import simplejson
import time
import types
-import warnings
from lxml import etree
import fields
from openerp import SUPERUSER_ID
from query import Query
+_logger = logging.getLogger(__name__)
+_schema = logging.getLogger(__name__ + '.schema')
+
# List of etree._Element subclasses that we choose to ignore when parsing XML.
from openerp.tools import SKIPPED_ELEMENT_TYPES
def raise_on_invalid_object_name(name):
if not check_object_name(name):
msg = "The _name attribute %s is not valid." % name
- logger = netsvc.Logger()
- logger.notifyChannel('orm', netsvc.LOG_ERROR, msg)
+ _logger.error(msg)
raise except_orm('ValueError', msg)
POSTGRES_CONFDELTYPES = {
user_rec = uobj.browse(cr, uid, 104)
name = user_rec.name
"""
- logger = netsvc.Logger()
- def __init__(self, cr, uid, id, table, cache, context=None, list_class=None, fields_process=None):
+ def __init__(self, cr, uid, id, table, cache, context=None,
+ list_class=browse_record_list, fields_process=None):
"""
- @param cache a dictionary of model->field->data to be shared accross browse
- objects, thus reducing the SQL read()s . It can speed up things a lot,
- but also be disastrous if not discarded after write()/unlink() operations
- @param table the object (inherited from orm)
- @param context dictionary with an optional context
+ :param table: the browsed object (inherited from orm)
+ :param dict cache: a dictionary of model->field->data to be shared
+ across browse objects, thus reducing the SQL
+ read()s. It can speed up things a lot, but also be
+ disastrous if not discarded after write()/unlink()
+ operations
+ :param dict context: dictionary with an optional context
"""
if fields_process is None:
fields_process = {}
if context is None:
context = {}
- self._list_class = list_class or browse_record_list
+ self._list_class = list_class
self._cr = cr
self._uid = uid
self._id = id
self._table = table # deprecated, use _model!
self._model = table
self._table_name = self._table._name
- self.__logger = logging.getLogger(
- 'osv.browse_record.' + self._table_name)
+ self.__logger = logging.getLogger('openerp.osv.orm.browse_record.' + self._table_name)
self._context = context
self._fields_process = fields_process
return attr
else:
error_msg = "Field '%s' does not exist in object '%s'" % (name, self)
- self.logger.notifyChannel("browse_record", netsvc.LOG_WARNING, error_msg)
+ self.__logger.warning(error_msg)
raise KeyError(error_msg)
# if the field is a classic one or a many2one, we'll fetch all classic and many2one fields
if not field_values:
# Where did those ids come from? Perhaps old entries in ir_model_dat?
- self.__logger.warn("No field_values found for ids %s in %s", ids, self)
+ _logger.warning("No field_values found for ids %s in %s", ids, self)
raise KeyError('Field %s not found in %s'%(name, self))
# create browse records for 'remote' objects
for result_line in field_values:
if not name in self._data[self._id]:
# How did this happen? Could be a missing model due to custom fields used too soon, see above.
- self.logger.notifyChannel("browse_record", netsvc.LOG_ERROR,
- "Fields to fetch: %s, Field values: %s"%(field_names, field_values))
- self.logger.notifyChannel("browse_record", netsvc.LOG_ERROR,
- "Cached: %s, Table: %s"%(self._data[self._id], self._table))
+ self.__logger.error("Fields to fetch: %s, Field values: %s", field_names, field_values)
+ self.__logger.error("Cached: %s, Table: %s", self._data[self._id], self._table)
raise KeyError(_('Unknown attribute %s in %s ') % (name, self))
return self._data[self._id][name]
else:
pg_type = get_pg_type(f, getattr(fields, f._type))
else:
- logging.getLogger('orm').warn('%s type not supported!', field_type)
+ _logger.warning('%s type not supported!', field_type)
pg_type = None
return pg_type
super(MetaModel, self).__init__(name, bases, attrs)
return
- module_name = self.__module__.split('.')[0]
+ # The (OpenERP) module name can be in the `openerp.addons` namespace
+ # or not. For instance module `sale` can be imported as
+ # `openerp.addons.sale` (the good way) or `sale` (for backward
+ # compatibility).
+ module_parts = self.__module__.split('.')
+ if len(module_parts) > 2 and module_parts[0] == 'openerp' and \
+ module_parts[1] == 'addons':
+ module_name = self.__module__.split('.')[2]
+ else:
+ module_name = self.__module__.split('.')[0]
if not hasattr(self, '_module'):
self._module = module_name
_log_create = False
_sql_constraints = []
_protected = ['read', 'write', 'create', 'default_get', 'perm_read', 'unlink', 'fields_get', 'fields_view_get', 'search', 'name_get', 'distinct_field_get', 'name_search', 'copy', 'import_data', 'search_count', 'exists']
- __logger = logging.getLogger('orm')
- __schema = logging.getLogger('orm.schema')
CONCURRENCY_CHECK_FIELD = '__last_update'
name_id = 'model_'+self._name.replace('.', '_')
cr.execute('select * from ir_model_data where name=%s and module=%s', (name_id, context['module']))
if not cr.rowcount:
- cr.execute("INSERT INTO ir_model_data (name,date_init,date_update,module,model,res_id) VALUES (%s, now(), now(), %s, %s, %s)", \
+ 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)", \
(name_id, context['module'], 'ir.model', model_id)
)
cr.execute("select name from ir_model_data where name=%s", (name1,))
if cr.fetchone():
name1 = name1 + "_" + str(id)
- cr.execute("INSERT INTO ir_model_data (name,date_init,date_update,module,model,res_id) VALUES (%s, now(), now(), %s, %s, %s)", \
+ 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)", \
(name1, context['module'], 'ir.model.fields', id)
)
else:
for parent_name in ((type(parent_names)==list) and parent_names or [parent_names]):
parent_model = pool.get(parent_name)
- if not getattr(cls, '_original_module', None) and name == parent_model._name:
- cls._original_module = parent_model._original_module
if not parent_model:
raise TypeError('The model "%s" specifies an unexisting parent class "%s"\n'
'You may need to add a dependency on the parent class\' module.' % (name, parent_name))
+ if not getattr(cls, '_original_module', None) and name == parent_model._name:
+ cls._original_module = parent_model._original_module
parent_class = parent_model.__class__
nattr = {}
for s in attributes:
for c in new.keys():
if new[c].manual:
del new[c]
+ # Duplicate float fields because they have a .digits
+ # cache (which must be per-registry, not server-wide).
+ for c in new.keys():
+ if new[c]._type == 'float':
+ new[c] = copy.copy(new[c])
if hasattr(new, 'update'):
new.update(cls.__dict__.get(s, {}))
elif s=='_constraints':
name = type(self).__name__.split('.')[0]
msg = "The class %s has to have a _name attribute" % name
- logger = netsvc.Logger()
- logger.notifyChannel('orm', netsvc.LOG_ERROR, msg)
+ _logger.error(msg)
raise except_orm('ValueError', msg)
if not self._description:
else:
return False
+ def _get_xml_id(self, cr, uid, r):
+ model_data = self.pool.get('ir.model.data')
+ data_ids = model_data.search(cr, uid, [('model', '=', r._table_name), ('res_id', '=', r['id'])])
+ if len(data_ids):
+ d = model_data.read(cr, uid, data_ids, ['name', 'module'])[0]
+ if d['module']:
+ r = '%s.%s' % (d['module'], d['name'])
+ else:
+ r = d['name']
+ else:
+ postfix = 0
+ while True:
+ n = self._table+'_'+str(r['id']) + (postfix and ('_'+str(postfix)) or '' )
+ if not model_data.search(cr, uid, [('name', '=', n)]):
+ break
+ postfix += 1
+ model_data.create(cr, SUPERUSER_ID, {
+ 'name': n,
+ 'model': self._name,
+ 'res_id': r['id'],
+ 'module': '__export__',
+ })
+ r = '__export__.'+n
+ return r
+
lines = []
data = map(lambda x: '', range(len(fields)))
done = []
r = row
i = 0
while i < len(f):
+ cols = False
if f[i] == '.id':
r = r['id']
elif f[i] == 'id':
- model_data = self.pool.get('ir.model.data')
- data_ids = model_data.search(cr, uid, [('model', '=', r._table_name), ('res_id', '=', r['id'])])
- if len(data_ids):
- d = model_data.read(cr, uid, data_ids, ['name', 'module'])[0]
- if d['module']:
- r = '%s.%s' % (d['module'], d['name'])
- else:
- r = d['name']
- else:
- postfix = 0
- while True:
- n = self._table+'_'+str(r['id']) + (postfix and ('_'+str(postfix)) or '' )
- if not model_data.search(cr, uid, [('name', '=', n)]):
- break
- postfix += 1
- model_data.create(cr, uid, {
- 'name': n,
- 'model': self._name,
- 'res_id': r['id'],
- 'module': '__export__',
- })
- r = n
+ r = _get_xml_id(self, cr, uid, r)
else:
r = r[f[i]]
# To display external name of selection field when its exported
- cols = False
if f[i] in self._columns.keys():
cols = self._columns[f[i]]
elif f[i] in self._inherit_fields.keys():
if [x for x in fields2 if x]:
break
done.append(fields2)
+ if cols and cols._type=='many2many' and len(fields[fpos])>(i+1) and (fields[fpos][i+1]=='id'):
+ data[fpos] = ','.join([_get_xml_id(self, cr, uid, x) for x in r])
+ break
+
for row2 in r:
- lines2 = self.__export_row(cr, uid, row2, fields2,
+ lines2 = row2._model.__export_row(cr, uid, row2, fields2,
context)
if first:
for fpos2 in range(len(fields)):
newfd = relation_obj.fields_get( cr, uid, context=context )
pos = position
- res = many_ids(line[i], relation, current_module, mode)
+ res = []
first = 0
while pos < len(datas):
warning += w2
first += 1
- if data_res_id2:
- res.append((4, data_res_id2))
-
if (not newrow) or not reduce(lambda x, y: x or y, newrow.values(), 0):
break
res = key
break
if line[i] and not res:
- logging.getLogger('orm.import').warn(
+ _logger.warning(
_("key '%s' not found in selection field '%s'"),
tools.ustr(line[i]), tools.ustr(field_name))
warning.append(_("Key/value '%s' not found in selection field '%s'") % (
trans = self.pool.get('ir.translation')._get_source(cr, user, self._name, 'view', context['lang'], node.get('sum'))
if trans:
node.set('sum', trans)
+ if node.get('avg'):
+ trans = self.pool.get('ir.translation')._get_source(cr, user, self._name, 'view', context['lang'], node.get('avg'))
+ if trans:
+ node.set('avg', trans)
if node.get('help'):
trans = self.pool.get('ir.translation')._get_source(cr, user, self._name, 'view', context['lang'], node.get('help'))
if trans:
res.insert(0, ("Can't find field '%s' in the following view parts composing the view of object model '%s':" % (field, model), None))
msg = "\n * ".join([r[0] for r in res])
msg += "\n\nEither you wrongly customized this view, or some modules bringing those views are not compatible with your current data model"
- netsvc.Logger().notifyChannel('orm', netsvc.LOG_ERROR, msg)
+ _logger.error(msg)
raise except_orm('View error', msg)
return arch, fields
try:
getattr(self, '_ormcache')
self._ormcache = {}
+ self.pool._any_cache_cleared = True
except AttributeError:
pass
def _parent_store_compute(self, cr):
if not self._parent_store:
return
- logger = netsvc.Logger()
- logger.notifyChannel('data', netsvc.LOG_INFO, 'Computing parent left and right for table %s...' % (self._table, ))
+ _logger.info('Computing parent left and right for table %s...', self._table)
def browse_rec(root, pos=0):
# TODO: set order
where = self._parent_name+'='+str(root)
return True
def _update_store(self, cr, f, k):
- logger = netsvc.Logger()
- logger.notifyChannel('data', netsvc.LOG_INFO, "storing computed values of fields.function '%s'" % (k,))
+ _logger.info("storing computed values of fields.function '%s'", k)
ss = self._columns[k]._symbol_set
update_query = 'UPDATE "%s" SET "%s"=%s WHERE id=%%s' % (self._table, k, ss[0])
cr.execute('select id from '+self._table)
elif val in dict(self._columns[field].selection(self, cr, uid, context=context)):
return
raise except_orm(_('ValidateError'),
- _('The value "%s" for the field "%s.%s" is not in the selection') % (value, self._table, field))
+ _('The value "%s" for the field "%s.%s" is not in the selection') % (value, self._table, field))
def _check_removed_columns(self, cr, log=False):
# iterate on the database columns to drop the NOT NULL constraints
for column in cr.dictfetchall():
if log:
- self.__logger.debug("column %s is in the table %s but not in the corresponding object %s",
- column['attname'], self._table, self._name)
+ _logger.debug("column %s is in the table %s but not in the corresponding object %s",
+ column['attname'], self._table, self._name)
if column['attnotnull']:
cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" DROP NOT NULL' % (self._table, column['attname']))
- self.__schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
- self._table, column['attname'])
+ _schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
+ self._table, column['attname'])
# checked version: for direct m2o starting from `self`
def _m2o_add_foreign_key_checked(self, source_field, dest_model, ondelete):
# So unless stated otherwise we default them to ondelete=cascade.
ondelete = ondelete or 'cascade'
self._foreign_keys.append((self._table, source_field, dest_model._table, ondelete or 'set null'))
- self.__schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s",
- self._table, source_field, dest_model._table, ondelete)
+ _schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s",
+ self._table, source_field, dest_model._table, ondelete)
# unchecked version: for custom cases, such as m2m relationships
def _m2o_add_foreign_key_unchecked(self, source_table, source_field, dest_model, ondelete):
self._foreign_keys.append((source_table, source_field, dest_model._table, ondelete or 'set null'))
- self.__schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s",
- source_table, source_field, dest_model._table, ondelete)
+ _schema.debug("Table '%s': added foreign key '%s' with definition=REFERENCES \"%s\" ON DELETE %s",
+ source_table, source_field, dest_model._table, ondelete)
+
+ def _drop_constraint(self, cr, source_table, constraint_name):
+ cr.execute("ALTER TABLE %s DROP CONSTRAINT %s" % (source_table,constraint_name))
+
+ def _m2o_fix_foreign_key(self, cr, source_table, source_field, dest_model, ondelete):
+ # Find FK constraint(s) currently established for the m2o field,
+ # and see whether they are stale or not
+ cr.execute("""SELECT confdeltype as ondelete_rule, conname as constraint_name,
+ cl2.relname as foreign_table
+ FROM pg_constraint as con, pg_class as cl1, pg_class as cl2,
+ pg_attribute as att1, pg_attribute as att2
+ WHERE con.conrelid = cl1.oid
+ AND cl1.relname = %s
+ AND con.confrelid = cl2.oid
+ AND array_lower(con.conkey, 1) = 1
+ AND con.conkey[1] = att1.attnum
+ AND att1.attrelid = cl1.oid
+ AND att1.attname = %s
+ AND array_lower(con.confkey, 1) = 1
+ AND con.confkey[1] = att2.attnum
+ AND att2.attrelid = cl2.oid
+ AND att2.attname = %s
+ AND con.contype = 'f'""", (source_table, source_field, 'id'))
+ constraints = cr.dictfetchall()
+ if constraints:
+ if len(constraints) == 1:
+ # Is it the right constraint?
+ cons, = constraints
+ if cons['ondelete_rule'] != POSTGRES_CONFDELTYPES.get((ondelete or 'set null').upper(), 'a')\
+ or cons['foreign_table'] != dest_model._table:
+ _schema.debug("Table '%s': dropping obsolete FK constraint: '%s'",
+ source_table, cons['constraint_name'])
+ self._drop_constraint(cr, source_table, cons['constraint_name'])
+ self._m2o_add_foreign_key_checked(source_field, dest_model, ondelete)
+ # else it's all good, nothing to do!
+ else:
+ # Multiple FKs found for the same field, drop them all, and re-create
+ for cons in constraints:
+ _schema.debug("Table '%s': dropping duplicate FK constraints: '%s'",
+ source_table, cons['constraint_name'])
+ self._drop_constraint(cr, source_table, cons['constraint_name'])
+ self._m2o_add_foreign_key_checked(source_field, dest_model, ondelete)
+
+
def _auto_init(self, cr, context=None):
"""
cr.execute('ALTER TABLE "%s" RENAME "%s" TO "%s"' % (self._table, f.oldname, k))
res['attname'] = k
column_data[k] = res
- self.__schema.debug("Table '%s': renamed column '%s' to '%s'",
- self._table, f.oldname, k)
+ _schema.debug("Table '%s': renamed column '%s' to '%s'",
+ self._table, f.oldname, k)
# The field already exists in database. Possibly
# change its type, rename it, drop it or change its
f_pg_notnull = res['attnotnull']
if isinstance(f, fields.function) and not f.store and\
not getattr(f, 'nodrop', False):
- self.__logger.info('column %s (%s) in table %s removed: converted to a function !\n',
- k, f.string, self._table)
+ _logger.info('column %s (%s) in table %s removed: converted to a function !\n',
+ k, f.string, self._table)
cr.execute('ALTER TABLE "%s" DROP COLUMN "%s" CASCADE' % (self._table, k))
cr.commit()
- self.__schema.debug("Table '%s': dropped column '%s' with cascade",
- self._table, k)
+ _schema.debug("Table '%s': dropped column '%s' with cascade",
+ self._table, k)
f_obj_type = None
else:
f_obj_type = get_pg_type(f) and get_pg_type(f)[0]
cr.execute('UPDATE "%s" SET "%s"=temp_change_size::%s' % (self._table, k, pg_varchar(f.size)))
cr.execute('ALTER TABLE "%s" DROP COLUMN temp_change_size CASCADE' % (self._table,))
cr.commit()
- self.__schema.debug("Table '%s': column '%s' (type varchar) changed size from %s to %s",
+ _schema.debug("Table '%s': column '%s' (type varchar) changed size from %s to %s",
self._table, k, f_pg_size, f.size)
for c in casts:
if (f_pg_type==c[0]) and (f._type==c[1]):
cr.execute(('UPDATE "%s" SET "%s"=temp_change_size'+c[3]) % (self._table, k))
cr.execute('ALTER TABLE "%s" DROP COLUMN temp_change_size CASCADE' % (self._table,))
cr.commit()
- self.__schema.debug("Table '%s': column '%s' changed type from %s to %s",
+ _schema.debug("Table '%s': column '%s' changed type from %s to %s",
self._table, k, c[0], c[1])
break
cr.execute('ALTER TABLE "%s" RENAME COLUMN "%s" TO "%s"' % (self._table, k, newname))
cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, get_pg_type(f)[1]))
cr.execute("COMMENT ON COLUMN %s.\"%s\" IS %%s" % (self._table, k), (f.string,))
- self.__schema.debug("Table '%s': column '%s' has changed type (DB=%s, def=%s), data moved to column %s !",
+ _schema.debug("Table '%s': column '%s' has changed type (DB=%s, def=%s), data moved to column %s !",
self._table, k, f_pg_type, f._type, newname)
# if the field is required and hasn't got a NOT NULL constraint
try:
cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" SET NOT NULL' % (self._table, k), log_exceptions=False)
cr.commit()
- self.__schema.debug("Table '%s': column '%s': added NOT NULL constraint",
- self._table, k)
+ _schema.debug("Table '%s': column '%s': added NOT NULL constraint",
+ self._table, k)
except Exception:
msg = "Table '%s': unable to set a NOT NULL constraint on column '%s' !\n"\
"If you want to have it, you should update the records and execute manually:\n"\
"ALTER TABLE %s ALTER COLUMN %s SET NOT NULL"
- self.__schema.warn(msg, self._table, k, self._table, k)
+ _schema.warning(msg, self._table, k, self._table, k)
cr.commit()
elif not f.required and f_pg_notnull == 1:
cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" DROP NOT NULL' % (self._table, k))
cr.commit()
- self.__schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
- self._table, k)
+ _schema.debug("Table '%s': column '%s': dropped NOT NULL constraint",
+ self._table, k)
# Verify index
indexname = '%s_%s_index' % (self._table, k)
cr.execute("SELECT indexname FROM pg_indexes WHERE indexname = %s and tablename = %s", (indexname, self._table))
"This is probably useless (does not work for fulltext search) and prevents INSERTs of long texts"\
" because there is a length limit for indexable btree values!\n"\
"Use a search view instead if you simply want to make the field searchable."
- self.__schema.warn(msg, self._table, k, f._type)
+ _schema.warning(msg, self._table, k, f._type)
if res2 and not f.select:
cr.execute('DROP INDEX "%s_%s_index"' % (self._table, k))
cr.commit()
msg = "Table '%s': dropping index for column '%s' of type '%s' as it is not required anymore"
- self.__schema.debug(msg, self._table, k, f._type)
+ _schema.debug(msg, self._table, k, f._type)
if isinstance(f, fields.many2one):
dest_model = self.pool.get(f._obj)
- ref = dest_model._table
- if ref != 'ir_actions':
- cr.execute('SELECT confdeltype, conname FROM pg_constraint as con, pg_class as cl1, pg_class as cl2, '
- 'pg_attribute as att1, pg_attribute as att2 '
- 'WHERE con.conrelid = cl1.oid '
- 'AND cl1.relname = %s '
- 'AND con.confrelid = cl2.oid '
- 'AND cl2.relname = %s '
- 'AND array_lower(con.conkey, 1) = 1 '
- 'AND con.conkey[1] = att1.attnum '
- 'AND att1.attrelid = cl1.oid '
- 'AND att1.attname = %s '
- 'AND array_lower(con.confkey, 1) = 1 '
- 'AND con.confkey[1] = att2.attnum '
- 'AND att2.attrelid = cl2.oid '
- 'AND att2.attname = %s '
- "AND con.contype = 'f'", (self._table, ref, k, 'id'))
- res2 = cr.dictfetchall()
- if res2:
- if res2[0]['confdeltype'] != POSTGRES_CONFDELTYPES.get((f.ondelete or 'set null').upper(), 'a'):
- cr.execute('ALTER TABLE "' + self._table + '" DROP CONSTRAINT "' + res2[0]['conname'] + '"')
- self._m2o_add_foreign_key_checked(k, dest_model, f.ondelete)
- cr.commit()
- self.__schema.debug("Table '%s': column '%s': XXX",
- self._table, k)
+ if dest_model._table != 'ir_actions':
+ self._m2o_fix_foreign_key(cr, self._table, k, dest_model, f.ondelete)
# The field doesn't exist in database. Create it if necessary.
else:
# add the missing field
cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, k, get_pg_type(f)[1]))
cr.execute("COMMENT ON COLUMN %s.\"%s\" IS %%s" % (self._table, k), (f.string,))
- self.__schema.debug("Table '%s': added column '%s' with definition=%s",
+ _schema.debug("Table '%s': added column '%s' with definition=%s",
self._table, k, get_pg_type(f)[1])
# initialize it
query = 'UPDATE "%s" SET "%s"=%s' % (self._table, k, ss[0])
cr.execute(query, (ss[1](default),))
cr.commit()
- netsvc.Logger().notifyChannel('data', netsvc.LOG_DEBUG, "Table '%s': setting default value of new column %s" % (self._table, k))
+ _logger.debug("Table '%s': setting default value of new column %s", self._table, k)
# remember the functions to call for the stored fields
if isinstance(f, fields.function):
try:
cr.commit()
cr.execute('ALTER TABLE "%s" ALTER COLUMN "%s" SET NOT NULL' % (self._table, k), log_exceptions=False)
- self.__schema.debug("Table '%s': column '%s': added a NOT NULL constraint",
+ _schema.debug("Table '%s': column '%s': added a NOT NULL constraint",
self._table, k)
except Exception:
msg = "WARNING: unable to set column %s of table %s not null !\n"\
"Try to re-run: openerp-server --update=module\n"\
"If it doesn't work, update records and execute manually:\n"\
"ALTER TABLE %s ALTER COLUMN %s SET NOT NULL"
- self.__logger.warn(msg, k, self._table, self._table, k)
+ _logger.warning(msg, k, self._table, self._table, k)
cr.commit()
else:
def _create_table(self, cr):
cr.execute('CREATE TABLE "%s" (id SERIAL NOT NULL, PRIMARY KEY(id)) WITHOUT OIDS' % (self._table,))
cr.execute(("COMMENT ON TABLE \"%s\" IS %%s" % self._table), (self._description,))
- self.__schema.debug("Table '%s': created", self._table)
+ _schema.debug("Table '%s': created", self._table)
def _parent_columns_exist(self, cr):
cr.execute('ALTER TABLE "%s" ADD COLUMN "parent_left" INTEGER' % (self._table,))
cr.execute('ALTER TABLE "%s" ADD COLUMN "parent_right" INTEGER' % (self._table,))
if 'parent_left' not in self._columns:
- self.__logger.error('create a column parent_left on object %s: fields.integer(\'Left Parent\', select=1)',
- self._table)
- self.__schema.debug("Table '%s': added column '%s' with definition=%s",
- self._table, 'parent_left', 'INTEGER')
+ _logger.error('create a column parent_left on object %s: fields.integer(\'Left Parent\', select=1)',
+ self._table)
+ _schema.debug("Table '%s': added column '%s' with definition=%s",
+ self._table, 'parent_left', 'INTEGER')
elif not self._columns['parent_left'].select:
- self.__logger.error('parent_left column on object %s must be indexed! Add select=1 to the field definition)',
- self._table)
+ _logger.error('parent_left column on object %s must be indexed! Add select=1 to the field definition)',
+ self._table)
if 'parent_right' not in self._columns:
- self.__logger.error('create a column parent_right on object %s: fields.integer(\'Right Parent\', select=1)',
- self._table)
- self.__schema.debug("Table '%s': added column '%s' with definition=%s",
- self._table, 'parent_right', 'INTEGER')
+ _logger.error('create a column parent_right on object %s: fields.integer(\'Right Parent\', select=1)',
+ self._table)
+ _schema.debug("Table '%s': added column '%s' with definition=%s",
+ self._table, 'parent_right', 'INTEGER')
elif not self._columns['parent_right'].select:
- self.__logger.error('parent_right column on object %s must be indexed! Add select=1 to the field definition)',
- self._table)
+ _logger.error('parent_right column on object %s must be indexed! Add select=1 to the field definition)',
+ self._table)
if self._columns[self._parent_name].ondelete != 'cascade':
- self.__logger.error("The column %s on object %s must be set as ondelete='cascade'",
- self._parent_name, self._name)
+ _logger.error("The column %s on object %s must be set as ondelete='cascade'",
+ self._parent_name, self._name)
cr.commit()
if not cr.rowcount:
cr.execute('ALTER TABLE "%s" ADD COLUMN "%s" %s' % (self._table, field, field_def))
cr.commit()
- self.__schema.debug("Table '%s': added column '%s' with definition=%s",
- self._table, field, field_def)
+ _schema.debug("Table '%s': added column '%s' with definition=%s",
+ self._table, field, field_def)
def _select_column_data(self, cr):
cr.execute('CREATE INDEX "%s_%s_index" ON "%s" ("%s")' % (m2m_tbl, col2, m2m_tbl, col2))
cr.execute("COMMENT ON TABLE \"%s\" IS 'RELATION BETWEEN %s AND %s'" % (m2m_tbl, self._table, ref))
cr.commit()
- self.__schema.debug("Create table '%s': m2m relation between '%s' and '%s'", m2m_tbl, self._table, ref)
+ _schema.debug("Create table '%s': m2m relation between '%s' and '%s'", m2m_tbl, self._table, ref)
def _add_sql_constraints(self, cr):
_sql_constraints.
"""
+ def unify_cons_text(txt):
+ return txt.lower().replace(', ',',').replace(' (','(')
+
for (key, con, _) in self._sql_constraints:
conname = '%s_%s' % (self._table, key)
# constraint does not exists:
sql_actions['add']['execute'] = True
sql_actions['add']['msg_err'] = sql_actions['add']['msg_err'] % (sql_actions['add']['query'], )
- elif con.lower() not in [item['condef'].lower() for item in existing_constraints]:
+ elif unify_cons_text(con) not in [unify_cons_text(item['condef']) for item in existing_constraints]:
# constraint exists but its definition has changed:
sql_actions['drop']['execute'] = True
sql_actions['drop']['msg_ok'] = sql_actions['drop']['msg_ok'] % (existing_constraints[0]['condef'].lower(), )
try:
cr.execute(sql_action['query'])
cr.commit()
- self.__schema.debug(sql_action['msg_ok'])
+ _schema.debug(sql_action['msg_ok'])
except:
- self.__schema.warn(sql_action['msg_err'])
+ _schema.warning(sql_action['msg_err'])
cr.rollback()
def _inherits_check(self):
for table, field_name in self._inherits.items():
if field_name not in self._columns:
- logging.getLogger('init').info('Missing many2one field definition for _inherits reference "%s" in "%s", using default one.' % (field_name, self._name))
+ _logger.info('Missing many2one field definition for _inherits reference "%s" in "%s", using default one.', field_name, self._name)
self._columns[field_name] = fields.many2one(table, string="Automatically created field to link to parent %s" % table,
required=True, ondelete="cascade")
elif not self._columns[field_name].required or self._columns[field_name].ondelete.lower() != "cascade":
- logging.getLogger('init').warning('Field definition for _inherits reference "%s" in "%s" must be marked as "required" with ondelete="cascade", forcing it.' % (field_name, self._name))
+ _logger.warning('Field definition for _inherits reference "%s" in "%s" must be marked as "required" with ondelete="cascade", forcing it.', field_name, self._name)
self._columns[field_name].required = True
self._columns[field_name].ondelete = "cascade"
return "date_trunc('second', %s) as %s" % (f_qual, f)
if f == self.CONCURRENCY_CHECK_FIELD:
if self._log_access:
- return "COALESCE(%s.write_date, %s.create_date, now())::timestamp AS %s" % (self._table, self._table, f,)
- return "now()::timestamp AS %s" % (f,)
+ return "COALESCE(%s.write_date, %s.create_date, (now() at time zone 'UTC'))::timestamp AS %s" % (self._table, self._table, f,)
+ return "(now() at time zone 'UTC')::timestamp AS %s" % (f,)
if isinstance(self._columns[f], fields.binary) and context.get('bin_size', False):
return 'length(%s) as "%s"' % (f_qual, f)
return f_qual
return
if not (context.get(self.CONCURRENCY_CHECK_FIELD) and self._log_access):
return
- check_clause = "(id = %s AND %s < COALESCE(write_date, create_date, now())::timestamp)"
+ check_clause = "(id = %s AND %s < COALESCE(write_date, create_date, (now() at time zone 'UTC'))::timestamp)"
for sub_ids in cr.split_for_in_conditions(ids):
ids_to_check = []
for id in sub_ids:
self.check_unlink(cr, uid)
- properties = self.pool.get('ir.property')
+ ir_property = self.pool.get('ir.property')
+
+ # Check if the records are used as default properties.
domain = [('res_id', '=', False),
('value_reference', 'in', ['%s,%s' % (self._name, i) for i in ids]),
]
- if properties.search(cr, uid, domain, context=context):
+ if ir_property.search(cr, uid, domain, context=context):
raise except_orm(_('Error'), _('Unable to delete this document because it is used as a default property'))
+ # Delete the records' properties.
+ property_ids = ir_property.search(cr, uid, [('res_id', 'in', ['%s,%s' % (self._name, i) for i in ids])], context=context)
+ ir_property.unlink(cr, uid, property_ids, context=context)
+
wf_service = netsvc.LocalService("workflow")
for oid in ids:
wf_service.trg_delete(uid, self._name, oid, cr)
if readonly[0][0] >= 1:
edit = True
break
- elif readonly[0][0] == 0:
- edit = False
- else:
- edit = False
if not edit:
vals.pop(field)
if self._log_access:
upd0.append('write_uid=%s')
- upd0.append('write_date=now()')
+ upd0.append("write_date=(now() at time zone 'UTC')")
upd1.append(user)
if len(upd0):
self.pool.get(table).write(cr, user, nids, v, context)
if unknown_fields:
- self.__logger.warn(
+ _logger.warning(
'No such field(s) in model %s: %s.',
self._name, ', '.join(unknown_fields))
self._validate(cr, user, ids, context)
del vals[v]
unknown_fields.append(v)
if unknown_fields:
- self.__logger.warn(
+ _logger.warning(
'No such field(s) in model %s: %s.',
self._name, ', '.join(unknown_fields))
del vals[self._inherits[table]]
record_id = tocreate[table].pop('id', None)
-
+
+ # When linking/creating parent records, force context without 'no_store_function' key that
+ # defers stored functions computing, as these won't be computed in batch at the end of create().
+ parent_context = dict(context)
+ parent_context.pop('no_store_function', None)
+
if record_id is None or not record_id:
- record_id = self.pool.get(table).create(cr, user, tocreate[table], context=context)
+ record_id = self.pool.get(table).create(cr, user, tocreate[table], context=parent_context)
else:
- self.pool.get(table).write(cr, user, [record_id], tocreate[table], context=context)
+ self.pool.get(table).write(cr, user, [record_id], tocreate[table], context=parent_context)
upd0 += ',' + self._inherits[table]
upd1 += ',%s'
self._check_selection_field_value(cr, user, field, vals[field], context=context)
if self._log_access:
upd0 += ',create_uid,create_date'
- upd1 += ',%s,now()'
+ upd1 += ",%s,(now() at time zone 'UTC')"
upd2.append(user)
cr.execute('insert into "'+self._table+'" (id'+upd0+") values ("+str(id_new)+upd1+')', tuple(upd2))
self.check_access_rule(cr, user, [id_new], 'create', context=context)
"""Fetch records as objects allowing to use dot notation to browse fields and relations
:param cr: database cursor
- :param user: current user id
+ :param uid: current user id
:param select: id or list of ids.
:param context: context arguments, like lang, time zone
:rtype: object or list of objects requested
domain = domain[:]
# if the object has a field named 'active', filter out all inactive
# records unless they were explicitely asked for
- if 'active' in self._columns and (active_test and context.get('active_test', True)):
+ if 'active' in self._all_columns and (active_test and context.get('active_test', True)):
if domain:
- active_in_args = False
- for a in domain:
- if a[0] == 'active':
- active_in_args = True
- if not active_in_args:
+ # the item[0] trick below works for domain items and '&'/'|'/'!'
+ # operators too
+ if not any(item[0] == 'active' for item in domain):
domain.insert(0, ('active', '=', 1))
else:
domain = [('active', '=', 1)]
assert order_field_column._type == 'many2one', 'Invalid field passed to _generate_m2o_order_by()'
if not order_field_column._classic_write and not getattr(order_field_column, 'store', False):
- logging.getLogger('orm.search').debug("Many2one function/related fields must be stored " \
- "to be used as ordering fields! Ignoring sorting for %s.%s",
- self._name, order_field)
+ _logger.debug("Many2one function/related fields must be stored " \
+ "to be used as ordering fields! Ignoring sorting for %s.%s",
+ self._name, order_field)
return
# figure out the applicable order_by for the m2o
return [x[0] for x in cr.fetchall()]
def check_recursion(self, cr, uid, ids, context=None, parent=None):
- warnings.warn("You are using deprecated %s.check_recursion(). Please use the '_check_recursion()' instead!" % \
- self._name, DeprecationWarning, stacklevel=3)
+ _logger.warning("You are using deprecated %s.check_recursion(). Please use the '_check_recursion()' instead!" % \
+ self._name)
assert parent is None or parent in self._columns or parent in self._inherit_fields,\
"The 'parent' parameter passed to check_recursion() must be None or a valid field name"
return self._check_recursion(cr, uid, ids, context, parent)
def _transient_clean_rows_older_than(self, cr, seconds):
assert self._transient, "Model %s is not transient, it cannot be vacuumed!" % self._name
cr.execute("SELECT id FROM " + self._table + " WHERE"
- " COALESCE(write_date, create_date, now())::timestamp <"
- " (now() - interval %s)", ("%s seconds" % seconds,))
+ " COALESCE(write_date, create_date, (now() at time zone 'UTC'))::timestamp <"
+ " ((now() at time zone 'UTC') - interval %s)", ("%s seconds" % seconds,))
ids = [x[0] for x in cr.fetchall()]
self.unlink(cr, SUPERUSER_ID, ids)
def _transient_clean_old_rows(self, cr, count):
assert self._transient, "Model %s is not transient, it cannot be vacuumed!" % self._name
cr.execute(
- "SELECT id, COALESCE(write_date, create_date, now())::timestamp"
+ "SELECT id, COALESCE(write_date, create_date, (now() at time zone 'UTC'))::timestamp"
" AS t FROM " + self._table +
" ORDER BY t LIMIT %s", (count,))
ids = [x[0] for x in cr.fetchall()]