have a default value different from ``False``.
1278 This method should not be overridden. In order to change the
1279 mechanism for determining default values, you should override method
1280 :meth:`add_default_value` instead.
1282 # trigger view init hook
1283 self.view_init(cr, uid, fields_list, context)
1285 # use a new record to determine default values
1286 record = self.new(cr, uid, {}, context=context)
1287 for name in fields_list:
1288 if name in self._fields:
1289 record[name] # force evaluation of defaults
1291 # retrieve defaults from record's cache
1292 return self._convert_to_write(record._cache)
1294 def add_default_value(self, field):
1295 """ Set the default value of `field` to the new record `self`.
1296 The value must be assigned to `self`.
1298 assert not self.id, "Expected new record: %s" % self
1299 cr, uid, context = self.env.args
1302 # 1. look up context
1303 key = 'default_' + name
1305 self[name] = context[key]
1308 # 2. look up ir_values
1309 # Note: performance is good, because get_defaults_dict is cached!
1310 ir_values_dict = self.env['ir.values'].get_defaults_dict(self._name)
1311 if name in ir_values_dict:
1312 self[name] = ir_values_dict[name]
1315 # 3. look up property fields
1316 # TODO: get rid of this one
1317 column = self._columns.get(name)
1318 if isinstance(column, fields.property):
1319 self[name] = self.env['ir.property'].get(name, self._name)
1322 # 4. look up _defaults
1323 if name in self._defaults:
1324 value = self._defaults[name]
1326 value = value(self._model, cr, uid, context)
1330 # 5. delegate to field
1331 field.determine_default(self)
1333 def fields_get_keys(self, cr, user, context=None):
1334 res = self._columns.keys()
1335 # TODO I believe this loop can be replace by
1336 # res.extend(self._inherit_fields.key())
1337 for parent in self._inherits:
1338 res.extend(self.pool[parent].fields_get_keys(cr, user, context))
1341 def _rec_name_fallback(self, cr, uid, context=None):
1342 rec_name = self._rec_name
1343 if rec_name not in self._columns:
1344 rec_name = self._columns.keys()[0] if len(self._columns.keys()) > 0 else "id"
1348 # Overload this method if you need a window title which depends on the context
1350 def view_header_get(self, cr, user, view_id=None, view_type='form', context=None):
1353 def user_has_groups(self, cr, uid, groups, context=None):
1354 """Return true if the user is at least member of one of the groups
1355 in groups_str. Typically used to resolve `groups` attribute
1356 in view and model definitions.
1358 :param str groups: comma-separated list of fully-qualified group
1359 external IDs, e.g.: ``base.group_user,base.group_system``
1360 :return: True if the current user is a member of one of the
1363 return any(self.pool['res.users'].has_group(cr, uid, group_ext_id)
1364 for group_ext_id in groups.split(','))
1366 def _get_default_form_view(self, cr, user, context=None):
1367 """ Generates a default single-line form view using all fields
1368 of the current model except the m2m and o2m ones.
1370 :param cr: database cursor
1371 :param int user: user id
1372 :param dict context: connection context
1373 :returns: a form view as an lxml document
1374 :rtype: etree._Element
1376 view = etree.Element('form', string=self._description)
1377 group = etree.SubElement(view, 'group', col="4")
1378 for fname, field in self._fields.iteritems():
1379 if field.automatic or field.type in ('one2many', 'many2many'):
1382 etree.SubElement(group, 'field', name=fname)
1383 if field.type == 'text':
1384 etree.SubElement(group, 'newline')
1387 def _get_default_search_view(self, cr, user, context=None):
1388 """ Generates a single-field search view, based on _rec_name.
1390 :param cr: database cursor
1391 :param int user: user id
1392 :param dict context: connection context
1393 :returns: a tree view as an lxml document
1394 :rtype: etree._Element
1396 view = etree.Element('search', string=self._description)
1397 etree.SubElement(view, 'field', name=self._rec_name_fallback(cr, user, context))
1400 def _get_default_tree_view(self, cr, user, context=None):
1401 """ Generates a single-field tree view, based on _rec_name.
1403 :param cr: database cursor
1404 :param int user: user id
1405 :param dict context: connection context
1406 :returns: a tree view as an lxml document
1407 :rtype: etree._Element
1409 view = etree.Element('tree', string=self._description)
1410 etree.SubElement(view, 'field', name=self._rec_name_fallback(cr, user, context))
1413 def _get_default_calendar_view(self, cr, user, context=None):
1414 """ Generates a default calendar view by trying to infer
1415 calendar fields from a number of pre-set attribute names
1417 :param cr: database cursor
1418 :param int user: user id
1419 :param dict context: connection context
1420 :returns: a calendar view
1421 :rtype: etree._Element
1423 def set_first_of(seq, in_, to):
1424 """Sets the first value of `seq` also found in `in_` to
1425 the `to` attribute of the view being closed over.
1427 Returns whether it's found a suitable value (and set it on
1428 the attribute) or not
1436 view = etree.Element('calendar', string=self._description)
1437 etree.SubElement(view, 'field', name=self._rec_name_fallback(cr, user, context))
1439 if self._date_name not in self._columns:
1441 for dt in ['date', 'date_start', 'x_date', 'x_date_start']:
1442 if dt in self._columns:
1443 self._date_name = dt
1448 raise except_orm(_('Invalid Object Architecture!'), _("Insufficient fields for Calendar View!"))
1449 view.set('date_start', self._date_name)
1451 set_first_of(["user_id", "partner_id", "x_user_id", "x_partner_id"],
1452 self._columns, 'color')
1454 if not set_first_of(["date_stop", "date_end", "x_date_stop", "x_date_end"],
1455 self._columns, 'date_stop'):
1456 if not set_first_of(["date_delay", "planned_hours", "x_date_delay", "x_planned_hours"],
1457 self._columns, 'date_delay'):
1459 _('Invalid Object Architecture!'),
1460 _("Insufficient fields to generate a Calendar View for %s, missing a date_stop or a date_delay" % self._name))
1464 def fields_view_get(self, cr, uid, view_id=None, view_type='form', context=None, toolbar=False, submenu=False):
1466 Get the detailed composition of the requested view like fields, model, view architecture
1468 :param view_id: id of the view or None
1469 :param view_type: type of the view to return if view_id is None ('form', tree', ...)
1470 :param toolbar: true to include contextual actions
1471 :param submenu: deprecated
1472 :return: dictionary describing the composition of the requested view (including inherited views and extensions)
1473 :raise AttributeError:
1474 * if the inherited view has unknown position to work with other than 'before', 'after', 'inside', 'replace'
1475 * if some tag other than 'position' is found in parent view
1476 :raise Invalid ArchitectureError: if there is view type other than form, tree, calendar, search etc defined on the structure
1480 View = self.pool['ir.ui.view']
1483 'model': self._name,
1484 'field_parent': False,
1487 # try to find a view_id if none provided
1489 # <view_type>_view_ref in context can be used to overrride the default view
1490 view_ref_key = view_type + '_view_ref'
1491 view_ref = context.get(view_ref_key)
1494 module, view_ref = view_ref.split('.', 1)
1495 cr.execute("SELECT res_id FROM ir_model_data WHERE model='ir.ui.view' AND module=%s AND name=%s", (module, view_ref))
1496 view_ref_res = cr.fetchone()
1498 view_id = view_ref_res[0]
1500 _logger.warning('%r requires a fully-qualified external id (got: %r for model %s). '
1501 'Please use the complete `module.view_id` form instead.', view_ref_key, view_ref,
1505 # otherwise try to find the lowest priority matching ir.ui.view
1506 view_id = View.default_view(cr, uid, self._name, view_type, context=context)
1508 # context for post-processing might be overriden
1511 # read the view with inherited views applied
1512 root_view = View.read_combined(cr, uid, view_id, fields=['id', 'name', 'field_parent', 'type', 'model', 'arch'], context=context)
1513 result['arch'] = root_view['arch']
1514 result['name'] = root_view['name']
1515 result['type'] = root_view['type']
1516 result['view_id'] = root_view['id']
1517 result['field_parent'] = root_view['field_parent']
1518 # override context fro postprocessing
1519 if root_view.get('model') != self._name:
1520 ctx = dict(context, base_model_name=root_view.get('model'))
1522 # fallback on default views methods if no ir.ui.view could be found
1524 get_func = getattr(self, '_get_default_%s_view' % view_type)
1525 arch_etree = get_func(cr, uid, context)
1526 result['arch'] = etree.tostring(arch_etree, encoding='utf-8')
1527 result['type'] = view_type
1528 result['name'] = 'default'
1529 except AttributeError:
1530 raise except_orm(_('Invalid Architecture!'), _("No default view of type '%s' could be found !") % view_type)
1532 # Apply post processing, groups and modifiers etc...
1533 xarch, xfields = View.postprocess_and_fields(cr, uid, self._name, etree.fromstring(result['arch']), view_id, context=ctx)
1534 result['arch'] = xarch
1535 result['fields'] = xfields
1537 # Add related action information if aksed
1539 toclean = ('report_sxw_content', 'report_rml_content', 'report_sxw', 'report_rml', 'report_sxw_content_data', 'report_rml_content_data')
1545 ir_values_obj = self.pool.get('ir.values')
1546 resprint = ir_values_obj.get(cr, uid, 'action', 'client_print_multi', [(self._name, False)], False, context)
1547 resaction = ir_values_obj.get(cr, uid, 'action', 'client_action_multi', [(self._name, False)], False, context)
1548 resrelate = ir_values_obj.get(cr, uid, 'action', 'client_action_relate', [(self._name, False)], False, context)
1549 resaction = [clean(action) for action in resaction if view_type == 'tree' or not action[2].get('multi')]
1550 resprint = [clean(print_) for print_ in resprint if view_type == 'tree' or not print_[2].get('multi')]
1551 #When multi="True" set it will display only in More of the list view
1552 resrelate = [clean(action) for action in resrelate
1553 if (action[2].get('multi') and view_type == 'tree') or (not action[2].get('multi') and view_type == 'form')]
1555 for x in itertools.chain(resprint, resaction, resrelate):
1556 x['string'] = x['name']
1558 result['toolbar'] = {
1560 'action': resaction,
1565 def get_formview_id(self, cr, uid, id, context=None):
1566 """ Return an view id to open the document with. This method is meant to be
1567 overridden in addons that want to give specific view ids for example.
1569 :param int id: id of the document to open
1573 def get_formview_action(self, cr, uid, id, context=None):
1574 """ Return an action to open the document. This method is meant to be
1575 overridden in addons that want to give specific view ids for example.
1577 :param int id: id of the document to open
1579 view_id = self.get_formview_id(cr, uid, id, context=context)
1581 'type': 'ir.actions.act_window',
1582 'res_model': self._name,
1583 'view_type': 'form',
1584 'view_mode': 'form',
1585 'views': [(view_id, 'form')],
1586 'target': 'current',
1590 def _view_look_dom_arch(self, cr, uid, node, view_id, context=None):
1591 return self.pool['ir.ui.view'].postprocess_and_fields(
1592 cr, uid, self._name, node, view_id, context=context)
1594 def search_count(self, cr, user, args, context=None):
1595 res = self.search(cr, user, args, context=context, count=True)
1596 if isinstance(res, list):
1600 @api.returns('self')
1601 def search(self, cr, user, args, offset=0, limit=None, order=None, context=None, count=False):
1603 Search for records based on a search domain.
1605 :param cr: database cursor
1606 :param user: current user id
1607 :param args: list of tuples specifying the search domain [('field_name', 'operator', value), ...]. Pass an empty list to match all records.
1608 :param offset: optional number of results to skip in the returned values (default: 0)
1609 :param limit: optional max number of records to return (default: **None**)
1610 :param order: optional columns to sort by (default: self._order=id )
1611 :param context: optional context arguments, like lang, time zone
1612 :type context: dictionary
1613 :param count: optional (default: **False**), if **True**, returns only the number of records matching the criteria, not their ids
1614 :return: id or list of ids of records matching the criteria
1615 :rtype: integer or list of integers
1616 :raise AccessError: * if user tries to bypass access rules for read on the requested object.
1618 **Expressing a search domain (args)**
1620 Each tuple in the search domain needs to have 3 elements, in the form: **('field_name', 'operator', value)**, where:
1622 * **field_name** must be a valid name of field of the object model, possibly following many-to-one relationships using dot-notation, e.g 'street' or 'partner_id.country' are valid values.
1623 * **operator** must be a string with a valid comparison operator from this list: ``=, !=, >, >=, <, <=, like, ilike, in, not in, child_of, parent_left, parent_right``
1624 The semantics of most of these operators are obvious.
1625 The ``child_of`` operator will look for records who are children or grand-children of a given record,
1626 according to the semantics of this model (i.e following the relationship field named by
1627 ``self._parent_name``, by default ``parent_id``.
1628 * **value** must be a valid value to compare with the values of **field_name**, depending on its type.
1630 Domain criteria can be combined using 3 logical operators than can be added between tuples: '**&**' (logical AND, default), '**|**' (logical OR), '**!**' (logical NOT).
1631 These are **prefix** operators and the arity of the '**&**' and '**|**' operator is 2, while the arity of the '**!**' is just 1.
1632 Be very careful about this when you combine them the first time.
1634 Here is an example of searching for Partners named *ABC* from Belgium and Germany whose language is not english ::
1636 [('name','=','ABC'),'!',('language.code','=','en_US'),'|',('country_id.code','=','be'),('country_id.code','=','de'))
1638 The '&' is omitted as it is the default, and of course we could have used '!=' for the language, but what this domain really represents is::
1640 (name is 'ABC' AND (language is NOT english) AND (country is Belgium OR Germany))
1643 return self._search(cr, user, args, offset=offset, limit=limit, order=order, context=context, count=count)
1646 # display_name, name_get, name_create, name_search
1649 @api.depends(lambda self: (self._rec_name,) if self._rec_name else ())
1650 def _compute_display_name(self):
1651 name = self._rec_name
1652 if name in self._fields:
1653 convert = self._fields[name].convert_to_display_name
1655 record.display_name = convert(record[name])
1658 record.display_name = "%s,%s" % (record._name, record.id)
1660 def _inverse_display_name(self):
1661 name = self._rec_name
1662 if name in self._fields and not self._fields[name].relational:
1664 record[name] = record.display_name
1666 _logger.warning("Cannot inverse field display_name on %s", self._name)
1668 def _search_display_name(self, operator, value):
1669 name = self._rec_name
1670 if name in self._fields:
1671 return [(name, operator, value)]
1673 _logger.warning("Cannot search field display_name on %s", self._name)
1674 return [(0, '=', 1)]
1678 """ Return a textual representation for the records in `self`.
1679 By default this is the value of field ``display_name``.
1682 :return: list of pairs ``(id, text_repr)`` for all records
1687 result.append((record.id, record.display_name))
1688 except MissingError:
1693 def name_create(self, name):
1694 """ Create a new record by calling :meth:`~.create` with only one value
1695 provided: the display name of the new record.
1697 The new record will be initialized with any default values
1698 applicable to this model, or provided through the context. The usual
1699 behavior of :meth:`~.create` applies.
1701 :param name: display name of the record to create
1703 :return: the :meth:`~.name_get` pair value of the created record
1705 # Shortcut the inverse function of 'display_name' with self._rec_name.
1706 # This is useful when self._rec_name is a required field: in that case,
1707 # create() creates a record without the field, and inverse display_name
1709 field_name = self._rec_name if self._rec_name else 'display_name'
1710 record = self.create({field_name: name})
1711 return (record.id, record.display_name)
1714 def name_search(self, name='', args=None, operator='ilike', limit=100):
1715 """ Search for records that have a display name matching the given
1716 `name` pattern when compared with the given `operator`, while also
1717 matching the optional search domain (`args`).
1719 This is used for example to provide suggestions based on a partial
1720 value for a relational field. Sometimes be seen as the inverse
1721 function of :meth:`~.name_get`, but it is not guaranteed to be.
1723 This method is equivalent to calling :meth:`~.search` with a search
1724 domain based on `display_name` and then :meth:`~.name_get` on the
1725 result of the search.
1727 :param name: the name pattern to match
1728 :param list args: optional search domain (see :meth:`~.search` for
1729 syntax), specifying further restrictions
1730 :param str operator: domain operator for matching `name`, such as
1731 ``'like'`` or ``'='``.
1732 :param int limit: optional max number of records to return
1734 :return: list of pairs ``(id, text_repr)`` for all matching records.
1736 args = list(args or [])
1737 if not (name == '' and operator == 'ilike'):
1738 args += [('display_name', operator, name)]
1739 return self.search(args, limit=limit).name_get()
1741 def _name_search(self, cr, user, name='', args=None, operator='ilike', context=None, limit=100, name_get_uid=None):
1742 # private implementation of name_search, allows passing a dedicated user
1743 # for the name_get part to solve some access rights issues
1744 args = list(args or [])
1745 # optimize out the default criterion of ``ilike ''`` that matches everything
1746 if not (name == '' and operator == 'ilike'):
1747 args += [('display_name', operator, name)]
1748 access_rights_uid = name_get_uid or user
1749 ids = self._search(cr, user, args, limit=limit, context=context, access_rights_uid=access_rights_uid)
1750 res = self.name_get(cr, access_rights_uid, ids, context)
1753 def read_string(self, cr, uid, id, langs, fields=None, context=None):
1756 self.pool.get('ir.translation').check_access_rights(cr, uid, 'read')
1758 fields = self._columns.keys() + self._inherit_fields.keys()
1759 #FIXME: collect all calls to _get_source into one SQL call.
1761 res[lang] = {'code': lang}
1763 if f in self._columns:
1764 res_trans = self.pool.get('ir.translation')._get_source(cr, uid, self._name+','+f, 'field', lang)
1766 res[lang][f] = res_trans
1768 res[lang][f] = self._columns[f].string
1769 for table in self._inherits:
1770 cols = intersect(self._inherit_fields.keys(), fields)
1771 res2 = self.pool[table].read_string(cr, uid, id, langs, cols, context)
1774 res[lang]['code'] = lang
1775 for f in res2[lang]:
1776 res[lang][f] = res2[lang][f]
1779 def write_string(self, cr, uid, id, langs, vals, context=None):
1780 self.pool.get('ir.translation').check_access_rights(cr, uid, 'write')
1781 #FIXME: try to only call the translation in one SQL
1784 if field in self._columns:
1785 src = self._columns[field].string
1786 self.pool.get('ir.translation')._set_ids(cr, uid, self._name+','+field, 'field', lang, [0], vals[field], src)
1787 for table in self._inherits:
1788 cols = intersect(self._inherit_fields.keys(), vals)
1790 self.pool[table].write_string(cr, uid, id, langs, vals, context)
1793 def _add_missing_default_values(self, cr, uid, values, context=None):
1794 # avoid overriding inherited values when parent is set
1796 for tables, parent_field in self._inherits.items():
1797 if parent_field in values:
1798 avoid_tables.append(tables)
1800 # compute missing fields
1801 missing_defaults = set()
1802 for field in self._columns.keys():
1803 if not field in values:
1804 missing_defaults.add(field)
1805 for field in self._inherit_fields.keys():
1806 if (field not in values) and (self._inherit_fields[field][0] not in avoid_tables):
1807 missing_defaults.add(field)
1808 # discard magic fields
1809 missing_defaults -= set(MAGIC_COLUMNS)
1811 if missing_defaults:
1812 # override defaults with the provided values, never allow the other way around
1813 defaults = self.default_get(cr, uid, list(missing_defaults), context)
1815 if ((dv in self._columns and self._columns[dv]._type == 'many2many') \
1816 or (dv in self._inherit_fields and self._inherit_fields[dv][2]._type == 'many2many')) \
1817 and defaults[dv] and isinstance(defaults[dv][0], (int, long)):
1818 defaults[dv] = [(6, 0, defaults[dv])]
1819 if (dv in self._columns and self._columns[dv]._type == 'one2many' \
1820 or (dv in self._inherit_fields and self._inherit_fields[dv][2]._type == 'one2many')) \
1821 and isinstance(defaults[dv], (list, tuple)) and defaults[dv] and isinstance(defaults[dv][0], dict):
1822 defaults[dv] = [(0, 0, x) for x in defaults[dv]]
1823 defaults.update(values)
1827 def clear_caches(self):
1828 """ Clear the caches
1830 This clears the caches associated to methods decorated with
1831 ``tools.ormcache`` or ``tools.ormcache_multi``.
1834 self._ormcache.clear()
1835 self.pool._any_cache_cleared = True
1836 except AttributeError:
1840 def _read_group_fill_results(self, cr, uid, domain, groupby, remaining_groupbys, aggregated_fields,
1841 read_group_result, read_group_order=None, context=None):
1842 """Helper method for filling in empty groups for all possible values of
1843 the field being grouped by"""
1845 # self._group_by_full should map groupable fields to a method that returns
1846 # a list of all aggregated values that we want to display for this field,
1847 # in the form of a m2o-like pair (key,label).
1848 # This is useful to implement kanban views for instance, where all columns
1849 # should be displayed even if they don't contain any record.
1851 # Grab the list of all groups that should be displayed, including all present groups
1852 present_group_ids = [x[groupby][0] for x in read_group_result if x[groupby]]
1853 all_groups,folded = self._group_by_full[groupby](self, cr, uid, present_group_ids, domain,
1854 read_group_order=read_group_order,
1855 access_rights_uid=openerp.SUPERUSER_ID,
1858 result_template = dict.fromkeys(aggregated_fields, False)
1859 result_template[groupby + '_count'] = 0
1860 if remaining_groupbys:
1861 result_template['__context'] = {'group_by': remaining_groupbys}
1863 # Merge the left_side (current results as dicts) with the right_side (all
1864 # possible values as m2o pairs). Both lists are supposed to be using the
1865 # same ordering, and can be merged in one pass.
1868 def append_left(left_side):
1869 grouped_value = left_side[groupby] and left_side[groupby][0]
1870 if not grouped_value in known_values:
1871 result.append(left_side)
1872 known_values[grouped_value] = left_side
1874 count_attr = groupby + '_count'
1875 known_values[grouped_value].update({count_attr: left_side[count_attr]})
1876 def append_right(right_side):
1877 grouped_value = right_side[0]
1878 if not grouped_value in known_values:
1879 line = dict(result_template)
1880 line[groupby] = right_side
1881 line['__domain'] = [(groupby,'=',grouped_value)] + domain
1883 known_values[grouped_value] = line
1884 while read_group_result or all_groups:
1885 left_side = read_group_result[0] if read_group_result else None
1886 right_side = all_groups[0] if all_groups else None
1887 assert left_side is None or left_side[groupby] is False \
1888 or isinstance(left_side[groupby], (tuple,list)), \
1889 'M2O-like pair expected, got %r' % left_side[groupby]
1890 assert right_side is None or isinstance(right_side, (tuple,list)), \
1891 'M2O-like pair expected, got %r' % right_side
1892 if left_side is None:
1893 append_right(all_groups.pop(0))
1894 elif right_side is None:
1895 append_left(read_group_result.pop(0))
1896 elif left_side[groupby] == right_side:
1897 append_left(read_group_result.pop(0))
1898 all_groups.pop(0) # discard right_side
1899 elif not left_side[groupby] or not left_side[groupby][0]:
1900 # left side == "Undefined" entry, not present on right_side
1901 append_left(read_group_result.pop(0))
1903 append_right(all_groups.pop(0))
1907 r['__fold'] = folded.get(r[groupby] and r[groupby][0], False)
1910 def _read_group_prepare(self, orderby, aggregated_fields, annotated_groupbys, query):
1912 Prepares the GROUP BY and ORDER BY terms for the read_group method. Adds the missing JOIN clause
1913 to the query if order should be computed against m2o field.
1914 :param orderby: the orderby definition in the form "%(field)s %(order)s"
1915 :param aggregated_fields: list of aggregated fields in the query
1916 :param annotated_groupbys: list of dictionaries returned by _read_group_process_groupby
1917 These dictionaries contains the qualified name of each groupby
1918 (fully qualified SQL name for the corresponding field),
1919 and the (non raw) field name.
1920 :param osv.Query query: the query under construction
1921 :return: (groupby_terms, orderby_terms)
1924 groupby_terms = [gb['qualified_field'] for gb in annotated_groupbys]
1925 groupby_fields = [gb['groupby'] for gb in annotated_groupbys]
1927 return groupby_terms, orderby_terms
1929 self._check_qorder(orderby)
1930 for order_part in orderby.split(','):
1931 order_split = order_part.split()
1932 order_field = order_split[0]
1933 if order_field in groupby_fields:
1935 if self._all_columns[order_field.split(':')[0]].column._type == 'many2one':
1936 order_clause = self._generate_order_by(order_part, query).replace('ORDER BY ', '')
1938 orderby_terms.append(order_clause)
1939 groupby_terms += [order_term.split()[0] for order_term in order_clause.split(',')]
1941 order = '"%s" %s' % (order_field, '' if len(order_split) == 1 else order_split[1])
1942 orderby_terms.append(order)
1943 elif order_field in aggregated_fields:
1944 orderby_terms.append(order_part)
1946 # Cannot order by a field that will not appear in the results (needs to be grouped or aggregated)
1947 _logger.warn('%s: read_group order by `%s` ignored, cannot sort on empty columns (not grouped/aggregated)',
1948 self._name, order_part)
1949 return groupby_terms, orderby_terms
1951 def _read_group_process_groupby(self, gb, query, context):
1953 Helper method to collect important information about groupbys: raw
1954 field name, type, time informations, qualified name, ...
1956 split = gb.split(':')
1957 field_type = self._all_columns[split[0]].column._type
1958 gb_function = split[1] if len(split) == 2 else None
1959 temporal = field_type in ('date', 'datetime')
1960 tz_convert = field_type == 'datetime' and context.get('tz') in pytz.all_timezones
1961 qualified_field = self._inherits_join_calc(split[0], query)
1964 'day': 'dd MMM YYYY',
1965 'week': "'W'w YYYY",
1966 'month': 'MMMM YYYY',
1967 'quarter': 'QQQ YYYY',
1971 'day': dateutil.relativedelta.relativedelta(days=1),
1972 'week': datetime.timedelta(days=7),
1973 'month': dateutil.relativedelta.relativedelta(months=1),
1974 'quarter': dateutil.relativedelta.relativedelta(months=3),
1975 'year': dateutil.relativedelta.relativedelta(years=1)
1978 qualified_field = "timezone('%s', timezone('UTC',%s))" % (context.get('tz', 'UTC'), qualified_field)
1979 qualified_field = "date_trunc('%s', %s)" % (gb_function or 'month', qualified_field)
1980 if field_type == 'boolean':
1981 qualified_field = "coalesce(%s,false)" % qualified_field
1986 'display_format': display_formats[gb_function or 'month'] if temporal else None,
1987 'interval': time_intervals[gb_function or 'month'] if temporal else None,
1988 'tz_convert': tz_convert,
1989 'qualified_field': qualified_field
1992 def _read_group_prepare_data(self, key, value, groupby_dict, context):
1994 Helper method to sanitize the data received by read_group. The None
1995 values are converted to False, and the date/datetime are formatted,
1996 and corrected according to the timezones.
1998 value = False if value is None else value
1999 gb = groupby_dict.get(key)
2000 if gb and gb['type'] in ('date', 'datetime') and value:
2001 if isinstance(value, basestring):
2002 dt_format = DEFAULT_SERVER_DATETIME_FORMAT if gb['type'] == 'datetime' else DEFAULT_SERVER_DATE_FORMAT
2003 value = datetime.datetime.strptime(value, dt_format)
2004 if gb['tz_convert']:
2005 value = pytz.timezone(context['tz']).localize(value)
2008 def _read_group_get_domain(self, groupby, value):
2010 Helper method to construct the domain corresponding to a groupby and
2011 a given value. This is mostly relevant for date/datetime.
2013 if groupby['type'] in ('date', 'datetime') and value:
2014 dt_format = DEFAULT_SERVER_DATETIME_FORMAT if groupby['type'] == 'datetime' else DEFAULT_SERVER_DATE_FORMAT
2015 domain_dt_begin = value
2016 domain_dt_end = value + groupby['interval']
2017 if groupby['tz_convert']:
2018 domain_dt_begin = domain_dt_begin.astimezone(pytz.utc)
2019 domain_dt_end = domain_dt_end.astimezone(pytz.utc)
2020 return [(groupby['field'], '>=', domain_dt_begin.strftime(dt_format)),
2021 (groupby['field'], '<', domain_dt_end.strftime(dt_format))]
2022 if groupby['type'] == 'many2one' and value:
2024 return [(groupby['field'], '=', value)]
2026 def _read_group_format_result(self, data, annotated_groupbys, groupby, groupby_dict, domain, context):
2028 Helper method to format the data contained in the dictianary data by
2029 adding the domain corresponding to its values, the groupbys in the
2030 context and by properly formatting the date/datetime values.
2032 domain_group = [dom for gb in annotated_groupbys for dom in self._read_group_get_domain(gb, data[gb['groupby']])]
2033 for k,v in data.iteritems():
2034 gb = groupby_dict.get(k)
2035 if gb and gb['type'] in ('date', 'datetime') and v:
2036 data[k] = babel.dates.format_date(v, format=gb['display_format'], locale=context.get('lang', 'en_US'))
2038 data['__domain'] = domain_group + domain
2039 if len(groupby) - len(annotated_groupbys) >= 1:
2040 data['__context'] = { 'group_by': groupby[len(annotated_groupbys):]}
2044 def read_group(self, cr, uid, domain, fields, groupby, offset=0, limit=None, context=None, orderby=False, lazy=True):
2046 Get the list of records in list view grouped by the given ``groupby`` fields
2048 :param cr: database cursor
2049 :param uid: current user id
2050 :param domain: list specifying search criteria [['field_name', 'operator', 'value'], ...]
2051 :param list fields: list of fields present in the list view specified on the object
2052 :param list groupby: list of groupby descriptions by which the records will be grouped.
2053 A groupby description is either a field (then it will be grouped by that field)
2054 or a string 'field:groupby_function'. Right now, the only functions supported
2055 are 'day', 'week', 'month', 'quarter' or 'year', and they only make sense for
2056 date/datetime fields.
2057 :param int offset: optional number of records to skip
2058 :param int limit: optional max number of records to return
2059 :param dict context: context arguments, like lang, time zone.
2060 :param list orderby: optional ``order by`` specification, for
2061 overriding the natural sort ordering of the
2062 groups, see also :py:meth:`~osv.osv.osv.search`
2063 (supported only for many2one fields currently)
2064 :param bool lazy: if true, the results are only grouped by the first groupby and the
2065 remaining groupbys are put in the __context key. If false, all the groupbys are
2067 :return: list of dictionaries(one dictionary for each record) containing:
2069 * the values of fields grouped by the fields in ``groupby`` argument
2070 * __domain: list of tuples specifying the search criteria
2071 * __context: dictionary with argument like ``groupby``
2072 :rtype: [{'field_name_1': value, ...]
2073 :raise AccessError: * if user has no read rights on the requested object
2074 * if user tries to bypass access rules for read on the requested object
2078 self.check_access_rights(cr, uid, 'read')
2079 query = self._where_calc(cr, uid, domain, context=context)
2080 fields = fields or self._columns.keys()
2082 groupby = [groupby] if isinstance(groupby, basestring) else groupby
2083 groupby_list = groupby[:1] if lazy else groupby
2084 annotated_groupbys = [self._read_group_process_groupby(gb, query, context)
2085 for gb in groupby_list]
2086 groupby_fields = [g['field'] for g in annotated_groupbys]
2087 order = orderby or ','.join([g for g in groupby_list])
2088 groupby_dict = {gb['groupby']: gb for gb in annotated_groupbys}
2090 self._apply_ir_rules(cr, uid, query, 'read', context=context)
2091 for gb in groupby_fields:
2092 assert gb in fields, "Fields in 'groupby' must appear in the list of fields to read (perhaps it's missing in the list view?)"
2093 groupby_def = self._columns.get(gb) or (self._inherit_fields.get(gb) and self._inherit_fields.get(gb)[2])
2094 assert groupby_def and groupby_def._classic_write, "Fields in 'groupby' must be regular database-persisted fields (no function or related fields), or function fields with store=True"
2095 if not (gb in self._all_columns):
2096 # Don't allow arbitrary values, as this would be a SQL injection vector!
2097 raise except_orm(_('Invalid group_by'),
2098 _('Invalid group_by specification: "%s".\nA group_by specification must be a list of valid fields.')%(gb,))
2100 aggregated_fields = [
2102 if f not in ('id', 'sequence')
2103 if f not in groupby_fields
2104 if self._all_columns[f].column._type in ('integer', 'float')
2105 if getattr(self._all_columns[f].column, '_classic_write')]
2107 field_formatter = lambda f: (self._all_columns[f].column.group_operator or 'sum', self._inherits_join_calc(f, query), f)
2108 select_terms = ["%s(%s) AS %s" % field_formatter(f) for f in aggregated_fields]
2110 for gb in annotated_groupbys:
2111 select_terms.append('%s as "%s" ' % (gb['qualified_field'], gb['groupby']))
2113 groupby_terms, orderby_terms = self._read_group_prepare(order, aggregated_fields, annotated_groupbys, query)
2114 from_clause, where_clause, where_clause_params = query.get_sql()
2115 if lazy and (len(groupby_fields) >= 2 or not context.get('group_by_no_leaf')):
2116 count_field = groupby_fields[0] if len(groupby_fields) >= 1 else '_'
2120 prefix_terms = lambda prefix, terms: (prefix + " " + ",".join(terms)) if terms else ''
2121 prefix_term = lambda prefix, term: ('%s %s' % (prefix, term)) if term else ''
2124 SELECT min(%(table)s.id) AS id, count(%(table)s.id) AS %(count_field)s_count %(extra_fields)s
2132 'table': self._table,
2133 'count_field': count_field,
2134 'extra_fields': prefix_terms(',', select_terms),
2135 'from': from_clause,
2136 'where': prefix_term('WHERE', where_clause),
2137 'groupby': prefix_terms('GROUP BY', groupby_terms),
2138 'orderby': prefix_terms('ORDER BY', orderby_terms),
2139 'limit': prefix_term('LIMIT', int(limit) if limit else None),
2140 'offset': prefix_term('OFFSET', int(offset) if limit else None),
2142 cr.execute(query, where_clause_params)
2143 fetched_data = cr.dictfetchall()
2145 if not groupby_fields:
2148 many2onefields = [gb['field'] for gb in annotated_groupbys if gb['type'] == 'many2one']
2150 data_ids = [r['id'] for r in fetched_data]
2151 many2onefields = list(set(many2onefields))
2152 data_dict = {d['id']: d for d in self.read(cr, uid, data_ids, many2onefields, context=context)}
2153 for d in fetched_data:
2154 d.update(data_dict[d['id']])
2156 data = map(lambda r: {k: self._read_group_prepare_data(k,v, groupby_dict, context) for k,v in r.iteritems()}, fetched_data)
2157 result = [self._read_group_format_result(d, annotated_groupbys, groupby, groupby_dict, domain, context) for d in data]
2158 if lazy and groupby_fields[0] in self._group_by_full:
2159 # Right now, read_group only fill results in lazy mode (by default).
2160 # If you need to have the empty groups in 'eager' mode, then the
2161 # method _read_group_fill_results need to be completely reimplemented
2163 result = self._read_group_fill_results(cr, uid, domain, groupby_fields[0], groupby[len(annotated_groupbys):],
2164 aggregated_fields, result, read_group_order=order,
2168 def _inherits_join_add(self, current_model, parent_model_name, query):
2170 Add missing table SELECT and JOIN clause to ``query`` for reaching the parent table (no duplicates)
2171 :param current_model: current model object
2172 :param parent_model_name: name of the parent model for which the clauses should be added
2173 :param query: query object on which the JOIN should be added
2175 inherits_field = current_model._inherits[parent_model_name]
2176 parent_model = self.pool[parent_model_name]
2177 parent_alias, parent_alias_statement = query.add_join((current_model._table, parent_model._table, inherits_field, 'id', inherits_field), implicit=True)
2180 def _inherits_join_calc(self, field, query):
2182 Adds missing table select and join clause(s) to ``query`` for reaching
2183 the field coming from an '_inherits' parent table (no duplicates).
2185 :param field: name of inherited field to reach
2186 :param query: query object on which the JOIN should be added
2187 :return: qualified name of field, to be used in SELECT clause
2189 current_table = self
2190 parent_alias = '"%s"' % current_table._table
2191 while field in current_table._inherit_fields and not field in current_table._columns:
2192 parent_model_name = current_table._inherit_fields[field][0]
2193 parent_table = self.pool[parent_model_name]
2194 parent_alias = self._inherits_join_add(current_table, parent_model_name, query)
2195 current_table = parent_table
2196 return '%s."%s"' % (parent_alias, field)
2198 def _parent_store_compute(self, cr):
2199 if not self._parent_store:
2201 _logger.info('Computing parent left and right for table %s...', self._table)
2202 def browse_rec(root, pos=0):
2204 where = self._parent_name+'='+str(root)
2206 where = self._parent_name+' IS NULL'
2207 if self._parent_order:
2208 where += ' order by '+self._parent_order
2209 cr.execute('SELECT id FROM '+self._table+' WHERE '+where)
2211 for id in cr.fetchall():
2212 pos2 = browse_rec(id[0], pos2)
2213 cr.execute('update '+self._table+' set parent_left=%s, parent_right=%s where id=%s', (pos, pos2, root))
2215 query = 'SELECT id FROM '+self._table+' WHERE '+self._parent_name+' IS NULL'
2216 if self._parent_order:
2217 query += ' order by ' + self._parent_order
2220 for (root,) in cr.fetchall():
2221 pos = browse_rec(root, pos)
2222 self.invalidate_cache(cr, SUPERUSER_ID, ['parent_left', 'parent_right'])
2225 def _update_store(self, cr, f, k):
2226 _logger.info("storing computed values of fields.function '%s'", k)
2227 ss = self._columns[k]._symbol_set
2228 update_query = 'UPDATE "%s" SET "%s"=%s WHERE id=%%s' % (self._table, k, ss[0])
2229 cr.execute('select id from '+self._table)
2230 ids_lst = map(lambda x: x[0], cr.fetchall())
2232 iids = ids_lst[:AUTOINIT_RECALCULATE_STORED_FIELDS]
2233 ids_lst = ids_lst[AUTOINIT_RECALCULATE_STORED_FIELDS:]
2234 res = f.get(cr, self, iids, k, SUPERUSER_ID, {})
2235 for key, val in res.items():
2238 # if val is a many2one, just write the ID
2239 if type(val) == tuple:
2241 if val is not False:
2242 cr.execute(update_query, (ss[1](val), key))
2244 def _check_selection_field_value(self, cr, uid, field, value, context=None):
2245 """Raise except_orm if value is not among the valid values for the selection field"""
2246 if self._columns[field]._type == 'reference':
2247 val_model, val_id_str = value.split(',', 1)
2250 val_id = long(val_id_str)
2254 raise except_orm(_('ValidateError'),
2255 _('Invalid value for reference field "%s.%s" (last part must be a non-zero integer): "%s"') % (self._table, field, value))
2259 if isinstance(self._columns[field].selection, (tuple, list)):
2260 if val in dict(self._columns[field].selection):
2262 elif val in dict(self._columns[field].selection(self, cr, uid, context=context)):
2264 raise except_orm(_('ValidateError'),
2265 _('The value "%s" for the field "%s.%s" is not in the selection') % (value, self._name, field))
2267 def _check_removed_columns(self, cr, log=False):
2268 # iterate on the database columns to drop the NOT NULL constraints
2269 # of fields which were required but have been removed (or will be added by another module)
2270 columns = [c for c in self._columns if not (isinstance(self._columns[c], fields.function) and not self._columns[c].store)]
2271 columns += MAGIC_COLUMNS
2272 cr.execute("SELECT a.attname, a.attnotnull"
2273 " FROM pg_class c, pg_attribute a"
2274 " WHERE c.relname=%s"
2275 " AND c.oid=a.attrelid"
2276 " AND a.attisdropped=%s"
2277 " AND pg_catalog.format_type(a.atttypid, a.atttypmod) NOT IN ('cid', 'tid', 'oid', 'xid')"
2278 " AND a.attname NOT IN %s", (self._table, False, tuple(columns))),
2280 for column in cr.dictfetchall():
2282 _logger.debug("column %s is in the table %s but not in the corresponding object %s",
2283 column['attname'], self._table, self._name)
2284 if column['attnotnull']:
2285 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" DROP NOT NULL' % (self._table, column['attname']))
2286 _schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
2287 self._table, column['attname'])
2289 def _save_constraint(self, cr, constraint_name, type):
2291 Record the creation of a constraint for this model, to make it possible
2292 to delete it later when the module is uninstalled. Type can be either
2293 'f' or 'u' depending on the constraint being a foreign key or not.
2295 if not self._module:
2296 # no need to save constraints for custom models as they're not part
2299 assert type in ('f', 'u')
2301 SELECT 1 FROM ir_model_constraint, ir_module_module
2302 WHERE ir_model_constraint.module=ir_module_module.id
2303 AND ir_model_constraint.name=%s
2304 AND ir_module_module.name=%s
2305 """, (constraint_name, self._module))
2308 INSERT INTO ir_model_constraint
2309 (name, date_init, date_update, module, model, type)
2310 VALUES (%s, now() AT TIME ZONE 'UTC', now() AT TIME ZONE 'UTC',
2311 (SELECT id FROM ir_module_module WHERE name=%s),
2312 (SELECT id FROM ir_model WHERE model=%s), %s)""",
2313 (constraint_name, self._module, self._name, type))
2315 def _save_relation_table(self, cr, relation_table):
2317 Record the creation of a many2many for this model, to make it possible
2318 to delete it later when the module is uninstalled.
2321 SELECT 1 FROM ir_model_relation, ir_module_module
2322 WHERE ir_model_relation.module=ir_module_module.id
2323 AND ir_model_relation.name=%s
2324 AND ir_module_module.name=%s
2325 """, (relation_table, self._module))
2327 cr.execute("""INSERT INTO ir_model_relation (name, date_init, date_update, module, model)
2328 VALUES (%s, now() AT TIME ZONE 'UTC', now() AT TIME ZONE 'UTC',
2329 (SELECT id FROM ir_module_module WHERE name=%s),
2330 (SELECT id FROM ir_model WHERE model=%s))""",
2331 (relation_table, self._module, self._name))
2332 self.invalidate_cache(cr, SUPERUSER_ID)
2334 # checked version: for direct m2o starting from `self`
2335 def _m2o_add_foreign_key_checked(self, source_field, dest_model, ondelete):
2336 assert self.is_transient() or not dest_model.is_transient(), \
2337 'Many2One relationships from non-transient Model to TransientModel are forbidden'
2338 if self.is_transient() and not dest_model.is_transient():
2339 # TransientModel relationships to regular Models are annoying
2340 # usually because they could block deletion due to the FKs.
2341 # So unless stated otherwise we default them to ondelete=cascade.
2342 ondelete = ondelete or 'cascade'
2343 fk_def = (self._table, source_field, dest_model._table, ondelete or 'set null')
2344 self._foreign_keys.add(fk_def)
2345 _schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s", *fk_def)
2347 # unchecked version: for custom cases, such as m2m relationships
2348 def _m2o_add_foreign_key_unchecked(self, source_table, source_field, dest_model, ondelete):
2349 fk_def = (source_table, source_field, dest_model._table, ondelete or 'set null')
2350 self._foreign_keys.add(fk_def)
2351 _schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s", *fk_def)
2353 def _drop_constraint(self, cr, source_table, constraint_name):
2354 cr.execute("ALTER TABLE %s DROP CONSTRAINT %s" % (source_table,constraint_name))
2356 def _m2o_fix_foreign_key(self, cr, source_table, source_field, dest_model, ondelete):
2357 # Find FK constraint(s) currently established for the m2o field,
2358 # and see whether they are stale or not
2359 cr.execute("""SELECT confdeltype as ondelete_rule, conname as constraint_name,
2360 cl2.relname as foreign_table
2361 FROM pg_constraint as con, pg_class as cl1, pg_class as cl2,
2362 pg_attribute as att1, pg_attribute as att2
2363 WHERE con.conrelid = cl1.oid
2364 AND cl1.relname = %s
2365 AND con.confrelid = cl2.oid
2366 AND array_lower(con.conkey, 1) = 1
2367 AND con.conkey[1] = att1.attnum
2368 AND att1.attrelid = cl1.oid
2369 AND att1.attname = %s
2370 AND array_lower(con.confkey, 1) = 1
2371 AND con.confkey[1] = att2.attnum
2372 AND att2.attrelid = cl2.oid
2373 AND att2.attname = %s
2374 AND con.contype = 'f'""", (source_table, source_field, 'id'))
2375 constraints = cr.dictfetchall()
2377 if len(constraints) == 1:
2378 # Is it the right constraint?
2380 if cons['ondelete_rule'] != POSTGRES_CONFDELTYPES.get((ondelete or 'set null').upper(), 'a')\
2381 or cons['foreign_table'] != dest_model._table:
2382 # Wrong FK: drop it and recreate
2383 _schema.debug("Table '%s': dropping obsolete FK constraint: '%s'",
2384 source_table, cons['constraint_name'])
2385 self._drop_constraint(cr, source_table, cons['constraint_name'])
2387 # it's all good, nothing to do!
2390 # Multiple FKs found for the same field, drop them all, and re-create
2391 for cons in constraints:
2392 _schema.debug("Table '%s': dropping duplicate FK constraints: '%s'",
2393 source_table, cons['constraint_name'])
2394 self._drop_constraint(cr, source_table, cons['constraint_name'])
2396 # (re-)create the FK
2397 self._m2o_add_foreign_key_checked(source_field, dest_model, ondelete)
2400 def _set_default_value_on_column(self, cr, column_name, context=None):
2401 # ideally should use add_default_value but fails
2402 # due to ir.values not being ready
2404 # get old-style default
2405 default = self._defaults.get(column_name)
2406 if callable(default):
2407 default = default(self, cr, SUPERUSER_ID, context)
2409 # get new_style default if no old-style
2411 record = self.new(cr, SUPERUSER_ID, context=context)
2412 field = self._fields[column_name]
2413 field.determine_default(record)
2414 defaults = dict(record._cache)
2415 if column_name in defaults:
2416 default = field.convert_to_write(defaults[column_name])
2418 if default is not None:
2419 _logger.debug("Table '%s': setting default value of new column %s",
2420 self._table, column_name)
2421 ss = self._columns[column_name]._symbol_set
2422 query = 'UPDATE "%s" SET "%s"=%s WHERE "%s" is NULL' % (
2423 self._table, column_name, ss[0], column_name)
2424 cr.execute(query, (ss[1](default),))
2425 # this is a disgrace
2428 def _auto_init(self, cr, context=None):
2431 Call _field_create and, unless _auto is False:
2433 - create the corresponding table in database for the model,
2434 - possibly add the parent columns in database,
2435 - possibly add the columns 'create_uid', 'create_date', 'write_uid',
2436 'write_date' in database if _log_access is True (the default),
2437 - report on database columns no more existing in _columns,
2438 - remove no more existing not null constraints,
2439 - alter existing database columns to match _columns,
2440 - create database tables to match _columns,
2441 - add database indices to match _columns,
2442 - save in self._foreign_keys a list a foreign keys to create (see
2446 self._foreign_keys = set()
2447 raise_on_invalid_object_name(self._name)
2450 store_compute = False
2451 stored_fields = [] # new-style stored fields with compute
2453 update_custom_fields = context.get('update_custom_fields', False)
2454 self._field_create(cr, context=context)
2455 create = not self._table_exist(cr)
2459 self._create_table(cr)
2462 if self._parent_store:
2463 if not self._parent_columns_exist(cr):
2464 self._create_parent_columns(cr)
2465 store_compute = True
2467 self._check_removed_columns(cr, log=False)
2469 # iterate on the "object columns"
2470 column_data = self._select_column_data(cr)
2472 for k, f in self._columns.iteritems():
2473 if k == 'id': # FIXME: maybe id should be a regular column?
2475 # Don't update custom (also called manual) fields
2476 if f.manual and not update_custom_fields:
2479 if isinstance(f, fields.one2many):
2480 self._o2m_raise_on_missing_reference(cr, f)
2482 elif isinstance(f, fields.many2many):
2483 self._m2m_raise_or_create_relation(cr, f)
2486 res = column_data.get(k)
2488 # The field is not found as-is in database, try if it
2489 # exists with an old name.
2490 if not res and hasattr(f, 'oldname'):
2491 res = column_data.get(f.oldname)
2493 cr.execute('ALTER TABLE "%s" RENAME "%s" TO "%s"' % (self._table, f.oldname, k))
2495 column_data[k] = res
2496 _schema.debug("Table '%s': renamed column '%s' to '%s'",
2497 self._table, f.oldname, k)
2499 # The field already exists in database. Possibly
2500 # change its type, rename it, drop it or change its
2503 f_pg_type = res['typname']
2504 f_pg_size = res['size']
2505 f_pg_notnull = res['attnotnull']
2506 if isinstance(f, fields.function) and not f.store and\
2507 not getattr(f, 'nodrop', False):
2508 _logger.info('column %s (%s) converted to a function, removed from table %s',
2509 k, f.string, self._table)
2510 cr.execute('ALTER TABLE "%s" DROP COLUMN "%s" CASCADE' % (self._table, k))
2512 _schema.debug("Table '%s': dropped column '%s' with cascade",
2516 f_obj_type = get_pg_type(f) and get_pg_type(f)[0]
2521 ('text', 'char', pg_varchar(f.size), '::%s' % pg_varchar(f.size)),
2522 ('varchar', 'text', 'TEXT', ''),
2523 ('int4', 'float', get_pg_type(f)[1], '::'+get_pg_type(f)[1]),
2524 ('date', 'datetime', 'TIMESTAMP', '::TIMESTAMP'),
2525 ('timestamp', 'date', 'date', '::date'),
2526 ('numeric', 'float', get_pg_type(f)[1], '::'+get_pg_type(f)[1]),
2527 ('float8', 'float', get_pg_type(f)[1], '::'+get_pg_type(f)[1]),
2529 if f_pg_type == 'varchar' and f._type == 'char' and f_pg_size and (f.size is None or f_pg_size < f.size):
2531 with cr.savepoint():
2532 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" TYPE %s' % (self._table, k, pg_varchar(f.size)))
2533 except psycopg2.NotSupportedError:
2534 # In place alter table cannot be done because a view is depending of this field.
2535 # Do a manual copy. This will drop the view (that will be recreated later)
2536 cr.execute('ALTER TABLE "%s" RENAME COLUMN "%s" TO temp_change_size' % (self._table, k))
2537 cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, pg_varchar(f.size)))
2538 cr.execute('UPDATE "%s" SET "%s"=temp_change_size::%s' % (self._table, k, pg_varchar(f.size)))
2539 cr.execute('ALTER TABLE "%s" DROP COLUMN temp_change_size CASCADE' % (self._table,))
2541 _schema.debug("Table '%s': column '%s' (type varchar) changed size from %s to %s",
2542 self._table, k, f_pg_size or 'unlimited', f.size or 'unlimited')
2544 if (f_pg_type==c[0]) and (f._type==c[1]):
2545 if f_pg_type != f_obj_type:
2547 cr.execute('ALTER TABLE "%s" RENAME COLUMN "%s" TO __temp_type_cast' % (self._table, k))
2548 cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, c[2]))
2549 cr.execute(('UPDATE "%s" SET "%s"= __temp_type_cast'+c[3]) % (self._table, k))
2550 cr.execute('ALTER TABLE "%s" DROP COLUMN __temp_type_cast CASCADE' % (self._table,))
2552 _schema.debug("Table '%s': column '%s' changed type from %s to %s",
2553 self._table, k, c[0], c[1])
2556 if f_pg_type != f_obj_type:
2560 newname = k + '_moved' + str(i)
2561 cr.execute("SELECT count(1) FROM pg_class c,pg_attribute a " \
2562 "WHERE c.relname=%s " \
2563 "AND a.attname=%s " \
2564 "AND c.oid=a.attrelid ", (self._table, newname))
2565 if not cr.fetchone()[0]:
2569 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" DROP NOT NULL' % (self._table, k))
2570 cr.execute('ALTER TABLE "%s" RENAME COLUMN "%s" TO "%s"' % (self._table, k, newname))
2571 cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, get_pg_type(f)[1]))
2572 cr.execute("COMMENT ON COLUMN %s.\"%s\" IS %%s" % (self._table, k), (f.string,))
2573 _schema.debug("Table '%s': column '%s' has changed type (DB=%s, def=%s), data moved to column %s !",
2574 self._table, k, f_pg_type, f._type, newname)
2576 # if the field is required and hasn't got a NOT NULL constraint
2577 if f.required and f_pg_notnull == 0:
2578 self._set_default_value_on_column(cr, k, context=context)
2579 # add the NOT NULL constraint
2581 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" SET NOT NULL' % (self._table, k), log_exceptions=False)
2583 _schema.debug("Table '%s': column '%s': added NOT NULL constraint",
2586 msg = "Table '%s': unable to set a NOT NULL constraint on column '%s' !\n"\
2587 "If you want to have it, you should update the records and execute manually:\n"\
2588 "ALTER TABLE %s ALTER COLUMN %s SET NOT NULL"
2589 _schema.warning(msg, self._table, k, self._table, k)
2591 elif not f.required and f_pg_notnull == 1:
2592 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" DROP NOT NULL' % (self._table, k))
2594 _schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
2597 indexname = '%s_%s_index' % (self._table, k)
2598 cr.execute("SELECT indexname FROM pg_indexes WHERE indexname = %s and tablename = %s", (indexname, self._table))
2599 res2 = cr.dictfetchall()
2600 if not res2 and f.select:
2601 cr.execute('CREATE INDEX "%s_%s_index" ON "%s" ("%s")' % (self._table, k, self._table, k))
2603 if f._type == 'text':
2604 # FIXME: for fields.text columns we should try creating GIN indexes instead (seems most suitable for an ERP context)
2605 msg = "Table '%s': Adding (b-tree) index for %s column '%s'."\
2606 "This is probably useless (does not work for fulltext search) and prevents INSERTs of long texts"\
2607 " because there is a length limit for indexable btree values!\n"\
2608 "Use a search view instead if you simply want to make the field searchable."
2609 _schema.warning(msg, self._table, f._type, k)
2610 if res2 and not f.select:
2611 cr.execute('DROP INDEX "%s_%s_index"' % (self._table, k))
2613 msg = "Table '%s': dropping index for column '%s' of type '%s' as it is not required anymore"
2614 _schema.debug(msg, self._table, k, f._type)
2616 if isinstance(f, fields.many2one) or (isinstance(f, fields.function) and f._type == 'many2one' and f.store):
2617 dest_model = self.pool[f._obj]
2618 if dest_model._table != 'ir_actions':
2619 self._m2o_fix_foreign_key(cr, self._table, k, dest_model, f.ondelete)
2621 # The field doesn't exist in database. Create it if necessary.
2623 if not isinstance(f, fields.function) or f.store:
2624 # add the missing field
2625 cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, get_pg_type(f)[1]))
2626 cr.execute("COMMENT ON COLUMN %s.\"%s\" IS %%s" % (self._table, k), (f.string,))
2627 _schema.debug("Table '%s': added column '%s' with definition=%s",
2628 self._table, k, get_pg_type(f)[1])
2632 self._set_default_value_on_column(cr, k, context=context)
2634 # remember the functions to call for the stored fields
2635 if isinstance(f, fields.function):
2637 if f.store is not True: # i.e. if f.store is a dict
2638 order = f.store[f.store.keys()[0]][2]
2639 todo_end.append((order, self._update_store, (f, k)))
2641 # remember new-style stored fields with compute method
2642 if k in self._fields and self._fields[k].depends:
2643 stored_fields.append(self._fields[k])
2645 # and add constraints if needed
2646 if isinstance(f, fields.many2one) or (isinstance(f, fields.function) and f._type == 'many2one' and f.store):
2647 if f._obj not in self.pool:
2648 raise except_orm('Programming Error', 'There is no reference available for %s' % (f._obj,))
2649 dest_model = self.pool[f._obj]
2650 ref = dest_model._table
2651 # ir_actions is inherited so foreign key doesn't work on it
2652 if ref != 'ir_actions':
2653 self._m2o_add_foreign_key_checked(k, dest_model, f.ondelete)
2655 cr.execute('CREATE INDEX "%s_%s_index" ON "%s" ("%s")' % (self._table, k, self._table, k))
2659 cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" SET NOT NULL' % (self._table, k))
2660 _schema.debug("Table '%s': column '%s': added a NOT NULL constraint",
2663 msg = "WARNING: unable to set column %s of table %s not null !\n"\
2664 "Try to re-run: openerp-server --update=module\n"\
2665 "If it doesn't work, update records and execute manually:\n"\
2666 "ALTER TABLE %s ALTER COLUMN %s SET NOT NULL"
2667 _logger.warning(msg, k, self._table, self._table, k, exc_info=True)
2671 cr.execute("SELECT relname FROM pg_class WHERE relkind IN ('r','v') AND relname=%s", (self._table,))
2672 create = not bool(cr.fetchone())
2674 cr.commit() # start a new transaction
2677 self._add_sql_constraints(cr)
2680 self._execute_sql(cr)
2683 self._parent_store_compute(cr)
2687 # trigger computation of new-style stored fields with a compute
2689 _logger.info("Storing computed values of %s fields %s",
2690 self._name, ', '.join(sorted(f.name for f in stored_fields)))
2691 recs = self.browse(cr, SUPERUSER_ID, [], {'active_test': False})
2692 recs = recs.search([])
2694 map(recs._recompute_todo, stored_fields)
2697 todo_end.append((1000, func, ()))
2701 def _auto_end(self, cr, context=None):
2702 """ Create the foreign keys recorded by _auto_init. """
2703 for t, k, r, d in self._foreign_keys:
2704 cr.execute('ALTER TABLE "%s" ADD FOREIGN KEY ("%s") REFERENCES "%s" ON DELETE %s' % (t, k, r, d))
2705 self._save_constraint(cr, "%s_%s_fkey" % (t, k), 'f')
2707 del self._foreign_keys
2710 def _table_exist(self, cr):
2711 cr.execute("SELECT relname FROM pg_class WHERE relkind IN ('r','v') AND relname=%s", (self._table,))
2715 def _create_table(self, cr):
2716 cr.execute('CREATE TABLE "%s" (id SERIAL NOT NULL, PRIMARY KEY(id))' % (self._table,))
2717 cr.execute(("COMMENT ON TABLE \"%s\" IS %%s" % self._table), (self._description,))
2718 _schema.debug("Table '%s': created", self._table)
2721 def _parent_columns_exist(self, cr):
2722 cr.execute("""SELECT c.relname
2723 FROM pg_class c, pg_attribute a
2724 WHERE c.relname=%s AND a.attname=%s AND c.oid=a.attrelid
2725 """, (self._table, 'parent_left'))
2729 def _create_parent_columns(self, cr):
2730 cr.execute('ALTER TABLE "%s" ADD COLUMN "parent_left" INTEGER' % (self._table,))
2731 cr.execute('ALTER TABLE "%s" ADD COLUMN "parent_right" INTEGER' % (self._table,))
2732 if 'parent_left' not in self._columns:
2733 _logger.error('create a column parent_left on object %s: fields.integer(\'Left Parent\', select=1)',
2735 _schema.debug("Table '%s': added column '%s' with definition=%s",
2736 self._table, 'parent_left', 'INTEGER')
2737 elif not self._columns['parent_left'].select:
2738 _logger.error('parent_left column on object %s must be indexed! Add select=1 to the field definition)',
2740 if 'parent_right' not in self._columns:
2741 _logger.error('create a column parent_right on object %s: fields.integer(\'Right Parent\', select=1)',
2743 _schema.debug("Table '%s': added column '%s' with definition=%s",
2744 self._table, 'parent_right', 'INTEGER')
2745 elif not self._columns['parent_right'].select:
2746 _logger.error('parent_right column on object %s must be indexed! Add select=1 to the field definition)',
2748 if self._columns[self._parent_name].ondelete not in ('cascade', 'restrict'):
2749 _logger.error("The column %s on object %s must be set as ondelete='cascade' or 'restrict'",
2750 self._parent_name, self._name)
2755 def _select_column_data(self, cr):
2756 # attlen is the number of bytes necessary to represent the type when
2757 # the type has a fixed size. If the type has a varying size attlen is
2758 # -1 and atttypmod is the size limit + 4, or -1 if there is no limit.
2759 cr.execute("SELECT c.relname,a.attname,a.attlen,a.atttypmod,a.attnotnull,a.atthasdef,t.typname,CASE WHEN a.attlen=-1 THEN (CASE WHEN a.atttypmod=-1 THEN 0 ELSE a.atttypmod-4 END) ELSE a.attlen END as size " \
2760 "FROM pg_class c,pg_attribute a,pg_type t " \
2761 "WHERE c.relname=%s " \
2762 "AND c.oid=a.attrelid " \
2763 "AND a.atttypid=t.oid", (self._table,))
2764 return dict(map(lambda x: (x['attname'], x),cr.dictfetchall()))
2767 def _o2m_raise_on_missing_reference(self, cr, f):
2768 # TODO this check should be a method on fields.one2many.
2769 if f._obj in self.pool:
2770 other = self.pool[f._obj]
2771 # TODO the condition could use fields_get_keys().
2772 if f._fields_id not in other._columns.keys():
2773 if f._fields_id not in other._inherit_fields.keys():
2774 raise except_orm('Programming Error', "There is no reference field '%s' found for '%s'" % (f._fields_id, f._obj,))
2776 def _m2m_raise_or_create_relation(self, cr, f):
2777 m2m_tbl, col1, col2 = f._sql_names(self)
2778 # do not create relations for custom fields as they do not belong to a module
2779 # they will be automatically removed when dropping the corresponding ir.model.field
2780 if not f.string.startswith('x_'):
2781 self._save_relation_table(cr, m2m_tbl)
2782 cr.execute("SELECT relname FROM pg_class WHERE relkind IN ('r','v') AND relname=%s", (m2m_tbl,))
2783 if not cr.dictfetchall():
2784 if f._obj not in self.pool:
2785 raise except_orm('Programming Error', 'Many2Many destination model does not exist: `%s`' % (f._obj,))
2786 dest_model = self.pool[f._obj]
2787 ref = dest_model._table
2788 cr.execute('CREATE TABLE "%s" ("%s" INTEGER NOT NULL, "%s" INTEGER NOT NULL, UNIQUE("%s","%s"))' % (m2m_tbl, col1, col2, col1, col2))
2789 # create foreign key references with ondelete=cascade, unless the targets are SQL views
2790 cr.execute("SELECT relkind FROM pg_class WHERE relkind IN ('v') AND relname=%s", (ref,))
2791 if not cr.fetchall():
2792 self._m2o_add_foreign_key_unchecked(m2m_tbl, col2, dest_model, 'cascade')
2793 cr.execute("SELECT relkind FROM pg_class WHERE relkind IN ('v') AND relname=%s", (self._table,))
2794 if not cr.fetchall():
2795 self._m2o_add_foreign_key_unchecked(m2m_tbl, col1, self, 'cascade')
2797 cr.execute('CREATE INDEX "%s_%s_index" ON "%s" ("%s")' % (m2m_tbl, col1, m2m_tbl, col1))
2798 cr.execute('CREATE INDEX "%s_%s_index" ON "%s" ("%s")' % (m2m_tbl, col2, m2m_tbl, col2))
2799 cr.execute("COMMENT ON TABLE \"%s\" IS 'RELATION BETWEEN %s AND %s'" % (m2m_tbl, self._table, ref))
2801 _schema.debug("Create table '%s': m2m relation between '%s' and '%s'", m2m_tbl, self._table, ref)
2804 def _add_sql_constraints(self, cr):
2807 Modify this model's database table constraints so they match the one in
2811 def unify_cons_text(txt):
2812 return txt.lower().replace(', ',',').replace(' (','(')
2814 for (key, con, _) in self._sql_constraints:
2815 conname = '%s_%s' % (self._table, key)
2817 self._save_constraint(cr, conname, 'u')
2818 cr.execute("SELECT conname, pg_catalog.pg_get_constraintdef(oid, true) as condef FROM pg_constraint where conname=%s", (conname,))
2819 existing_constraints = cr.dictfetchall()
2823 'query': 'ALTER TABLE "%s" DROP CONSTRAINT "%s"' % (self._table, conname, ),
2824 'msg_ok': "Table '%s': dropped constraint '%s'. Reason: its definition changed from '%%s' to '%s'" % (
2825 self._table, conname, con),
2826 'msg_err': "Table '%s': unable to drop \'%s\' constraint !" % (self._table, con),
2831 'query': 'ALTER TABLE "%s" ADD CONSTRAINT "%s" %s' % (self._table, conname, con,),
2832 'msg_ok': "Table '%s': added constraint '%s' with definition=%s" % (self._table, conname, con),
2833 'msg_err': "Table '%s': unable to add \'%s\' constraint !\n If you want to have it, you should update the records and execute manually:\n%%s" % (
2839 if not existing_constraints:
2840 # constraint does not exists:
2841 sql_actions['add']['execute'] = True
2842 sql_actions['add']['msg_err'] = sql_actions['add']['msg_err'] % (sql_actions['add']['query'], )
2843 elif unify_cons_text(con) not in [unify_cons_text(item['condef']) for item in existing_constraints]:
2844 # constraint exists but its definition has changed:
2845 sql_actions['drop']['execute'] = True
2846 sql_actions['drop']['msg_ok'] = sql_actions['drop']['msg_ok'] % (existing_constraints[0]['condef'].lower(), )
2847 sql_actions['add']['execute'] = True
2848 sql_actions['add']['msg_err'] = sql_actions['add']['msg_err'] % (sql_actions['add']['query'], )
2850 # we need to add the constraint:
2851 sql_actions = [item for item in sql_actions.values()]
2852 sql_actions.sort(key=lambda x: x['order'])
2853 for sql_action in [action for action in sql_actions if action['execute']]:
2855 cr.execute(sql_action['query'])
2857 _schema.debug(sql_action['msg_ok'])
2859 _schema.warning(sql_action['msg_err'])
2863 def _execute_sql(self, cr):
2864 """ Execute the SQL code from the _sql attribute (if any)."""
2865 if hasattr(self, "_sql"):
2866 for line in self._sql.split(';'):
2867 line2 = line.replace('\n', '').strip()
2873 # Update objects that uses this one to update their _inherits fields
2877 def _inherits_reload_src(cls):
2878 """ Recompute the _inherit_fields mapping on each _inherits'd child model."""
2879 for model in cls.pool.values():
2880 if cls._name in model._inherits:
2881 model._inherits_reload()
2884 def _inherits_reload(cls):
2885 """ Recompute the _inherit_fields mapping.
2887 This will also call itself on each inherits'd child model.
2891 for table in cls._inherits:
2892 other = cls.pool[table]
2893 for col in other._columns.keys():
2894 res[col] = (table, cls._inherits[table], other._columns[col], table)
2895 for col in other._inherit_fields.keys():
2896 res[col] = (table, cls._inherits[table], other._inherit_fields[col][2], other._inherit_fields[col][3])
2897 cls._inherit_fields = res
2898 cls._all_columns = cls._get_column_infos()
2900 # interface columns with new-style fields
2901 for attr, column in cls._columns.items():
2902 if attr not in cls._fields:
2903 cls._add_field(attr, column.to_field())
2905 # interface inherited fields with new-style fields (note that the
2906 # reverse order is for being consistent with _all_columns above)
2907 for parent_model, parent_field in reversed(cls._inherits.items()):
2908 for attr, field in cls.pool[parent_model]._fields.iteritems():
2909 if attr not in cls._fields:
2910 new_field = field.copy(related=(parent_field, attr), _origin=field)
2911 cls._add_field(attr, new_field)
2913 cls._inherits_reload_src()
2916 def _get_column_infos(cls):
2917 """Returns a dict mapping all fields names (direct fields and
2918 inherited field via _inherits) to a ``column_info`` struct
2919 giving detailed columns """
2921 # do not inverse for loops, since local fields may hide inherited ones!
2922 for k, (parent, m2o, col, original_parent) in cls._inherit_fields.iteritems():
2923 result[k] = fields.column_info(k, col, parent, m2o, original_parent)
2924 for k, col in cls._columns.iteritems():
2925 result[k] = fields.column_info(k, col)
2929 def _inherits_check(cls):
2930 for table, field_name in cls._inherits.items():
2931 if field_name not in cls._columns:
2932 _logger.info('Missing many2one field definition for _inherits reference "%s" in "%s", using default one.', field_name, cls._name)
2933 cls._columns[field_name] = fields.many2one(table, string="Automatically created field to link to parent %s" % table,
2934 required=True, ondelete="cascade")
2935 elif not cls._columns[field_name].required or cls._columns[field_name].ondelete.lower() not in ("cascade", "restrict"):
2936 _logger.warning('Field definition for _inherits reference "%s" in "%s" must be marked as "required" with ondelete="cascade" or "restrict", forcing it to required + cascade.', field_name, cls._name)
2937 cls._columns[field_name].required = True
2938 cls._columns[field_name].ondelete = "cascade"
2940 # reflect fields with delegate=True in dictionary cls._inherits
2941 for field in cls._fields.itervalues():
2942 if field.type == 'many2one' and not field.related and field.delegate:
2943 if not field.required:
2944 _logger.warning("Field %s with delegate=True must be required.", field)
2945 field.required = True
2946 if field.ondelete.lower() not in ('cascade', 'restrict'):
2947 field.ondelete = 'cascade'
2948 cls._inherits[field.comodel_name] = field.name
2951 def _prepare_setup_fields(self):
2952 """ Prepare the setup of fields once the models have been loaded. """
2953 for field in self._fields.itervalues():
2957 def _setup_fields(self):
2958 """ Setup the fields (dependency triggers, etc). """
2959 for field in self._fields.itervalues():
2960 field.setup(self.env)
2962 # group fields by compute to determine field.computed_fields
2963 fields_by_compute = defaultdict(list)
2964 for field in self._fields.itervalues():
2966 field.computed_fields = fields_by_compute[field.compute]
2967 field.computed_fields.append(field)
2969 field.computed_fields = []
2971 def fields_get(self, cr, user, allfields=None, context=None, write_access=True):
2972 """ Return the definition of each field.
2974 The returned value is a dictionary (indiced by field name) of
2975 dictionaries. The _inherits'd fields are included. The string, help,
2976 and selection (if present) attributes are translated.
2978 :param cr: database cursor
2979 :param user: current user id
2980 :param allfields: list of fields
2981 :param context: context arguments, like lang, time zone
2982 :return: dictionary of field dictionaries, each one describing a field of the business object
2983 :raise AccessError: * if user has no create/write rights on the requested object
2986 recs = self.browse(cr, user, [], context)
2989 for fname, field in self._fields.iteritems():
2990 if allfields and fname not in allfields:
2992 if field.groups and not recs.user_has_groups(field.groups):
2994 res[fname] = field.get_description(recs.env)
2996 # if user cannot create or modify records, make all fields readonly
2997 has_access = functools.partial(recs.check_access_rights, raise_exception=False)
2998 if not (has_access('write') or has_access('create')):
2999 for description in res.itervalues():
3000 description['readonly'] = True
3001 description['states'] = {}
3005 def get_empty_list_help(self, cr, user, help, context=None):
3006 """ Generic method giving the help message displayed when having
3007 no result to display in a list or kanban view. By default it returns
3008 the help given in parameter that is generally the help message
3009 defined in the action.
3013 def check_field_access_rights(self, cr, user, operation, fields, context=None):
3015 Check the user access rights on the given fields. This raises Access
3016 Denied if the user does not have the rights. Otherwise it returns the
3017 fields (as is if the fields is not falsy, or the readable/writable
3018 fields if fields is falsy).
3020 if user == SUPERUSER_ID:
3021 return fields or list(self._fields)
3024 """ determine whether user has access to field `fname` """
3025 field = self._fields.get(fname)
3026 if field and field.groups:
3027 return self.user_has_groups(cr, user, groups=field.groups, context=context)
3032 fields = filter(valid, self._fields)
3034 invalid_fields = set(filter(lambda name: not valid(name), fields))
3036 _logger.warning('Access Denied by ACLs for operation: %s, uid: %s, model: %s, fields: %s',
3037 operation, user, self._name, ', '.join(invalid_fields))
3039 _('The requested operation cannot be completed due to security restrictions. '
3040 'Please contact your system administrator.\n\n(Document type: %s, Operation: %s)') % \
3041 (self._description, operation))
3045 # new-style implementation of read(); old-style is defined below
3047 def read(self, fields=None, load='_classic_read'):
3048 """ Read the given fields for the records in `self`.
3050 :param fields: optional list of field names to return (default is
3052 :param load: deprecated, this argument is ignored
3053 :return: a list of dictionaries mapping field names to their values,
3054 with one dictionary per record
3055 :raise AccessError: if user has no read rights on some of the given
3058 # check access rights
3059 self.check_access_rights('read')
3060 fields = self.check_field_access_rights('read', fields)
3062 # split fields into stored and computed fields
3063 stored, computed = [], []
3065 if name in self._columns:
3067 elif name in self._fields:
3068 computed.append(name)
3070 _logger.warning("%s.read() with unknown field '%s'", self._name, name)
3072 # fetch stored fields from the database to the cache
3073 self._read_from_database(stored)
3075 # retrieve results from records; this takes values from the cache and
3076 # computes remaining fields
3078 name_fields = [(name, self._fields[name]) for name in (stored + computed)]
3079 use_name_get = (load == '_classic_read')
3082 values = {'id': record.id}
3083 for name, field in name_fields:
3084 values[name] = field.convert_to_read(record[name], use_name_get)
3085 result.append(values)
3086 except MissingError:
3091 # add explicit old-style implementation to read()
3093 def read(self, cr, user, ids, fields=None, context=None, load='_classic_read'):
3094 records = self.browse(cr, user, ids, context)
3095 result = BaseModel.read(records, fields, load=load)
3096 return result if isinstance(ids, list) else (bool(result) and result[0])
3099 def _prefetch_field(self, field):
3100 """ Read from the database in order to fetch `field` (:class:`Field`
3101 instance) for `self` in cache.
3103 # fetch the records of this model without field_name in their cache
3106 # by default, simply fetch field
3107 fnames = {field.name}
3110 # columns may be missing from database, do not prefetch other fields
3112 elif self.env.in_draft:
3113 # we may be doing an onchange, do not prefetch other fields
3115 elif field in self.env.todo:
3116 # field must be recomputed, do not prefetch records to recompute
3117 records -= self.env.todo[field]
3118 elif self._columns[field.name]._prefetch:
3119 # here we can optimize: prefetch all classic and many2one fields
3121 for fname, fcolumn in self._columns.iteritems()
3122 if fcolumn._prefetch)
3124 # fetch records with read()
3125 assert self in records and field.name in fnames
3127 result = records.read(list(fnames), load='_classic_write')
3128 except AccessError as e:
3129 # update cache with the exception
3130 records._cache[field] = FailedValue(e)
3133 # check the cache, and update it if necessary
3134 if field not in self._cache:
3135 for values in result:
3136 record = self.browse(values.pop('id'))
3137 record._cache.update(record._convert_to_cache(values))
3138 if field not in self._cache:
3139 e = AccessError("No value found for %s.%s" % (self, field.name))
3140 self._cache[field] = FailedValue(e)
3143 def _read_from_database(self, field_names):
3144 """ Read the given fields of the records in `self` from the database,
3145 and store them in cache. Access errors are also stored in cache.
3148 cr, user, context = env.args
3150 # Construct a clause for the security rules.
3151 # 'tables' holds the list of tables necessary for the SELECT, including
3152 # the ir.rule clauses, and contains at least self._table.
3153 rule_clause, rule_params, tables = env['ir.rule'].domain_get(self._name, 'read')
3155 # determine the fields that are stored as columns in self._table
3156 fields_pre = [f for f in field_names if self._columns[f]._classic_write]
3158 # we need fully-qualified column names in case len(tables) > 1
3160 if isinstance(self._columns.get(f), fields.binary) and \
3161 context.get('bin_size_%s' % f, context.get('bin_size')):
3162 # PG 9.2 introduces conflicting pg_size_pretty(numeric) -> need ::cast
3163 return 'pg_size_pretty(length(%s."%s")::bigint) as "%s"' % (self._table, f, f)
3165 return '%s."%s"' % (self._table, f)
3166 qual_names = map(qualify, set(fields_pre + ['id']))
3168 query = """ SELECT %(qual_names)s FROM %(tables)s
3169 WHERE %(table)s.id IN %%s AND (%(extra)s)
3172 'qual_names': ",".join(qual_names),
3173 'tables': ",".join(tables),
3174 'table': self._table,
3175 'extra': " OR ".join(rule_clause) if rule_clause else "TRUE",
3176 'order': self._parent_order or self._order,
3179 empty = self.browse()
3180 records = self.browse(set(itertools.chain.from_iterable(
3181 (self._in_cache_without(field) - self.env.todo.get(field, empty)).ids
3182 for field in (self._fields[name] for name in field_names)
3186 for sub_ids in cr.split_for_in_conditions(records.ids):
3187 cr.execute(query, [tuple(sub_ids)] + rule_params)
3188 result.extend(cr.dictfetchall())
3190 ids = [vals['id'] for vals in result]
3193 # translate the fields if necessary
3194 if context.get('lang'):
3195 ir_translation = env['ir.translation']
3196 for f in fields_pre:
3197 if self._columns[f].translate:
3198 #TODO: optimize out of this loop
3199 res_trans = ir_translation._get_ids(
3200 '%s,%s' % (self._name, f), 'model', context['lang'], ids)
3202 vals[f] = res_trans.get(vals['id'], False) or vals[f]
3204 # apply the symbol_get functions of the fields we just read
3205 for f in fields_pre:
3206 symbol_get = self._columns[f]._symbol_get
3209 vals[f] = symbol_get(vals[f])
3211 # store result in cache for POST fields
3213 record = self.browse(vals['id'])
3214 record._cache.update(record._convert_to_cache(vals))
3216 # determine the fields that must be processed now
3217 fields_post = [f for f in field_names if not self._columns[f]._classic_write]
3219 # Compute POST fields, grouped by multi
3220 by_multi = defaultdict(list)
3221 for f in fields_post:
3222 by_multi[self._columns[f]._multi].append(f)
3224 for multi, fs in by_multi.iteritems():
3226 res2 = self._columns[fs[0]].get(cr, self._model, ids, fs, user, context=context, values=result)
3227 assert res2 is not None, \
3228 'The function field "%s" on the "%s" model returned None\n' \
3229 '(a dictionary was expected).' % (fs[0], self._name)
3231 # TOCHECK : why got string instend of dict in python2.6
3232 # if isinstance(res2[vals['id']], str): res2[vals['id']] = eval(res2[vals['id']])
3233 multi_fields = res2.get(vals['id'], {})
3236 vals[f] = multi_fields.get(f, [])
3239 res2 = self._columns[f].get(cr, self._model, ids, f, user, context=context, values=result)
3242 vals[f] = res2[vals['id']]
3246 # Warn about deprecated fields now that fields_pre and fields_post are computed
3247 for f in field_names:
3248 column = self._columns[f]
3249 if column.deprecated:
3250 _logger.warning('Field %s.%s is deprecated: %s', self._name, f, column.deprecated)
3252 # store result in cache
3254 record = self.browse(vals.pop('id'))
3255 record._cache.update(record._convert_to_cache(vals))
3257 # store failed values in cache for the records that could not be read
3258 fetched = self.browse(ids)
3259 missing = records - fetched
3261 extras = fetched - records
3264 _("Database fetch misses ids ({}) and has extra ids ({}), may be caused by a type incoherence in a previous request").format(
3265 ', '.join(map(repr, missing._ids)),
3266 ', '.join(map(repr, extras._ids)),
3268 # store an access error exception in existing records
3270 _('The requested operation cannot be completed due to security restrictions. Please contact your system administrator.\n\n(Document type: %s, Operation: %s)') % \
3271 (self._name, 'read')
3273 forbidden = missing.exists()
3274 forbidden._cache.update(FailedValue(exc))
3275 # store a missing error exception in non-existing records
3277 _('One of the documents you are trying to access has been deleted, please try again after refreshing.')
3279 (missing - forbidden)._cache.update(FailedValue(exc))
3282 def get_metadata(self):
3284 Returns some metadata about the given records.
3286 :return: list of ownership dictionaries for each requested record
3287 :rtype: list of dictionaries with the following keys:
3290 * create_uid: user who created the record
3291 * create_date: date when the record was created
3292 * write_uid: last user who changed the record
3293 * write_date: date of the last change to the record
3294 * xmlid: XML ID to use to refer to this record (if there is one), in format ``module.name``
3297 if self._log_access:
3298 fields += ['create_uid', 'create_date', 'write_uid', 'write_date']
3299 quoted_table = '"%s"' % self._table
3300 fields_str = ",".join('%s.%s' % (quoted_table, field) for field in fields)
3301 query = '''SELECT %s, __imd.module, __imd.name
3302 FROM %s LEFT JOIN ir_model_data __imd
3303 ON (__imd.model = %%s and __imd.res_id = %s.id)
3304 WHERE %s.id IN %%s''' % (fields_str, quoted_table, quoted_table, quoted_table)
3305 self._cr.execute(query, (self._name, tuple(self.ids)))
3306 res = self._cr.dictfetchall()
3308 uids = set(r[k] for r in res for k in ['write_uid', 'create_uid'] if r.get(k))
3309 names = dict(self.env['res.users'].browse(uids).name_get())
3313 value = r[key] = r[key] or False
3314 if key in ('write_uid', 'create_uid') and value in names:
3315 r[key] = (value, names[value])
3316 r['xmlid'] = ("%(module)s.%(name)s" % r) if r['name'] else False
3317 del r['name'], r['module']
3320 def _check_concurrency(self, cr, ids, context):
3323 if not (context.get(self.CONCURRENCY_CHECK_FIELD) and self._log_access):
3325 check_clause = "(id = %s AND %s < COALESCE(write_date, create_date, (now() at time zone 'UTC'))::timestamp)"
3326 for sub_ids in cr.split_for_in_conditions(ids):
3329 id_ref = "%s,%s" % (self._name, id)
3330 update_date = context[self.CONCURRENCY_CHECK_FIELD].pop(id_ref, None)
3332 ids_to_check.extend([id, update_date])
3333 if not ids_to_check:
3335 cr.execute("SELECT id FROM %s WHERE %s" % (self._table, " OR ".join([check_clause]*(len(ids_to_check)/2))), tuple(ids_to_check))
3338 # mention the first one only to keep the error message readable
3339 raise except_orm('ConcurrencyException', _('A document was modified since you last viewed it (%s:%d)') % (self._description, res[0]))
3341 def _check_record_rules_result_count(self, cr, uid, ids, result_ids, operation, context=None):
3342 """Verify the returned rows after applying record rules matches
3343 the length of `ids`, and raise an appropriate exception if it does not.
3347 ids, result_ids = set(ids), set(result_ids)
3348 missing_ids = ids - result_ids
3350 # Attempt to distinguish record rule restriction vs deleted records,
3351 # to provide a more specific error message - check if the missinf
3352 cr.execute('SELECT id FROM ' + self._table + ' WHERE id IN %s', (tuple(missing_ids),))
3353 forbidden_ids = [x[0] for x in cr.fetchall()]
3355 # the missing ids are (at least partially) hidden by access rules
3356 if uid == SUPERUSER_ID:
3358 _logger.warning('Access Denied by record rules for operation: %s on record ids: %r, uid: %s, model: %s', operation, forbidden_ids, uid, self._name)
3359 raise except_orm(_('Access Denied'),
3360 _('The requested operation cannot be completed due to security restrictions. Please contact your system administrator.\n\n(Document type: %s, Operation: %s)') % \
3361 (self._description, operation))
3363 # If we get here, the missing_ids are not in the database
3364 if operation in ('read','unlink'):
3365 # No need to warn about deleting an already deleted record.
3366 # And no error when reading a record that was deleted, to prevent spurious
3367 # errors for non-transactional search/read sequences coming from clients
3369 _logger.warning('Failed operation on deleted record(s): %s, uid: %s, model: %s', operation, uid, self._name)
3370 raise except_orm(_('Missing document(s)'),
3371 _('One of the documents you are trying to access has been deleted, please try again after refreshing.'))
3374 def check_access_rights(self, cr, uid, operation, raise_exception=True): # no context on purpose.
3375 """Verifies that the operation given by ``operation`` is allowed for the user
3376 according to the access rights."""
3377 return self.pool.get('ir.model.access').check(cr, uid, self._name, operation, raise_exception)
3379 def check_access_rule(self, cr, uid, ids, operation, context=None):
3380 """Verifies that the operation given by ``operation`` is allowed for the user
3381 according to ir.rules.
3383 :param operation: one of ``write``, ``unlink``
3384 :raise except_orm: * if current ir.rules do not permit this operation.
3385 :return: None if the operation is allowed
3387 if uid == SUPERUSER_ID:
3390 if self.is_transient():
3391 # Only one single implicit access rule for transient models: owner only!
3392 # This is ok to hardcode because we assert that TransientModels always
3393 # have log_access enabled so that the create_uid column is always there.
3394 # And even with _inherits, these fields are always present in the local
3395 # table too, so no need for JOINs.
3396 cr.execute("""SELECT distinct create_uid
3398 WHERE id IN %%s""" % self._table, (tuple(ids),))
3399 uids = [x[0] for x in cr.fetchall()]
3400 if len(uids) != 1 or uids[0] != uid:
3401 raise except_orm(_('Access Denied'),
3402 _('For this kind of document, you may only access records you created yourself.\n\n(Document type: %s)') % (self._description,))
3404 where_clause, where_params, tables = self.pool.get('ir.rule').domain_get(cr, uid, self._name, operation, context=context)
3406 where_clause = ' and ' + ' and '.join(where_clause)
3407 for sub_ids in cr.split_for_in_conditions(ids):
3408 cr.execute('SELECT ' + self._table + '.id FROM ' + ','.join(tables) +
3409 ' WHERE ' + self._table + '.id IN %s' + where_clause,
3410 [sub_ids] + where_params)
3411 returned_ids = [x['id'] for x in cr.dictfetchall()]
3412 self._check_record_rules_result_count(cr, uid, sub_ids, returned_ids, operation, context=context)
3414 def create_workflow(self, cr, uid, ids, context=None):
3415 """Create a workflow instance for each given record IDs."""
3416 from openerp import workflow
3418 workflow.trg_create(uid, self._name, res_id, cr)
3419 # self.invalidate_cache(cr, uid, context=context) ?
3422 def delete_workflow(self, cr, uid, ids, context=None):
3423 """Delete the workflow instances bound to the given record IDs."""
3424 from openerp import workflow
3426 workflow.trg_delete(uid, self._name, res_id, cr)
3427 self.invalidate_cache(cr, uid, context=context)
3430 def step_workflow(self, cr, uid, ids, context=None):
3431 """Reevaluate the workflow instances of the given record IDs."""
3432 from openerp import workflow
3434 workflow.trg_write(uid, self._name, res_id, cr)
3435 # self.invalidate_cache(cr, uid, context=context) ?
3438 def signal_workflow(self, cr, uid, ids, signal, context=None):
3439 """Send given workflow signal and return a dict mapping ids to workflow results"""
3440 from openerp import workflow
3443 result[res_id] = workflow.trg_validate(uid, self._name, res_id, signal, cr)
3444 # self.invalidate_cache(cr, uid, context=context) ?
3447 def redirect_workflow(self, cr, uid, old_new_ids, context=None):
3448 """ Rebind the workflow instance bound to the given 'old' record IDs to
3449 the given 'new' IDs. (``old_new_ids`` is a list of pairs ``(old, new)``.
3451 from openerp import workflow
3452 for old_id, new_id in old_new_ids:
3453 workflow.trg_redirect(uid, self._name, old_id, new_id, cr)
3454 self.invalidate_cache(cr, uid, context=context)
3457 def unlink(self, cr, uid, ids, context=None):
3459 Delete records with given ids
3461 :param cr: database cursor
3462 :param uid: current user id
3463 :param ids: id or list of ids
3464 :param context: (optional) context arguments, like lang, time zone
3466 :raise AccessError: * if user has no unlink rights on the requested object
3467 * if user tries to bypass access rules for unlink on the requested object
3468 :raise UserError: if the record is default property for other records
3473 if isinstance(ids, (int, long)):
3476 result_store = self._store_get_values(cr, uid, ids, self._all_columns.keys(), context)
3478 # for recomputing new-style fields
3479 recs = self.browse(cr, uid, ids, context)
3480 recs.modified(self._fields)
3482 self._check_concurrency(cr, ids, context)
3484 self.check_access_rights(cr, uid, 'unlink')
3486 ir_property = self.pool.get('ir.property')
3488 # Check if the records are used as default properties.
3489 domain = [('res_id', '=', False),
3490 ('value_reference', 'in', ['%s,%s' % (self._name, i) for i in ids]),
3492 if ir_property.search(cr, uid, domain, context=context):
3493 raise except_orm(_('Error'), _('Unable to delete this document because it is used as a default property'))
3495 # Delete the records' properties.
3496 property_ids = ir_property.search(cr, uid, [('res_id', 'in', ['%s,%s' % (self._name, i) for i in ids])], context=context)
3497 ir_property.unlink(cr, uid, property_ids, context=context)
3499 self.delete_workflow(cr, uid, ids, context=context)
3501 self.check_access_rule(cr, uid, ids, 'unlink', context=context)
3502 pool_model_data = self.pool.get('ir.model.data')
3503 ir_values_obj = self.pool.get('ir.values')
3504 for sub_ids in cr.split_for_in_conditions(ids):
3505 cr.execute('delete from ' + self._table + ' ' \
3506 'where id IN %s', (sub_ids,))
3508 # Removing the ir_model_data reference if the record being deleted is a record created by xml/csv file,
3509 # as these are not connected with real database foreign keys, and would be dangling references.
3510 # Note: following steps performed as admin to avoid access rights restrictions, and with no context
3511 # to avoid possible side-effects during admin calls.
3512 # Step 1. Calling unlink of ir_model_data only for the affected IDS
3513 reference_ids = pool_model_data.search(cr, SUPERUSER_ID, [('res_id','in',list(sub_ids)),('model','=',self._name)])
3514 # Step 2. Marching towards the real deletion of referenced records
3516 pool_model_data.unlink(cr, SUPERUSER_ID, reference_ids)
3518 # For the same reason, removing the record relevant to ir_values
3519 ir_value_ids = ir_values_obj.search(cr, uid,
3520 ['|',('value','in',['%s,%s' % (self._name, sid) for sid in sub_ids]),'&',('res_id','in',list(sub_ids)),('model','=',self._name)],
3523 ir_values_obj.unlink(cr, uid, ir_value_ids, context=context)
3525 # invalidate the *whole* cache, since the orm does not handle all
3526 # changes made in the database, like cascading delete!
3527 recs.invalidate_cache()
3529 for order, obj_name, store_ids, fields in result_store:
3530 if obj_name == self._name:
3531 effective_store_ids = set(store_ids) - set(ids)
3533 effective_store_ids = store_ids
3534 if effective_store_ids:
3535 obj = self.pool[obj_name]
3536 cr.execute('select id from '+obj._table+' where id IN %s', (tuple(effective_store_ids),))
3537 rids = map(lambda x: x[0], cr.fetchall())
3539 obj._store_set_values(cr, uid, rids, fields, context)
3541 # recompute new-style fields
3550 def write(self, vals):
3552 Update records in `self` with the given field values.
3554 :param vals: field values to update, e.g {'field_name': new_field_value, ...}
3555 :type vals: dictionary
3557 :raise AccessError: * if user has no write rights on the requested object
3558 * if user tries to bypass access rules for write on the requested object
3559 :raise ValidateError: if user tries to enter invalid value for a field that is not in selection
3560 :raise UserError: if a loop would be created in a hierarchy of objects a result of the operation (such as setting an object as its own parent)
3562 **Note**: The type of field values to pass in ``vals`` for relationship fields is specific:
3564 + For a many2many field, a list of tuples is expected.
3565 Here is the list of tuple that are accepted, with the corresponding semantics ::
3567 (0, 0, { values }) link to a new record that needs to be created with the given values dictionary
3568 (1, ID, { values }) update the linked record with id = ID (write *values* on it)
3569 (2, ID) remove and delete the linked record with id = ID (calls unlink on ID, that will delete the object completely, and the link to it as well)
3570 (3, ID) cut the link to the linked record with id = ID (delete the relationship between the two objects but does not delete the target object itself)
3571 (4, ID) link to existing record with id = ID (adds a relationship)
3572 (5) unlink all (like using (3,ID) for all linked records)
3573 (6, 0, [IDs]) replace the list of linked IDs (like using (5) then (4,ID) for each ID in the list of IDs)
3576 [(6, 0, [8, 5, 6, 4])] sets the many2many to ids [8, 5, 6, 4]
3578 + For a one2many field, a lits of tuples is expected.
3579 Here is the list of tuple that are accepted, with the corresponding semantics ::
3581 (0, 0, { values }) link to a new record that needs to be created with the given values dictionary
3582 (1, ID, { values }) update the linked record with id = ID (write *values* on it)
3583 (2, ID) remove and delete the linked record with id = ID (calls unlink on ID, that will delete the object completely, and the link to it as well)
3586 [(0, 0, {'field_name':field_value_record1, ...}), (0, 0, {'field_name':field_value_record2, ...})]
3588 + For a many2one field, simply use the ID of target record, which must already exist, or ``False`` to remove the link.
3589 + For a reference field, use a string with the model name, a comma, and the target object id (example: ``'product.product, 5'``)
3595 cr, uid, context = self.env.args
3596 self._check_concurrency(self._ids)
3597 self.check_access_rights('write')
3599 # No user-driven update of these columns
3600 for field in itertools.chain(MAGIC_COLUMNS, ('parent_left', 'parent_right')):
3601 vals.pop(field, None)
3603 # split up fields into old-style and pure new-style ones
3604 old_vals, new_vals, unknown = {}, {}, []
3605 for key, val in vals.iteritems():
3606 if key in self._columns:
3608 elif key in self._fields:
3614 _logger.warning("%s.write() with unknown fields: %s", self._name, ', '.join(sorted(unknown)))
3616 # write old-style fields with (low-level) method _write
3618 self._write(old_vals)
3620 # put the values of pure new-style fields into cache, and inverse them
3622 self._cache.update(self._convert_to_cache(new_vals))
3623 for key in new_vals:
3624 self._fields[key].determine_inverse(self)
3628 def _write(self, cr, user, ids, vals, context=None):
3629 # low-level implementation of write()
3634 self.check_field_access_rights(cr, user, 'write', vals.keys())
3635 for field in vals.keys():
3637 if field in self._columns:
3638 fobj = self._columns[field]
3639 elif field in self._inherit_fields:
3640 fobj = self._inherit_fields[field][2]
3647 for group in groups:
3648 module = group.split(".")[0]
3649 grp = group.split(".")[1]
3650 cr.execute("select count(*) from res_groups_users_rel where gid IN (select res_id from ir_model_data where name=%s and module=%s and model=%s) and uid=%s", \
3651 (grp, module, 'res.groups', user))
3652 readonly = cr.fetchall()
3653 if readonly[0][0] >= 1:
3660 result = self._store_get_values(cr, user, ids, vals.keys(), context) or []
3662 # for recomputing new-style fields
3663 recs = self.browse(cr, user, ids, context)
3664 modified_fields = list(vals)
3665 if self._log_access:
3666 modified_fields += ['write_date', 'write_uid']
3667 recs.modified(modified_fields)
3669 parents_changed = []
3670 parent_order = self._parent_order or self._order
3671 if self._parent_store and (self._parent_name in vals) and not context.get('defer_parent_store_computation'):
3672 # The parent_left/right computation may take up to
3673 # 5 seconds. No need to recompute the values if the
3674 # parent is the same.
3675 # Note: to respect parent_order, nodes must be processed in
3676 # order, so ``parents_changed`` must be ordered properly.
3677 parent_val = vals[self._parent_name]
3679 query = "SELECT id FROM %s WHERE id IN %%s AND (%s != %%s OR %s IS NULL) ORDER BY %s" % \
3680 (self._table, self._parent_name, self._parent_name, parent_order)
3681 cr.execute(query, (tuple(ids), parent_val))
3683 query = "SELECT id FROM %s WHERE id IN %%s AND (%s IS NOT NULL) ORDER BY %s" % \
3684 (self._table, self._parent_name, parent_order)
3685 cr.execute(query, (tuple(ids),))
3686 parents_changed = map(operator.itemgetter(0), cr.fetchall())
3693 totranslate = context.get('lang', False) and (context['lang'] != 'en_US')
3695 field_column = self._all_columns.get(field) and self._all_columns.get(field).column
3696 if field_column and field_column.deprecated:
3697 _logger.warning('Field %s.%s is deprecated: %s', self._name, field, field_column.deprecated)
3698 if field in self._columns:
3699 if self._columns[field]._classic_write and not (hasattr(self._columns[field], '_fnct_inv')):
3700 if (not totranslate) or not self._columns[field].translate:
3701 upd0.append('"'+field+'"='+self._columns[field]._symbol_set[0])
3702 upd1.append(self._columns[field]._symbol_set[1](vals[field]))
3703 direct.append(field)
3705 upd_todo.append(field)
3707 updend.append(field)
3708 if field in self._columns \
3709 and hasattr(self._columns[field], 'selection') \
3711 self._check_selection_field_value(cr, user, field, vals[field], context=context)
3713 if self._log_access:
3714 upd0.append('write_uid=%s')
3715 upd0.append("write_date=(now() at time zone 'UTC')")
3719 self.check_access_rule(cr, user, ids, 'write', context=context)
3720 for sub_ids in cr.split_for_in_conditions(ids):
3721 cr.execute('update ' + self._table + ' set ' + ','.join(upd0) + ' ' \
3722 'where id IN %s', upd1 + [sub_ids])
3723 if cr.rowcount != len(sub_ids):
3724 raise MissingError(_('One of the records you are trying to modify has already been deleted (Document type: %s).') % self._description)
3729 if self._columns[f].translate:
3730 src_trans = self.pool[self._name].read(cr, user, ids, [f])[0][f]
3733 # Inserting value to DB
3734 context_wo_lang = dict(context, lang=None)
3735 self.write(cr, user, ids, {f: vals[f]}, context=context_wo_lang)
3736 self.pool.get('ir.translation')._set_ids(cr, user, self._name+','+f, 'model', context['lang'], ids, vals[f], src_trans)
3738 # call the 'set' method of fields which are not classic_write
3739 upd_todo.sort(lambda x, y: self._columns[x].priority-self._columns[y].priority)
3741 # default element in context must be removed when call a one2many or many2many
3742 rel_context = context.copy()
3743 for c in context.items():
3744 if c[0].startswith('default_'):
3745 del rel_context[c[0]]
3747 for field in upd_todo:
3749 result += self._columns[field].set(cr, self, id, field, vals[field], user, context=rel_context) or []
3751 unknown_fields = updend[:]
3752 for table in self._inherits:
3753 col = self._inherits[table]
3755 for sub_ids in cr.split_for_in_conditions(ids):
3756 cr.execute('select distinct "'+col+'" from "'+self._table+'" ' \
3757 'where id IN %s', (sub_ids,))
3758 nids.extend([x[0] for x in cr.fetchall()])
3762 if self._inherit_fields[val][0] == table:
3764 unknown_fields.remove(val)
3766 self.pool[table].write(cr, user, nids, v, context)
3770 'No such field(s) in model %s: %s.',
3771 self._name, ', '.join(unknown_fields))
3773 # check Python constraints
3774 recs._validate_fields(vals)
3776 # TODO: use _order to set dest at the right position and not first node of parent
3777 # We can't defer parent_store computation because the stored function
3778 # fields that are computer may refer (directly or indirectly) to
3779 # parent_left/right (via a child_of domain)
3782 self.pool._init_parent[self._name] = True
3784 order = self._parent_order or self._order
3785 parent_val = vals[self._parent_name]
3787 clause, params = '%s=%%s' % (self._parent_name,), (parent_val,)
3789 clause, params = '%s IS NULL' % (self._parent_name,), ()
3791 for id in parents_changed:
3792 cr.execute('SELECT parent_left, parent_right FROM %s WHERE id=%%s' % (self._table,), (id,))
3793 pleft, pright = cr.fetchone()
3794 distance = pright - pleft + 1
3796 # Positions of current siblings, to locate proper insertion point;
3797 # this can _not_ be fetched outside the loop, as it needs to be refreshed
3798 # after each update, in case several nodes are sequentially inserted one
3799 # next to the other (i.e computed incrementally)
3800 cr.execute('SELECT parent_right, id FROM %s WHERE %s ORDER BY %s' % (self._table, clause, parent_order), params)
3801 parents = cr.fetchall()
3803 # Find Position of the element
3805 for (parent_pright, parent_id) in parents:
3808 position = parent_pright and parent_pright + 1 or 1
3810 # It's the first node of the parent
3815 cr.execute('select parent_left from '+self._table+' where id=%s', (parent_val,))
3816 position = cr.fetchone()[0] + 1
3818 if pleft < position <= pright:
3819 raise except_orm(_('UserError'), _('Recursivity Detected.'))
3821 if pleft < position:
3822 cr.execute('update '+self._table+' set parent_left=parent_left+%s where parent_left>=%s', (distance, position))
3823 cr.execute('update '+self._table+' set parent_right=parent_right+%s where parent_right>=%s', (distance, position))
3824 cr.execute('update '+self._table+' set parent_left=parent_left+%s, parent_right=parent_right+%s where parent_left>=%s and parent_left<%s', (position-pleft, position-pleft, pleft, pright))
3826 cr.execute('update '+self._table+' set parent_left=parent_left+%s where parent_left>=%s', (distance, position))
3827 cr.execute('update '+self._table+' set parent_right=parent_right+%s where parent_right>=%s', (distance, position))
3828 cr.execute('update '+self._table+' set parent_left=parent_left-%s, parent_right=parent_right-%s where parent_left>=%s and parent_left<%s', (pleft-position+distance, pleft-position+distance, pleft+distance, pright+distance))
3829 recs.invalidate_cache(['parent_left', 'parent_right'])
3831 result += self._store_get_values(cr, user, ids, vals.keys(), context)
3834 # for recomputing new-style fields
3835 recs.modified(modified_fields)
3838 for order, model_name, ids_to_update, fields_to_recompute in result:
3839 key = (model_name, tuple(fields_to_recompute))
3840 done.setdefault(key, {})
3841 # avoid to do several times the same computation
3843 for id in ids_to_update:
3844 if id not in done[key]:
3845 done[key][id] = True
3847 self.pool[model_name]._store_set_values(cr, user, todo, fields_to_recompute, context)
3849 # recompute new-style fields
3850 if context.get('recompute', True):
3853 self.step_workflow(cr, user, ids, context=context)
3857 # TODO: Should set perm to user.xxx
3860 @api.returns('self', lambda value: value.id)
3861 def create(self, vals):
3862 """ Create a new record for the model.
3864 The values for the new record are initialized using the dictionary
3865 `vals`, and if necessary the result of :meth:`default_get`.
3867 :param vals: field values like ``{'field_name': field_value, ...}``,
3868 see :meth:`write` for details about the values format
3869 :return: new record created
3870 :raise AccessError: * if user has no create rights on the requested object
3871 * if user tries to bypass access rules for create on the requested object
3872 :raise ValidateError: if user tries to enter invalid value for a field that is not in selection
3873 :raise UserError: if a loop would be created in a hierarchy of objects a result of the operation (such as setting an object as its own parent)
3875 self.check_access_rights('create')
3877 # add missing defaults, and drop fields that may not be set by user
3878 vals = self._add_missing_default_values(vals)
3879 for field in itertools.chain(MAGIC_COLUMNS, ('parent_left', 'parent_right')):
3880 vals.pop(field, None)
3882 # split up fields into old-style and pure new-style ones
3883 old_vals, new_vals, unknown = {}, {}, []
3884 for key, val in vals.iteritems():
3885 if key in self._all_columns:
3887 elif key in self._fields:
3893 _logger.warning("%s.create() with unknown fields: %s", self._name, ', '.join(sorted(unknown)))
3895 # create record with old-style fields
3896 record = self.browse(self._create(old_vals))
3898 # put the values of pure new-style fields into cache, and inverse them
3899 record._cache.update(record._convert_to_cache(new_vals))
3900 for key in new_vals:
3901 self._fields[key].determine_inverse(record)
3905 def _create(self, cr, user, vals, context=None):
3906 # low-level implementation of create()
3910 if self.is_transient():
3911 self._transient_vacuum(cr, user)
3914 for v in self._inherits:
3915 if self._inherits[v] not in vals:
3918 tocreate[v] = {'id': vals[self._inherits[v]]}
3921 # list of column assignments defined as tuples like:
3922 # (column_name, format_string, column_value)
3923 # (column_name, sql_formula)
3924 # Those tuples will be used by the string formatting for the INSERT
3926 ('id', "nextval('%s')" % self._sequence),
3931 for v in vals.keys():
3932 if v in self._inherit_fields and v not in self._columns:
3933 (table, col, col_detail, original_parent) = self._inherit_fields[v]
3934 tocreate[table][v] = vals[v]
3937 if (v not in self._inherit_fields) and (v not in self._columns):
3939 unknown_fields.append(v)
3942 'No such field(s) in model %s: %s.',
3943 self._name, ', '.join(unknown_fields))
3945 for table in tocreate:
3946 if self._inherits[table] in vals:
3947 del vals[self._inherits[table]]
3949 record_id = tocreate[table].pop('id', None)
3951 if isinstance(record_id, dict):
3952 # Shit happens: this possibly comes from a new record
3953 tocreate[table] = dict(record_id, **tocreate[table])
3956 # When linking/creating parent records, force context without 'no_store_function' key that
3957 # defers stored functions computing, as these won't be computed in batch at the end of create().
3958 parent_context = dict(context)
3959 parent_context.pop('no_store_function', None)
3961 if record_id is None or not record_id:
3962 record_id = self.pool[table].create(cr, user, tocreate[table], context=parent_context)
3964 self.pool[table].write(cr, user, [record_id], tocreate[table], context=parent_context)
3966 updates.append((self._inherits[table], '%s', record_id))
3968 #Start : Set bool fields to be False if they are not touched(to make search more powerful)
3969 bool_fields = [x for x in self._columns.keys() if self._columns[x]._type=='boolean']
3971 for bool_field in bool_fields:
3972 if bool_field not in vals:
3973 vals[bool_field] = False
3975 for field in vals.keys():
3977 if field in self._columns:
3978 fobj = self._columns[field]
3980 fobj = self._inherit_fields[field][2]
3986 for group in groups:
3987 module = group.split(".")[0]
3988 grp = group.split(".")[1]
3989 cr.execute("select count(*) from res_groups_users_rel where gid IN (select res_id from ir_model_data where name='%s' and module='%s' and model='%s') and uid=%s" % \
3990 (grp, module, 'res.groups', user))
3991 readonly = cr.fetchall()
3992 if readonly[0][0] >= 1:
3995 elif readonly[0][0] == 0:
4003 current_field = self._columns[field]
4004 if current_field._classic_write:
4005 updates.append((field, '%s', current_field._symbol_set[1](vals[field])))
4007 #for the function fields that receive a value, we set them directly in the database
4008 #(they may be required), but we also need to trigger the _fct_inv()
4009 if (hasattr(current_field, '_fnct_inv')) and not isinstance(current_field, fields.related):
4010 #TODO: this way to special case the related fields is really creepy but it shouldn't be changed at
4011 #one week of the release candidate. It seems the only good way to handle correctly this is to add an
4012 #attribute to make a field `really readonly´ and thus totally ignored by the create()... otherwise
4013 #if, for example, the related has a default value (for usability) then the fct_inv is called and it
4014 #may raise some access rights error. Changing this is a too big change for now, and is thus postponed
4015 #after the release but, definitively, the behavior shouldn't be different for related and function
4017 upd_todo.append(field)
4019 #TODO: this `if´ statement should be removed because there is no good reason to special case the fields
4020 #related. See the above TODO comment for further explanations.
4021 if not isinstance(current_field, fields.related):
4022 upd_todo.append(field)
4023 if field in self._columns \
4024 and hasattr(current_field, 'selection') \
4026 self._check_selection_field_value(cr, user, field, vals[field], context=context)
4027 if self._log_access:
4028 updates.append(('create_uid', '%s', user))
4029 updates.append(('write_uid', '%s', user))
4030 updates.append(('create_date', "(now() at time zone 'UTC')"))
4031 updates.append(('write_date', "(now() at time zone 'UTC')"))
4033 # the list of tuples used in this formatting corresponds to
4034 # tuple(field_name, format, value)
4035 # In some case, for example (id, create_date, write_date) we does not
4036 # need to read the third value of the tuple, because the real value is
4037 # encoded in the second value (the format).
4039 """INSERT INTO "%s" (%s) VALUES(%s) RETURNING id""" % (
4041 ', '.join('"%s"' % u[0] for u in updates),
4042 ', '.join(u[1] for u in updates)
4044 tuple([u[2] for u in updates if len(u) > 2])
4047 id_new, = cr.fetchone()
4048 recs = self.browse(cr, user, id_new, context)
4049 upd_todo.sort(lambda x, y: self._columns[x].priority-self._columns[y].priority)
4051 if self._parent_store and not context.get('defer_parent_store_computation'):
4053 self.pool._init_parent[self._name] = True
4055 parent = vals.get(self._parent_name, False)
4057 cr.execute('select parent_right from '+self._table+' where '+self._parent_name+'=%s order by '+(self._parent_order or self._order), (parent,))
4059 result_p = cr.fetchall()
4060 for (pleft,) in result_p:
4065 cr.execute('select parent_left from '+self._table+' where id=%s', (parent,))
4066 pleft_old = cr.fetchone()[0]
4069 cr.execute('select max(parent_right) from '+self._table)
4070 pleft = cr.fetchone()[0] or 0
4071 cr.execute('update '+self._table+' set parent_left=parent_left+2 where parent_left>%s', (pleft,))
4072 cr.execute('update '+self._table+' set parent_right=parent_right+2 where parent_right>%s', (pleft,))
4073 cr.execute('update '+self._table+' set parent_left=%s,parent_right=%s where id=%s', (pleft+1, pleft+2, id_new))
4074 recs.invalidate_cache(['parent_left', 'parent_right'])
4076 # default element in context must be remove when call a one2many or many2many
4077 rel_context = context.copy()
4078 for c in context.items():
4079 if c[0].startswith('default_'):
4080 del rel_context[c[0]]
4083 for field in upd_todo:
4084 result += self._columns[field].set(cr, self, id_new, field, vals[field], user, rel_context) or []
4086 # check Python constraints
4087 recs._validate_fields(vals)
4089 if not context.get('no_store_function', False):
4090 result += self._store_get_values(cr, user, [id_new],
4091 list(set(vals.keys() + self._inherits.values())),
4095 for order, model_name, ids, fields2 in result:
4096 if not (model_name, ids, fields2) in done:
4097 self.pool[model_name]._store_set_values(cr, user, ids, fields2, context)
4098 done.append((model_name, ids, fields2))
4100 # recompute new-style fields
4101 modified_fields = list(vals)
4102 if self._log_access:
4103 modified_fields += ['create_uid', 'create_date', 'write_uid', 'write_date']
4104 recs.modified(modified_fields)
4107 if self._log_create and not (context and context.get('no_store_function', False)):
4108 message = self._description + \
4110 self.name_get(cr, user, [id_new], context=context)[0][1] + \
4111 "' " + _("created.")
4112 self.log(cr, user, id_new, message, True, context=context)
4114 self.check_access_rule(cr, user, [id_new], 'create', context=context)
4115 self.create_workflow(cr, user, [id_new], context=context)
4118 def _store_get_values(self, cr, uid, ids, fields, context):
4119 """Returns an ordered list of fields.function to call due to
4120 an update operation on ``fields`` of records with ``ids``,
4121 obtained by calling the 'store' triggers of these fields,
4122 as setup by their 'store' attribute.
4124 :return: [(priority, model_name, [record_ids,], [function_fields,])]
4126 if fields is None: fields = []
4127 stored_functions = self.pool._store_function.get(self._name, [])
4129 # use indexed names for the details of the stored_functions:
4130 model_name_, func_field_to_compute_, target_ids_func_, trigger_fields_, priority_ = range(5)
4132 # only keep store triggers that should be triggered for the ``fields``
4134 triggers_to_compute = (
4135 f for f in stored_functions
4136 if not f[trigger_fields_] or set(fields).intersection(f[trigger_fields_])
4140 target_id_results = {}
4141 for store_trigger in triggers_to_compute:
4142 target_func_id_ = id(store_trigger[target_ids_func_])
4143 if target_func_id_ not in target_id_results:
4144 # use admin user for accessing objects having rules defined on store fields
4145 target_id_results[target_func_id_] = [i for i in store_trigger[target_ids_func_](self, cr, SUPERUSER_ID, ids, context) if i]
4146 target_ids = target_id_results[target_func_id_]
4148 # the compound key must consider the priority and model name
4149 key = (store_trigger[priority_], store_trigger[model_name_])
4150 for target_id in target_ids:
4151 to_compute_map.setdefault(key, {}).setdefault(target_id,set()).add(tuple(store_trigger))
4153 # Here to_compute_map looks like:
4154 # { (10, 'model_a') : { target_id1: [ (trigger_1_tuple, trigger_2_tuple) ], ... }
4155 # (20, 'model_a') : { target_id2: [ (trigger_3_tuple, trigger_4_tuple) ], ... }
4156 # (99, 'model_a') : { target_id1: [ (trigger_5_tuple, trigger_6_tuple) ], ... }
4159 # Now we need to generate the batch function calls list
4161 # { (10, 'model_a') : [(10, 'model_a', [record_ids,], [function_fields,])] }
4163 for ((priority,model), id_map) in to_compute_map.iteritems():
4164 trigger_ids_maps = {}
4165 # function_ids_maps =
4166 # { (function_1_tuple, function_2_tuple) : [target_id1, target_id2, ..] }
4167 for target_id, triggers in id_map.iteritems():
4168 trigger_ids_maps.setdefault(tuple(triggers), []).append(target_id)
4169 for triggers, target_ids in trigger_ids_maps.iteritems():
4170 call_map.setdefault((priority,model),[]).append((priority, model, target_ids,
4171 [t[func_field_to_compute_] for t in triggers]))
4174 result = reduce(operator.add, (call_map[k] for k in sorted(call_map)))
4177 def _store_set_values(self, cr, uid, ids, fields, context):
4178 """Calls the fields.function's "implementation function" for all ``fields``, on records with ``ids`` (taking care of
4179 respecting ``multi`` attributes), and stores the resulting values in the database directly."""
4184 if self._log_access:
4185 cr.execute('select id,write_date from '+self._table+' where id IN %s', (tuple(ids),))
4189 field_dict.setdefault(r[0], [])
4190 res_date = time.strptime((r[1])[:19], '%Y-%m-%d %H:%M:%S')
4191 write_date = datetime.datetime.fromtimestamp(time.mktime(res_date))
4192 for i in self.pool._store_function.get(self._name, []):
4194 up_write_date = write_date + datetime.timedelta(hours=i[5])
4195 if datetime.datetime.now() < up_write_date:
4197 field_dict[r[0]].append(i[1])
4203 if self._columns[f]._multi not in keys:
4204 keys.append(self._columns[f]._multi)
4205 todo.setdefault(self._columns[f]._multi, [])
4206 todo[self._columns[f]._multi].append(f)
4210 # use admin user for accessing objects having rules defined on store fields
4211 result = self._columns[val[0]].get(cr, self, ids, val, SUPERUSER_ID, context=context)
4212 for id, value in result.items():
4214 for f in value.keys():
4215 if f in field_dict[id]:
4222 if self._columns[v]._type == 'many2one':
4224 value[v] = value[v][0]
4227 upd0.append('"'+v+'"='+self._columns[v]._symbol_set[0])
4228 upd1.append(self._columns[v]._symbol_set[1](value[v]))
4231 cr.execute('update "' + self._table + '" set ' + \
4232 ','.join(upd0) + ' where id = %s', upd1)
4236 # use admin user for accessing objects having rules defined on store fields
4237 result = self._columns[f].get(cr, self, ids, f, SUPERUSER_ID, context=context)
4238 for r in result.keys():
4240 if r in field_dict.keys():
4241 if f in field_dict[r]:
4243 for id, value in result.items():
4244 if self._columns[f]._type == 'many2one':
4249 cr.execute('update "' + self._table + '" set ' + \
4250 '"'+f+'"='+self._columns[f]._symbol_set[0] + ' where id = %s', (self._columns[f]._symbol_set[1](value), id))
4252 # invalidate the cache for the modified fields
4253 self.browse(cr, uid, ids, context).modified(fields)
4257 # TODO: ameliorer avec NULL
4258 def _where_calc(self, cr, user, domain, active_test=True, context=None):
4259 """Computes the WHERE clause needed to implement an OpenERP domain.
4260 :param domain: the domain to compute
4262 :param active_test: whether the default filtering of records with ``active``
4263 field set to ``False`` should be applied.
4264 :return: the query expressing the given domain as provided in domain
4265 :rtype: osv.query.Query
4270 # if the object has a field named 'active', filter out all inactive
4271 # records unless they were explicitely asked for
4272 if 'active' in self._all_columns and (active_test and context.get('active_test', True)):
4274 # the item[0] trick below works for domain items and '&'/'|'/'!'
4276 if not any(item[0] == 'active' for item in domain):
4277 domain.insert(0, ('active', '=', 1))
4279 domain = [('active', '=', 1)]
4282 e = expression.expression(cr, user, domain, self, context)
4283 tables = e.get_tables()
4284 where_clause, where_params = e.to_sql()
4285 where_clause = where_clause and [where_clause] or []
4287 where_clause, where_params, tables = [], [], ['"%s"' % self._table]
4289 return Query(tables, where_clause, where_params)
4291 def _check_qorder(self, word):
4292 if not regex_order.match(word):
4293 raise except_orm(_('AccessError'), _('Invalid "order" specified. A valid "order" specification is a comma-separated list of valid field names (optionally followed by asc/desc for the direction)'))
4296 def _apply_ir_rules(self, cr, uid, query, mode='read', context=None):
4297 """Add what's missing in ``query`` to implement all appropriate ir.rules
4298 (using the ``model_name``'s rules or the current model's rules if ``model_name`` is None)
4300 :param query: the current query object
4302 if uid == SUPERUSER_ID:
4305 def apply_rule(added_clause, added_params, added_tables, parent_model=None):
4306 """ :param parent_model: name of the parent model, if the added
4307 clause comes from a parent model
4311 # as inherited rules are being applied, we need to add the missing JOIN
4312 # to reach the parent table (if it was not JOINed yet in the query)
4313 parent_alias = self._inherits_join_add(self, parent_model, query)
4314 # inherited rules are applied on the external table -> need to get the alias and replace
4315 parent_table = self.pool[parent_model]._table
4316 added_clause = [clause.replace('"%s"' % parent_table, '"%s"' % parent_alias) for clause in added_clause]
4317 # change references to parent_table to parent_alias, because we now use the alias to refer to the table
4319 for table in added_tables:
4320 # table is just a table name -> switch to the full alias
4321 if table == '"%s"' % parent_table:
4322 new_tables.append('"%s" as "%s"' % (parent_table, parent_alias))
4323 # table is already a full statement -> replace reference to the table to its alias, is correct with the way aliases are generated
4325 new_tables.append(table.replace('"%s"' % parent_table, '"%s"' % parent_alias))
4326 added_tables = new_tables
4327 query.where_clause += added_clause
4328 query.where_clause_params += added_params
4329 for table in added_tables:
4330 if table not in query.tables:
4331 query.tables.append(table)
4335 # apply main rules on the object
4336 rule_obj = self.pool.get('ir.rule')
4337 rule_where_clause, rule_where_clause_params, rule_tables = rule_obj.domain_get(cr, uid, self._name, mode, context=context)
4338 apply_rule(rule_where_clause, rule_where_clause_params, rule_tables)
4340 # apply ir.rules from the parents (through _inherits)
4341 for inherited_model in self._inherits:
4342 rule_where_clause, rule_where_clause_params, rule_tables = rule_obj.domain_get(cr, uid, inherited_model, mode, context=context)
4343 apply_rule(rule_where_clause, rule_where_clause_params, rule_tables,
4344 parent_model=inherited_model)
4346 def _generate_m2o_order_by(self, order_field, query):
4348 Add possibly missing JOIN to ``query`` and generate the ORDER BY clause for m2o fields,
4349 either native m2o fields or function/related fields that are stored, including
4350 intermediate JOINs for inheritance if required.
4352 :return: the qualified field name to use in an ORDER BY clause to sort by ``order_field``
4354 if order_field not in self._columns and order_field in self._inherit_fields:
4355 # also add missing joins for reaching the table containing the m2o field
4356 qualified_field = self._inherits_join_calc(order_field, query)
4357 order_field_column = self._inherit_fields[order_field][2]
4359 qualified_field = '"%s"."%s"' % (self._table, order_field)
4360 order_field_column = self._columns[order_field]
4362 assert order_field_column._type == 'many2one', 'Invalid field passed to _generate_m2o_order_by()'
4363 if not order_field_column._classic_write and not getattr(order_field_column, 'store', False):
4364 _logger.debug("Many2one function/related fields must be stored " \
4365 "to be used as ordering fields! Ignoring sorting for %s.%s",
4366 self._name, order_field)
4369 # figure out the applicable order_by for the m2o
4370 dest_model = self.pool[order_field_column._obj]
4371 m2o_order = dest_model._order
4372 if not regex_order.match(m2o_order):
4373 # _order is complex, can't use it here, so we default to _rec_name
4374 m2o_order = dest_model._rec_name
4376 # extract the field names, to be able to qualify them and add desc/asc
4378 for order_part in m2o_order.split(","):
4379 m2o_order_list.append(order_part.strip().split(" ", 1)[0].strip())
4380 m2o_order = m2o_order_list
4382 # Join the dest m2o table if it's not joined yet. We use [LEFT] OUTER join here
4383 # as we don't want to exclude results that have NULL values for the m2o
4384 src_table, src_field = qualified_field.replace('"', '').split('.', 1)
4385 dst_alias, dst_alias_statement = query.add_join((src_table, dest_model._table, src_field, 'id', src_field), implicit=False, outer=True)
4386 qualify = lambda field: '"%s"."%s"' % (dst_alias, field)
4387 return map(qualify, m2o_order) if isinstance(m2o_order, list) else qualify(m2o_order)
4389 def _generate_order_by(self, order_spec, query):
4391 Attempt to consruct an appropriate ORDER BY clause based on order_spec, which must be
4392 a comma-separated list of valid field names, optionally followed by an ASC or DESC direction.
4394 :raise" except_orm in case order_spec is malformed
4396 order_by_clause = ''
4397 order_spec = order_spec or self._order
4399 order_by_elements = []
4400 self._check_qorder(order_spec)
4401 for order_part in order_spec.split(','):
4402 order_split = order_part.strip().split(' ')
4403 order_field = order_split[0].strip()
4404 order_direction = order_split[1].strip() if len(order_split) == 2 else ''
4406 if order_field == 'id':
4407 order_by_elements.append('"%s"."%s" %s' % (self._table, order_field, order_direction))
4408 elif order_field in self._columns:
4409 order_column = self._columns[order_field]
4410 if order_column._classic_read:
4411 inner_clause = '"%s"."%s"' % (self._table, order_field)
4412 elif order_column._type == 'many2one':
4413 inner_clause = self._generate_m2o_order_by(order_field, query)
4415 continue # ignore non-readable or "non-joinable" fields
4416 elif order_field in self._inherit_fields:
4417 parent_obj = self.pool[self._inherit_fields[order_field][3]]
4418 order_column = parent_obj._columns[order_field]
4419 if order_column._classic_read:
4420 inner_clause = self._inherits_join_calc(order_field, query)
4421 elif order_column._type == 'many2one':
4422 inner_clause = self._generate_m2o_order_by(order_field, query)
4424 continue # ignore non-readable or "non-joinable" fields
4426 raise ValueError( _("Sorting field %s not found on model %s") %( order_field, self._name))
4428 if isinstance(inner_clause, list):
4429 for clause in inner_clause:
4430 order_by_elements.append("%s %s" % (clause, order_direction))
4432 order_by_elements.append("%s %s" % (inner_clause, order_direction))
4433 if order_by_elements:
4434 order_by_clause = ",".join(order_by_elements)
4436 return order_by_clause and (' ORDER BY %s ' % order_by_clause) or ''
4438 def _search(self, cr, user, args, offset=0, limit=None, order=None, context=None, count=False, access_rights_uid=None):
4440 Private implementation of search() method, allowing specifying the uid to use for the access right check.
4441 This is useful for example when filling in the selection list for a drop-down and avoiding access rights errors,
4442 by specifying ``access_rights_uid=1`` to bypass access rights check, but not ir.rules!
4443 This is ok at the security level because this method is private and not callable through XML-RPC.
4445 :param access_rights_uid: optional user ID to use when checking access rights
4446 (not for ir.rules, this is only for ir.model.access)
4450 self.check_access_rights(cr, access_rights_uid or user, 'read')
4452 # For transient models, restrict acces to the current user, except for the super-user
4453 if self.is_transient() and self._log_access and user != SUPERUSER_ID:
4454 args = expression.AND(([('create_uid', '=', user)], args or []))
4456 query = self._where_calc(cr, user, args, context=context)
4457 self._apply_ir_rules(cr, user, query, 'read', context=context)
4458 order_by = self._generate_order_by(order, query)
4459 from_clause, where_clause, where_clause_params = query.get_sql()
4461 limit_str = limit and ' limit %d' % limit or ''
4462 offset_str = offset and ' offset %d' % offset or ''
4463 where_str = where_clause and (" WHERE %s" % where_clause) or ''
4464 query_str = 'SELECT "%s".id FROM ' % self._table + from_clause + where_str + order_by + limit_str + offset_str
4467 # /!\ the main query must be executed as a subquery, otherwise
4468 # offset and limit apply to the result of count()!
4469 cr.execute('SELECT count(*) FROM (%s) AS count' % query_str, where_clause_params)
4473 cr.execute(query_str, where_clause_params)
4476 # TDE note: with auto_join, we could have several lines about the same result
4477 # i.e. a lead with several unread messages; we uniquify the result using
4478 # a fast way to do it while preserving order (http://www.peterbe.com/plog/uniqifiers-benchmark)
4479 def _uniquify_list(seq):
4481 return [x for x in seq if x not in seen and not seen.add(x)]
4483 return _uniquify_list([x[0] for x in res])
4485 # returns the different values ever entered for one field
4486 # this is used, for example, in the client when the user hits enter on
4488 def distinct_field_get(self, cr, uid, field, value, args=None, offset=0, limit=None):
4491 if field in self._inherit_fields:
4492 return self.pool[self._inherit_fields[field][0]].distinct_field_get(cr, uid, field, value, args, offset, limit)
4494 return self._columns[field].search(cr, self, args, field, value, offset, limit, uid)
4496 def copy_data(self, cr, uid, id, default=None, context=None):
4498 Copy given record's data with all its fields values
4500 :param cr: database cursor
4501 :param uid: current user id
4502 :param id: id of the record to copy
4503 :param default: field values to override in the original values of the copied record
4504 :type default: dictionary
4505 :param context: context arguments, like lang, time zone
4506 :type context: dictionary
4507 :return: dictionary containing all the field values
4513 # avoid recursion through already copied records in case of circular relationship
4514 seen_map = context.setdefault('__copy_data_seen', {})
4515 if id in seen_map.setdefault(self._name, []):
4517 seen_map[self._name].append(id)
4521 if 'state' not in default:
4522 if 'state' in self._defaults:
4523 if callable(self._defaults['state']):
4524 default['state'] = self._defaults['state'](self, cr, uid, context)
4526 default['state'] = self._defaults['state']
4528 # build a black list of fields that should not be copied
4529 blacklist = set(MAGIC_COLUMNS + ['parent_left', 'parent_right'])
4530 def blacklist_given_fields(obj):
4531 # blacklist the fields that are given by inheritance
4532 for other, field_to_other in obj._inherits.items():
4533 blacklist.add(field_to_other)
4534 if field_to_other in default:
4535 # all the fields of 'other' are given by the record: default[field_to_other],
4536 # except the ones redefined in self
4537 blacklist.update(set(self.pool[other]._all_columns) - set(self._columns))
4539 blacklist_given_fields(self.pool[other])
4540 # blacklist deprecated fields
4541 for name, field in obj._columns.items():
4542 if field.deprecated:
4545 blacklist_given_fields(self)
4548 fields_to_copy = dict((f,fi) for f, fi in self._all_columns.iteritems()
4551 if f not in blacklist)
4553 data = self.read(cr, uid, [id], fields_to_copy.keys(), context=context)
4557 raise IndexError( _("Record #%d of %s not found, cannot copy!") %( id, self._name))
4560 for f, colinfo in fields_to_copy.iteritems():
4561 field = colinfo.column
4562 if field._type == 'many2one':
4563 res[f] = data[f] and data[f][0]
4564 elif field._type == 'one2many':
4565 other = self.pool[field._obj]
4566 # duplicate following the order of the ids because we'll rely on
4567 # it later for copying translations in copy_translation()!
4568 lines = [other.copy_data(cr, uid, line_id, context=context) for line_id in sorted(data[f])]
4569 # the lines are duplicated using the wrong (old) parent, but then
4570 # are reassigned to the correct one thanks to the (0, 0, ...)
4571 res[f] = [(0, 0, line) for line in lines if line]
4572 elif field._type == 'many2many':
4573 res[f] = [(6, 0, data[f])]
4579 def copy_translations(self, cr, uid, old_id, new_id, context=None):
4583 # avoid recursion through already copied records in case of circular relationship
4584 seen_map = context.setdefault('__copy_translations_seen',{})
4585 if old_id in seen_map.setdefault(self._name,[]):
4587 seen_map[self._name].append(old_id)
4589 trans_obj = self.pool.get('ir.translation')
4590 # TODO it seems fields_get can be replaced by _all_columns (no need for translation)
4591 fields = self.fields_get(cr, uid, context=context)
4593 for field_name, field_def in fields.items():
4594 # removing the lang to compare untranslated values
4595 context_wo_lang = dict(context, lang=None)
4596 old_record, new_record = self.browse(cr, uid, [old_id, new_id], context=context_wo_lang)
4597 # we must recursively copy the translations for o2o and o2m
4598 if field_def['type'] == 'one2many':
4599 target_obj = self.pool[field_def['relation']]
4600 # here we rely on the order of the ids to match the translations
4601 # as foreseen in copy_data()
4602 old_children = sorted(r.id for r in old_record[field_name])
4603 new_children = sorted(r.id for r in new_record[field_name])
4604 for (old_child, new_child) in zip(old_children, new_children):
4605 target_obj.copy_translations(cr, uid, old_child, new_child, context=context)
4606 # and for translatable fields we keep them for copy
4607 elif field_def.get('translate'):
4608 if field_name in self._columns:
4609 trans_name = self._name + "," + field_name
4612 elif field_name in self._inherit_fields:
4613 trans_name = self._inherit_fields[field_name][0] + "," + field_name
4614 # get the id of the parent record to set the translation
4615 inherit_field_name = self._inherit_fields[field_name][1]
4616 target_id = new_record[inherit_field_name].id
4617 source_id = old_record[inherit_field_name].id
4621 trans_ids = trans_obj.search(cr, uid, [
4622 ('name', '=', trans_name),
4623 ('res_id', '=', source_id)
4625 user_lang = context.get('lang')
4626 for record in trans_obj.read(cr, uid, trans_ids, context=context):
4628 # remove source to avoid triggering _set_src
4629 del record['source']
4630 record.update({'res_id': target_id})
4631 if user_lang and user_lang == record['lang']:
4632 # 'source' to force the call to _set_src
4633 # 'value' needed if value is changed in copy(), want to see the new_value
4634 record['source'] = old_record[field_name]
4635 record['value'] = new_record[field_name]
4636 trans_obj.create(cr, uid, record, context=context)
4638 @api.returns('self', lambda value: value.id)
4639 def copy(self, cr, uid, id, default=None, context=None):
4641 Duplicate record with given id updating it with default values
4643 :param cr: database cursor
4644 :param uid: current user id
4645 :param id: id of the record to copy
4646 :param default: dictionary of field values to override in the original values of the copied record, e.g: ``{'field_name': overriden_value, ...}``
4647 :type default: dictionary
4648 :param context: context arguments, like lang, time zone
4649 :type context: dictionary
4650 :return: id of the newly created record
4655 context = context.copy()
4656 data = self.copy_data(cr, uid, id, default, context)
4657 new_id = self.create(cr, uid, data, context)
4658 self.copy_translations(cr, uid, id, new_id, context)
4662 @api.returns('self')
4664 """ Return the subset of records in `self` that exist, and mark deleted
4665 records as such in cache. It can be used as a test on records::
4670 By convention, new records are returned as existing.
4672 ids = filter(None, self._ids) # ids to check in database
4675 query = """SELECT id FROM "%s" WHERE id IN %%s""" % self._table
4676 self._cr.execute(query, (ids,))
4677 ids = ([r[0] for r in self._cr.fetchall()] + # ids in database
4678 [id for id in self._ids if not id]) # new ids
4679 existing = self.browse(ids)
4680 if len(existing) < len(self):
4681 # mark missing records in cache with a failed value
4682 exc = MissingError(_("Record does not exist or has been deleted."))
4683 (self - existing)._cache.update(FailedValue(exc))
4686 def check_recursion(self, cr, uid, ids, context=None, parent=None):
4687 _logger.warning("You are using deprecated %s.check_recursion(). Please use the '_check_recursion()' instead!" % \
4689 assert parent is None or parent in self._columns or parent in self._inherit_fields,\
4690 "The 'parent' parameter passed to check_recursion() must be None or a valid field name"
4691 return self._check_recursion(cr, uid, ids, context, parent)
4693 def _check_recursion(self, cr, uid, ids, context=None, parent=None):
4695 Verifies that there is no loop in a hierarchical structure of records,
4696 by following the parent relationship using the **parent** field until a loop
4697 is detected or until a top-level record is found.
4699 :param cr: database cursor
4700 :param uid: current user id
4701 :param ids: list of ids of records to check
4702 :param parent: optional parent field name (default: ``self._parent_name = parent_id``)
4703 :return: **True** if the operation can proceed safely, or **False** if an infinite loop is detected.
4706 parent = self._parent_name
4708 # must ignore 'active' flag, ir.rules, etc. => direct SQL query
4709 query = 'SELECT "%s" FROM "%s" WHERE id = %%s' % (parent, self._table)
4712 while current_id is not None:
4713 cr.execute(query, (current_id,))
4714 result = cr.fetchone()
4715 current_id = result[0] if result else None
4716 if current_id == id:
4720 def _check_m2m_recursion(self, cr, uid, ids, field_name):
4722 Verifies that there is no loop in a hierarchical structure of records,
4723 by following the parent relationship using the **parent** field until a loop
4724 is detected or until a top-level record is found.
4726 :param cr: database cursor
4727 :param uid: current user id
4728 :param ids: list of ids of records to check
4729 :param field_name: field to check
4730 :return: **True** if the operation can proceed safely, or **False** if an infinite loop is detected.
4733 field = self._all_columns.get(field_name)
4734 field = field.column if field else None
4735 if not field or field._type != 'many2many' or field._obj != self._name:
4736 # field must be a many2many on itself
4737 raise ValueError('invalid field_name: %r' % (field_name,))
4739 query = 'SELECT distinct "%s" FROM "%s" WHERE "%s" IN %%s' % (field._id2, field._rel, field._id1)
4743 for i in range(0, len(ids_parent), cr.IN_MAX):
4745 sub_ids_parent = ids_parent[i:j]
4746 cr.execute(query, (tuple(sub_ids_parent),))
4747 ids_parent2.extend(filter(None, map(lambda x: x[0], cr.fetchall())))
4748 ids_parent = ids_parent2
4749 for i in ids_parent:
4754 def _get_external_ids(self, cr, uid, ids, *args, **kwargs):
4755 """Retrieve the External ID(s) of any database record.
4757 **Synopsis**: ``_get_xml_ids(cr, uid, ids) -> { 'id': ['module.xml_id'] }``
4759 :return: map of ids to the list of their fully qualified External IDs
4760 in the form ``module.key``, or an empty list when there's no External
4761 ID for a record, e.g.::
4763 { 'id': ['module.ext_id', 'module.ext_id_bis'],
4766 ir_model_data = self.pool.get('ir.model.data')
4767 data_ids = ir_model_data.search(cr, uid, [('model', '=', self._name), ('res_id', 'in', ids)])
4768 data_results = ir_model_data.read(cr, uid, data_ids, ['module', 'name', 'res_id'])
4771 # can't use dict.fromkeys() as the list would be shared!
4773 for record in data_results:
4774 result[record['res_id']].append('%(module)s.%(name)s' % record)
4777 def get_external_id(self, cr, uid, ids, *args, **kwargs):
4778 """Retrieve the External ID of any database record, if there
4779 is one. This method works as a possible implementation
4780 for a function field, to be able to add it to any
4781 model object easily, referencing it as ``Model.get_external_id``.
4783 When multiple External IDs exist for a record, only one
4784 of them is returned (randomly).
4786 :return: map of ids to their fully qualified XML ID,
4787 defaulting to an empty string when there's none
4788 (to be usable as a function field),
4791 { 'id': 'module.ext_id',
4794 results = self._get_xml_ids(cr, uid, ids)
4795 for k, v in results.iteritems():
4802 # backwards compatibility
4803 get_xml_id = get_external_id
4804 _get_xml_ids = _get_external_ids
4806 def print_report(self, cr, uid, ids, name, data, context=None):
4808 Render the report `name` for the given IDs. The report must be defined
4809 for this model, not another.
4811 report = self.pool['ir.actions.report.xml']._lookup_report(cr, name)
4812 assert self._name == report.table
4813 return report.create(cr, uid, ids, data, context)
4817 def is_transient(cls):
4818 """ Return whether the model is transient.
4820 See :class:`TransientModel`.
4823 return cls._transient
4825 def _transient_clean_rows_older_than(self, cr, seconds):
4826 assert self._transient, "Model %s is not transient, it cannot be vacuumed!" % self._name
4827 # Never delete rows used in last 5 minutes
4828 seconds = max(seconds, 300)
4829 query = ("SELECT id FROM " + self._table + " WHERE"
4830 " COALESCE(write_date, create_date, (now() at time zone 'UTC'))::timestamp"
4831 " < ((now() at time zone 'UTC') - interval %s)")
4832 cr.execute(query, ("%s seconds" % seconds,))
4833 ids = [x[0] for x in cr.fetchall()]
4834 self.unlink(cr, SUPERUSER_ID, ids)
4836 def _transient_clean_old_rows(self, cr, max_count):
4837 # Check how many rows we have in the table
4838 cr.execute("SELECT count(*) AS row_count FROM " + self._table)
4840 if res[0][0] <= max_count:
4841 return # max not reached, nothing to do
4842 self._transient_clean_rows_older_than(cr, 300)
4844 def _transient_vacuum(self, cr, uid, force=False):
4845 """Clean the transient records.
4847 This unlinks old records from the transient model tables whenever the
4848 "_transient_max_count" or "_max_age" conditions (if any) are reached.
4849 Actual cleaning will happen only once every "_transient_check_time" calls.
4850 This means this method can be called frequently called (e.g. whenever
4851 a new record is created).
4852 Example with both max_hours and max_count active:
4853 Suppose max_hours = 0.2 (e.g. 12 minutes), max_count = 20, there are 55 rows in the
4854 table, 10 created/changed in the last 5 minutes, an additional 12 created/changed between
4855 5 and 10 minutes ago, the rest created/changed more then 12 minutes ago.
4856 - age based vacuum will leave the 22 rows created/changed in the last 12 minutes
4857 - count based vacuum will wipe out another 12 rows. Not just 2, otherwise each addition
4858 would immediately cause the maximum to be reached again.
4859 - the 10 rows that have been created/changed the last 5 minutes will NOT be deleted
4861 assert self._transient, "Model %s is not transient, it cannot be vacuumed!" % self._name
4862 _transient_check_time = 20 # arbitrary limit on vacuum executions
4863 self._transient_check_count += 1
4864 if not force and (self._transient_check_count < _transient_check_time):
4865 return True # no vacuum cleaning this time
4866 self._transient_check_count = 0
4868 # Age-based expiration
4869 if self._transient_max_hours:
4870 self._transient_clean_rows_older_than(cr, self._transient_max_hours * 60 * 60)
4872 # Count-based expiration
4873 if self._transient_max_count:
4874 self._transient_clean_old_rows(cr, self._transient_max_count)
4878 def resolve_2many_commands(self, cr, uid, field_name, commands, fields=None, context=None):
4879 """ Serializes one2many and many2many commands into record dictionaries
4880 (as if all the records came from the database via a read()). This
4881 method is aimed at onchange methods on one2many and many2many fields.
4883 Because commands might be creation commands, not all record dicts
4884 will contain an ``id`` field. Commands matching an existing record
4885 will have an ``id``.
4887 :param field_name: name of the one2many or many2many field matching the commands
4888 :type field_name: str
4889 :param commands: one2many or many2many commands to execute on ``field_name``
4890 :type commands: list((int|False, int|False, dict|False))
4891 :param fields: list of fields to read from the database, when applicable
4892 :type fields: list(str)
4893 :returns: records in a shape similar to that returned by ``read()``
4894 (except records may be missing the ``id`` field if they don't exist in db)
4897 result = [] # result (list of dict)
4898 record_ids = [] # ids of records to read
4899 updates = {} # {id: dict} of updates on particular records
4901 for command in commands or []:
4902 if not isinstance(command, (list, tuple)):
4903 record_ids.append(command)
4904 elif command[0] == 0:
4905 result.append(command[2])
4906 elif command[0] == 1:
4907 record_ids.append(command[1])
4908 updates.setdefault(command[1], {}).update(command[2])
4909 elif command[0] in (2, 3):
4910 record_ids = [id for id in record_ids if id != command[1]]
4911 elif command[0] == 4:
4912 record_ids.append(command[1])
4913 elif command[0] == 5:
4914 result, record_ids = [], []
4915 elif command[0] == 6:
4916 result, record_ids = [], list(command[2])
4918 # read the records and apply the updates
4919 other_model = self.pool[self._all_columns[field_name].column._obj]
4920 for record in other_model.read(cr, uid, record_ids, fields=fields, context=context):
4921 record.update(updates.get(record['id'], {}))
4922 result.append(record)
4926 # for backward compatibility
4927 resolve_o2m_commands_to_record_dicts = resolve_2many_commands
4929 def search_read(self, cr, uid, domain=None, fields=None, offset=0, limit=None, order=None, context=None):
4931 Performs a ``search()`` followed by a ``read()``.
4933 :param cr: database cursor
4934 :param user: current user id
4935 :param domain: Search domain, see ``args`` parameter in ``search()``. Defaults to an empty domain that will match all records.
4936 :param fields: List of fields to read, see ``fields`` parameter in ``read()``. Defaults to all fields.
4937 :param offset: Number of records to skip, see ``offset`` parameter in ``search()``. Defaults to 0.
4938 :param limit: Maximum number of records to return, see ``limit`` parameter in ``search()``. Defaults to no limit.
4939 :param order: Columns to sort result, see ``order`` parameter in ``search()``. Defaults to no sort.
4940 :param context: context arguments.
4941 :return: List of dictionaries containing the asked fields.
4942 :rtype: List of dictionaries.
4945 record_ids = self.search(cr, uid, domain or [], offset=offset, limit=limit, order=order, context=context)
4949 if fields and fields == ['id']:
4950 # shortcut read if we only want the ids
4951 return [{'id': id} for id in record_ids]
4953 # read() ignores active_test, but it would forward it to any downstream search call
4954 # (e.g. for x2m or function fields), and this is not the desired behavior, the flag
4955 # was presumably only meant for the main search().
4956 # TODO: Move this to read() directly?
4957 read_ctx = dict(context or {})
4958 read_ctx.pop('active_test', None)
4960 result = self.read(cr, uid, record_ids, fields, context=read_ctx)
4961 if len(result) <= 1:
4965 index = dict((r['id'], r) for r in result)
4966 return [index[x] for x in record_ids if x in index]
4968 def _register_hook(self, cr):
4969 """ stuff to do right after the registry is built """
4972 def _patch_method(self, name, method):
4973 """ Monkey-patch a method for all instances of this model. This replaces
4974 the method called `name` by `method` in `self`'s class.
4975 The original method is then accessible via ``method.origin``, and it
4976 can be restored with :meth:`~._revert_method`.
4981 def do_write(self, values):
4982 # do stuff, and call the original method
4983 return do_write.origin(self, values)
4985 # patch method write of model
4986 model._patch_method('write', do_write)
4988 # this will call do_write
4989 records = model.search([...])
4992 # restore the original method
4993 model._revert_method('write')
4996 origin = getattr(cls, name)
4997 method.origin = origin
4998 # propagate decorators from origin to method, and apply api decorator
4999 wrapped = api.guess(api.propagate(origin, method))
5000 wrapped.origin = origin
5001 setattr(cls, name, wrapped)
5003 def _revert_method(self, name):
5004 """ Revert the original method of `self` called `name`.
5005 See :meth:`~._patch_method`.
5008 method = getattr(cls, name)
5009 setattr(cls, name, method.origin)
5014 # An instance represents an ordered collection of records in a given
5015 # execution environment. The instance object refers to the environment, and
5016 # the records themselves are represented by their cache dictionary. The 'id'
5017 # of each record is found in its corresponding cache dictionary.
5019 # This design has the following advantages:
5020 # - cache access is direct and thus fast;
5021 # - one can consider records without an 'id' (see new records);
5022 # - the global cache is only an index to "resolve" a record 'id'.
5026 def _browse(cls, env, ids):
5027 """ Create an instance attached to `env`; `ids` is a tuple of record
5030 records = object.__new__(cls)
5033 env.prefetch[cls._name].update(ids)
5037 def browse(self, arg=None):
5038 """ Return an instance corresponding to `arg` and attached to
5039 `self.env`; `arg` is either a record id, or a collection of record ids.
5041 ids = _normalize_ids(arg)
5042 #assert all(isinstance(id, IdType) for id in ids), "Browsing invalid ids: %s" % ids
5043 return self._browse(self.env, ids)
5046 def browse(self, cr, uid, arg=None, context=None):
5047 ids = _normalize_ids(arg)
5048 #assert all(isinstance(id, IdType) for id in ids), "Browsing invalid ids: %s" % ids
5049 return self._browse(Environment(cr, uid, context or {}), ids)
5052 # Internal properties, for manipulating the instance's implementation
5057 """ Return the list of non-false record ids of this instance. """
5058 return filter(None, list(self._ids))
5060 # backward-compatibility with former browse records
5061 _cr = property(lambda self: self.env.cr)
5062 _uid = property(lambda self: self.env.uid)
5063 _context = property(lambda self: self.env.context)
5066 # Conversion methods
5069 def ensure_one(self):
5070 """ Return `self` if it is a singleton instance, otherwise raise an
5075 raise except_orm("ValueError", "Expected singleton: %s" % self)
5077 def with_env(self, env):
5078 """ Return an instance equivalent to `self` attached to `env`.
5080 return self._browse(env, self._ids)
5082 def sudo(self, user=SUPERUSER_ID):
5083 """ Return an instance equivalent to `self` attached to an environment
5084 based on `self.env` with the given `user`.
5086 return self.with_env(self.env(user=user))
5088 def with_context(self, *args, **kwargs):
5089 """ Return an instance equivalent to `self` attached to an environment
5090 based on `self.env` with another context. The context is given by
5091 `self._context` or the positional argument if given, and modified by
5094 context = dict(args[0] if args else self._context, **kwargs)
5095 return self.with_env(self.env(context=context))
5097 def _convert_to_cache(self, values):
5098 """ Convert the `values` dictionary into cached values. """
5099 fields = self._fields
5101 name: fields[name].convert_to_cache(value, self.env)
5102 for name, value in values.iteritems()
5106 def _convert_to_write(self, values):
5107 """ Convert the `values` dictionary into the format of :meth:`write`. """
5108 fields = self._fields
5110 (name, fields[name].convert_to_write(value))
5111 for name, value in values.iteritems()
5112 if name in self._fields
5116 # Record traversal and update
5119 def _mapped_func(self, func):
5120 """ Apply function `func` on all records in `self`, and return the
5121 result as a list or a recordset (if `func` return recordsets).
5123 vals = [func(rec) for rec in self]
5124 val0 = vals[0] if vals else func(self)
5125 if isinstance(val0, BaseModel):
5126 return reduce(operator.or_, vals, val0)
5129 def mapped(self, func):
5130 """ Apply `func` on all records in `self`, and return the result as a
5131 list or a recordset (if `func` return recordsets). In the latter
5132 case, the order of the returned recordset is arbritrary.
5134 :param func: a function or a dot-separated sequence of field names
5136 if isinstance(func, basestring):
5138 for name in func.split('.'):
5139 recs = recs._mapped_func(operator.itemgetter(name))
5142 return self._mapped_func(func)
5144 def _mapped_cache(self, name_seq):
5145 """ Same as `~.mapped`, but `name_seq` is a dot-separated sequence of
5146 field names, and only cached values are used.
5149 for name in name_seq.split('.'):
5150 field = recs._fields[name]
5151 null = field.null(self.env)
5152 recs = recs.mapped(lambda rec: rec._cache.get(field, null))
5155 def filtered(self, func):
5156 """ Select the records in `self` such that `func(rec)` is true, and
5157 return them as a recordset.
5159 :param func: a function or a dot-separated sequence of field names
5161 if isinstance(func, basestring):
5163 func = lambda rec: filter(None, rec.mapped(name))
5164 return self.browse([rec.id for rec in self if func(rec)])
5166 def sorted(self, key=None):
5167 """ Return the recordset `self` ordered by `key` """
5169 return self.search([('id', 'in', self.ids)])
5171 return self.browse(map(int, sorted(self, key=key)))
5173 def update(self, values):
5174 """ Update record `self[0]` with `values`. """
5175 for name, value in values.iteritems():
5179 # New records - represent records that do not exist in the database yet;
5180 # they are used to compute default values and perform onchanges.
5184 def new(self, values={}):
5185 """ Return a new record instance attached to `self.env`, and
5186 initialized with the `values` dictionary. Such a record does not
5187 exist in the database.
5189 record = self.browse([NewId()])
5190 record._cache.update(self._convert_to_cache(values))
5192 if record.env.in_onchange:
5193 # The cache update does not set inverse fields, so do it manually.
5194 # This is useful for computing a function field on secondary
5195 # records, if that field depends on the main record.
5197 field = self._fields.get(name)
5198 if field and field.inverse_field:
5199 field.inverse_field._update(record[name], record)
5204 # Dirty flag, to mark records modified (in draft mode)
5209 """ Return whether any record in `self` is dirty. """
5210 dirty = self.env.dirty
5211 return any(record in dirty for record in self)
5214 def _dirty(self, value):
5215 """ Mark the records in `self` as dirty. """
5217 map(self.env.dirty.add, self)
5219 map(self.env.dirty.discard, self)
5225 def __nonzero__(self):
5226 """ Test whether `self` is nonempty. """
5227 return bool(getattr(self, '_ids', True))
5230 """ Return the size of `self`. """
5231 return len(self._ids)
5234 """ Return an iterator over `self`. """
5235 for id in self._ids:
5236 yield self._browse(self.env, (id,))
5238 def __contains__(self, item):
5239 """ Test whether `item` is a subset of `self` or a field name. """
5240 if isinstance(item, BaseModel):
5241 if self._name == item._name:
5242 return set(item._ids) <= set(self._ids)
5243 raise except_orm("ValueError", "Mixing apples and oranges: %s in %s" % (item, self))
5244 if isinstance(item, basestring):
5245 return item in self._fields
5246 return item in self.ids
5248 def __add__(self, other):
5249 """ Return the concatenation of two recordsets. """
5250 if not isinstance(other, BaseModel) or self._name != other._name:
5251 raise except_orm("ValueError", "Mixing apples and oranges: %s + %s" % (self, other))
5252 return self.browse(self._ids + other._ids)
5254 def __sub__(self, other):
5255 """ Return the recordset of all the records in `self` that are not in `other`. """
5256 if not isinstance(other, BaseModel) or self._name != other._name:
5257 raise except_orm("ValueError", "Mixing apples and oranges: %s - %s" % (self, other))
5258 other_ids = set(other._ids)
5259 return self.browse([id for id in self._ids if id not in other_ids])
5261 def __and__(self, other):
5262 """ Return the intersection of two recordsets.
5263 Note that recordset order is not preserved.
5265 if not isinstance(other, BaseModel) or self._name != other._name:
5266 raise except_orm("ValueError", "Mixing apples and oranges: %s & %s" % (self, other))
5267 return self.browse(set(self._ids) & set(other._ids))
5269 def __or__(self, other):
5270 """ Return the union of two recordsets.
5271 Note that recordset order is not preserved.
5273 if not isinstance(other, BaseModel) or self._name != other._name:
5274 raise except_orm("ValueError", "Mixing apples and oranges: %s | %s" % (self, other))
5275 return self.browse(set(self._ids) | set(other._ids))
5277 def __eq__(self, other):
5278 """ Test whether two recordsets are equivalent (up to reordering). """
5279 if not isinstance(other, BaseModel):
5281 _logger.warning("Comparing apples and oranges: %s == %s", self, other)
5283 return self._name == other._name and set(self._ids) == set(other._ids)
5285 def __ne__(self, other):
5286 return not self == other
5288 def __lt__(self, other):
5289 if not isinstance(other, BaseModel) or self._name != other._name:
5290 raise except_orm("ValueError", "Mixing apples and oranges: %s < %s" % (self, other))
5291 return set(self._ids) < set(other._ids)
5293 def __le__(self, other):
5294 if not isinstance(other, BaseModel) or self._name != other._name:
5295 raise except_orm("ValueError", "Mixing apples and oranges: %s <= %s" % (self, other))
5296 return set(self._ids) <= set(other._ids)
5298 def __gt__(self, other):
5299 if not isinstance(other, BaseModel) or self._name != other._name:
5300 raise except_orm("ValueError", "Mixing apples and oranges: %s > %s" % (self, other))
5301 return set(self._ids) > set(other._ids)
5303 def __ge__(self, other):
5304 if not isinstance(other, BaseModel) or self._name != other._name:
5305 raise except_orm("ValueError", "Mixing apples and oranges: %s >= %s" % (self, other))
5306 return set(self._ids) >= set(other._ids)
5312 return "%s%s" % (self._name, getattr(self, '_ids', ""))
5314 def __unicode__(self):
5315 return unicode(str(self))
5320 if hasattr(self, '_ids'):
5321 return hash((self._name, frozenset(self._ids)))
5323 return hash(self._name)
5325 def __getitem__(self, key):
5326 """ If `key` is an integer or a slice, return the corresponding record
5327 selection as an instance (attached to `self.env`).
5328 Otherwise read the field `key` of the first record in `self`.
5332 inst = model.search(dom) # inst is a recordset
5333 r4 = inst[3] # fourth record in inst
5334 rs = inst[10:20] # subset of inst
5335 nm = rs['name'] # name of first record in inst
5337 if isinstance(key, basestring):
5338 # important: one must call the field's getter
5339 return self._fields[key].__get__(self, type(self))
5340 elif isinstance(key, slice):
5341 return self._browse(self.env, self._ids[key])
5343 return self._browse(self.env, (self._ids[key],))
5345 def __setitem__(self, key, value):
5346 """ Assign the field `key` to `value` in record `self`. """
5347 # important: one must call the field's setter
5348 return self._fields[key].__set__(self, value)
5351 # Cache and recomputation management
5356 """ Return the cache of `self`, mapping field names to values. """
5357 return RecordCache(self)
5360 def _in_cache_without(self, field):
5361 """ Make sure `self` is present in cache (for prefetching), and return
5362 the records of model `self` in cache that have no value for `field`
5363 (:class:`Field` instance).
5366 prefetch_ids = env.prefetch[self._name]
5367 prefetch_ids.update(self._ids)
5368 ids = filter(None, prefetch_ids - set(env.cache[field]))
5369 return self.browse(ids)
5373 """ Clear the records cache.
5376 The record cache is automatically invalidated.
5378 self.invalidate_cache()
5381 def invalidate_cache(self, fnames=None, ids=None):
5382 """ Invalidate the record caches after some records have been modified.
5383 If both `fnames` and `ids` are ``None``, the whole cache is cleared.
5385 :param fnames: the list of modified fields, or ``None`` for all fields
5386 :param ids: the list of modified record ids, or ``None`` for all
5390 return self.env.invalidate_all()
5391 fields = self._fields.values()
5393 fields = map(self._fields.__getitem__, fnames)
5395 # invalidate fields and inverse fields, too
5396 spec = [(f, ids) for f in fields] + \
5397 [(f.inverse_field, None) for f in fields if f.inverse_field]
5398 self.env.invalidate(spec)
5401 def modified(self, fnames):
5402 """ Notify that fields have been modified on `self`. This invalidates
5403 the cache, and prepares the recomputation of stored function fields
5404 (new-style fields only).
5406 :param fnames: iterable of field names that have been modified on
5409 # each field knows what to invalidate and recompute
5411 for fname in fnames:
5412 spec += self._fields[fname].modified(self)
5416 for env in self.env.all
5417 for field in env.cache
5419 # invalidate non-stored fields.function which are currently cached
5420 spec += [(f, None) for f in self.pool.pure_function_fields
5421 if f in cached_fields]
5423 self.env.invalidate(spec)
5425 def _recompute_check(self, field):
5426 """ If `field` must be recomputed on some record in `self`, return the
5427 corresponding records that must be recomputed.
5429 for env in [self.env] + list(iter(self.env.all)):
5430 if env.todo.get(field) and env.todo[field] & self:
5431 return env.todo[field]
5433 def _recompute_todo(self, field):
5434 """ Mark `field` to be recomputed. """
5435 todo = self.env.todo
5436 todo[field] = (todo.get(field) or self.browse()) | self
5438 def _recompute_done(self, field):
5439 """ Mark `field` as being recomputed. """
5440 todo = self.env.todo
5442 recs = todo.pop(field) - self
5447 def recompute(self):
5448 """ Recompute stored function fields. The fields and records to
5449 recompute have been determined by method :meth:`modified`.
5451 for env in list(iter(self.env.all)):
5453 field, recs = next(env.todo.iteritems())
5454 # evaluate the fields to recompute, and save them to database
5455 for rec, rec1 in zip(recs, recs.with_context(recompute=False)):
5457 values = rec._convert_to_write({
5458 f.name: rec[f.name] for f in field.computed_fields
5461 except MissingError:
5463 # mark the computed fields as done
5464 map(recs._recompute_done, field.computed_fields)
5467 # Generic onchange method
5470 def _has_onchange(self, field, other_fields):
5471 """ Return whether `field` should trigger an onchange event in the
5472 presence of `other_fields`.
5474 # test whether self has an onchange method for field, or field is a
5475 # dependency of any field in other_fields
5476 return field.name in self._onchange_methods or \
5477 any(dep in other_fields for dep in field.dependents)
5480 def _onchange_spec(self, view_info=None):
5481 """ Return the onchange spec from a view description; if not given, the
5482 result of ``self.fields_view_get()`` is used.
5486 # for traversing the XML arch and populating result
5487 def process(node, info, prefix):
5488 if node.tag == 'field':
5489 name = node.attrib['name']
5490 names = "%s.%s" % (prefix, name) if prefix else name
5491 if not result.get(names):
5492 result[names] = node.attrib.get('on_change')
5493 # traverse the subviews included in relational fields
5494 for subinfo in info['fields'][name].get('views', {}).itervalues():
5495 process(etree.fromstring(subinfo['arch']), subinfo, names)
5498 process(child, info, prefix)
5500 if view_info is None:
5501 view_info = self.fields_view_get()
5502 process(etree.fromstring(view_info['arch']), view_info, '')
5505 def _onchange_eval(self, field_name, onchange, result):
5506 """ Apply onchange method(s) for field `field_name` with spec `onchange`
5507 on record `self`. Value assignments are applied on `self`, while
5508 domain and warning messages are put in dictionary `result`.
5510 onchange = onchange.strip()
5513 if onchange in ("1", "true"):
5514 for method in self._onchange_methods.get(field_name, ()):
5515 method_res = method(self)
5518 if 'domain' in method_res:
5519 result.setdefault('domain', {}).update(method_res['domain'])
5520 if 'warning' in method_res:
5521 result['warning'] = method_res['warning']
5525 match = onchange_v7.match(onchange)
5527 method, params = match.groups()
5529 # evaluate params -> tuple
5530 global_vars = {'context': self._context, 'uid': self._uid}
5531 if self._context.get('field_parent'):
5532 class RawRecord(object):
5533 def __init__(self, record):
5534 self._record = record
5535 def __getattr__(self, name):
5536 field = self._record._fields[name]
5537 value = self._record[name]
5538 return field.convert_to_onchange(value)
5539 record = self[self._context['field_parent']]
5540 global_vars['parent'] = RawRecord(record)
5542 key: self._fields[key].convert_to_onchange(val)
5543 for key, val in self._cache.iteritems()
5545 params = eval("[%s]" % params, global_vars, field_vars)
5547 # call onchange method
5548 args = (self._cr, self._uid, self._origin.ids) + tuple(params)
5549 method_res = getattr(self._model, method)(*args)
5550 if not isinstance(method_res, dict):
5552 if 'value' in method_res:
5553 method_res['value'].pop('id', None)
5554 self.update(self._convert_to_cache(method_res['value']))
5555 if 'domain' in method_res:
5556 result.setdefault('domain', {}).update(method_res['domain'])
5557 if 'warning' in method_res:
5558 result['warning'] = method_res['warning']
5561 def onchange(self, values, field_name, field_onchange):
5562 """ Perform an onchange on the given field.
5564 :param values: dictionary mapping field names to values, giving the
5565 current state of modification
5566 :param field_name: name of the modified field_name
5567 :param field_onchange: dictionary mapping field names to their
5572 if field_name and field_name not in self._fields:
5575 # determine subfields for field.convert_to_write() below
5577 subfields = defaultdict(set)
5578 for dotname in field_onchange:
5580 secondary.append(dotname)
5581 name, subname = dotname.split('.')
5582 subfields[name].add(subname)
5584 # create a new record with values, and attach `self` to it
5585 with env.do_in_onchange():
5586 record = self.new(values)
5587 values = dict(record._cache)
5588 # attach `self` with a different context (for cache consistency)
5589 record._origin = self.with_context(__onchange=True)
5591 # determine which field should be triggered an onchange
5592 todo = set([field_name]) if field_name else set(values)
5595 # dummy assignment: trigger invalidations on the record
5597 record[name] = record[name]
5599 result = {'value': {}}
5607 with env.do_in_onchange():
5608 # apply field-specific onchange methods
5609 if field_onchange.get(name):
5610 record._onchange_eval(name, field_onchange[name], result)
5612 # force re-evaluation of function fields on secondary records
5613 for field_seq in secondary:
5614 record.mapped(field_seq)
5616 # determine which fields have been modified
5617 for name, oldval in values.iteritems():
5618 newval = record[name]
5619 if newval != oldval or getattr(newval, '_dirty', False):
5620 field = self._fields[name]
5621 result['value'][name] = field.convert_to_write(
5622 newval, record._origin, subfields[name],
5626 # At the moment, the client does not support updates on a *2many field
5627 # while this one is modified by the user.
5628 if field_name and self._fields[field_name].type in ('one2many', 'many2many'):
5629 result['value'].pop(field_name, None)
5634 class RecordCache(MutableMapping):
5635 """ Implements a proxy dictionary to read/update the cache of a record.
5636 Upon iteration, it looks like a dictionary mapping field names to
5637 values. However, fields may be used as keys as well.
5639 def __init__(self, records):
5640 self._recs = records
5642 def __contains__(self, field):
5643 """ Return whether `records[0]` has a value for `field` in cache. """
5644 if isinstance(field, basestring):
5645 field = self._recs._fields[field]
5646 return self._recs.id in self._recs.env.cache[field]
5648 def __getitem__(self, field):
5649 """ Return the cached value of `field` for `records[0]`. """
5650 if isinstance(field, basestring):
5651 field = self._recs._fields[field]
5652 value = self._recs.env.cache[field][self._recs.id]
5653 return value.get() if isinstance(value, SpecialValue) else value
5655 def __setitem__(self, field, value):
5656 """ Assign the cached value of `field` for all records in `records`. """
5657 if isinstance(field, basestring):
5658 field = self._recs._fields[field]
5659 values = dict.fromkeys(self._recs._ids, value)
5660 self._recs.env.cache[field].update(values)
5662 def update(self, *args, **kwargs):
5663 """ Update the cache of all records in `records`. If the argument is a
5664 `SpecialValue`, update all fields (except "magic" columns).
5666 if args and isinstance(args[0], SpecialValue):
5667 values = dict.fromkeys(self._recs._ids, args[0])
5668 for name, field in self._recs._fields.iteritems():
5670 self._recs.env.cache[field].update(values)
5672 return super(RecordCache, self).update(*args, **kwargs)
5674 def __delitem__(self, field):
5675 """ Remove the cached value of `field` for all `records`. """
5676 if isinstance(field, basestring):
5677 field = self._recs._fields[field]
5678 field_cache = self._recs.env.cache[field]
5679 for id in self._recs._ids:
5680 field_cache.pop(id, None)
5683 """ Iterate over the field names with a regular value in cache. """
5684 cache, id = self._recs.env.cache, self._recs.id
5685 dummy = SpecialValue(None)
5686 for name, field in self._recs._fields.iteritems():
5687 if name != 'id' and not isinstance(cache[field].get(id, dummy), SpecialValue):
5691 """ Return the number of fields with a regular value in cache. """
5692 return sum(1 for name in self)
5694 class Model(BaseModel):
5695 """Main super-class for regular database-persisted OpenERP models.
5697 OpenERP models are created by inheriting from this class::
5702 The system will later instantiate the class once per database (on
5703 which the class' module is installed).
5706 _register = False # not visible in ORM registry, meant to be python-inherited only
5707 _transient = False # True in a TransientModel
5709 class TransientModel(BaseModel):
5710 """Model super-class for transient records, meant to be temporarily
5711 persisted, and regularly vaccuum-cleaned.
5713 A TransientModel has a simplified access rights management,
5714 all users can create new records, and may only access the
5715 records they created. The super-user has unrestricted access
5716 to all TransientModel records.
5719 _register = False # not visible in ORM registry, meant to be python-inherited only
5722 class AbstractModel(BaseModel):
5723 """Abstract Model super-class for creating an abstract class meant to be
5724 inherited by regular models (Models or TransientModels) but not meant to
5725 be usable on its own, or persisted.
5727 Technical note: we don't want to make AbstractModel the super-class of
5728 Model or BaseModel because it would not make sense to put the main
5729 definition of persistence methods such as create() in it, and still we
5730 should be able to override them within an AbstractModel.
5732 _auto = False # don't create any database backend for AbstractModels
5733 _register = False # not visible in ORM registry, meant to be python-inherited only
5736 def itemgetter_tuple(items):
5737 """ Fixes itemgetter inconsistency (useful in some cases) of not returning
5738 a tuple if len(items) == 1: always returns an n-tuple where n = len(items)
5743 return lambda gettable: (gettable[items[0]],)
5744 return operator.itemgetter(*items)
5746 def convert_pgerror_23502(model, fields, info, e):
5747 m = re.match(r'^null value in column "(?P<field>\w+)" violates '
5748 r'not-null constraint\n',
5750 field_name = m and m.group('field')
5751 if not m or field_name not in fields:
5752 return {'message': unicode(e)}
5753 message = _(u"Missing required value for the field '%s'.") % field_name
5754 field = fields.get(field_name)
5756 message = _(u"Missing required value for the field '%s' (%s)") % (field['string'], field_name)
5759 'field': field_name,
5762 def convert_pgerror_23505(model, fields, info, e):
5763 m = re.match(r'^duplicate key (?P<field>\w+) violates unique constraint',
5765 field_name = m and m.group('field')
5766 if not m or field_name not in fields:
5767 return {'message': unicode(e)}
5768 message = _(u"The value for the field '%s' already exists.") % field_name
5769 field = fields.get(field_name)
5771 message = _(u"%s This might be '%s' in the current model, or a field "
5772 u"of the same name in an o2m.") % (message, field['string'])
5775 'field': field_name,
5778 PGERROR_TO_OE = defaultdict(
5779 # shape of mapped converters
5780 lambda: (lambda model, fvg, info, pgerror: {'message': unicode(pgerror)}), {
5781 # not_null_violation
5782 '23502': convert_pgerror_23502,
5783 # unique constraint error
5784 '23505': convert_pgerror_23505,
5787 def _normalize_ids(arg, atoms={int, long, str, unicode, NewId}):
5788 """ Normalizes the ids argument for ``browse`` (v7 and v8) to a tuple.
5790 Various implementations were tested on the corpus of all browse() calls
5791 performed during a full crawler run (after having installed all website_*
5792 modules) and this one was the most efficient overall.
5794 A possible bit of correctness was sacrificed by not doing any test on
5795 Iterable and just assuming that any non-atomic type was an iterable of
5800 # much of the corpus is falsy objects (empty list, tuple or set, None)
5804 # `type in set` is significantly faster (because more restrictive) than
5805 # isinstance(arg, set) or issubclass(type, set); and for new-style classes
5806 # obj.__class__ is equivalent to but faster than type(obj). Not relevant
5807 # (and looks much worse) in most cases, but over millions of calls it
5808 # does have a very minor effect.
5809 if arg.__class__ in atoms:
5814 # keep those imports here to avoid dependency cycle errors
5815 from .osv import expression
5816 from .fields import Field, SpecialValue, FailedValue
5818 # vim:expandtab:smartindent:tabstop=4:softtabstop=4:shiftwidth=4: