def __init__(self): self.envs = WeakSet() # weak set of environments self.cache = Cache() # cache for all records self.protected = StackMap() # fields to protect {field: ids, ...} self.tocompute = defaultdict(set) # recomputations {field: ids} # updates {model: {id: {field: value}}} self.towrite = defaultdict(lambda: defaultdict(dict))
def __new__(cls, cr, uid, context): assert context is not None args = (cr, uid, context) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) self.cr, self.uid, self.context = self.args = (cr, uid, frozendict(context)) self.registry = Registry(cr.dbname) self.cache = envs.cache self._protected = StackMap() # {field: ids, ...} self.dirty = defaultdict(set) # {record: set(field_name), ...} self.all = envs envs.add(self) return self
def __new__(cls, cr, uid, context, su=False): if uid == SUPERUSER_ID: su = True assert context is not None args = (cr, uid, context, su) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) args = (cr, uid, frozendict(context), su) self.cr, self.uid, self.context, self.su = self.args = args self.registry = Registry(cr.dbname) self.cache = envs.cache self._protected = StackMap() # {field: ids, ...} self.all = envs envs.add(self) return self
class Environment(Mapping): """ An environment wraps data for ORM records: - :attr:`cr`, the current database cursor; - :attr:`uid`, the current user id; - :attr:`context`, the current context dictionary. It provides access to the registry by implementing a mapping from model names to new api models. It also holds a cache for records, and a data structure to manage recomputations. """ _local = Local() @classproperty def envs(cls): return cls._local.environments @classmethod @contextmanager def manage(cls): """ Context manager for a set of environments. """ if hasattr(cls._local, 'environments'): yield else: try: cls._local.environments = Environments() yield finally: release_local(cls._local) @classmethod def reset(cls): """ Clear the set of environments. This may be useful when recreating a registry inside a transaction. """ cls._local.environments = Environments() def __new__(cls, cr, uid, context): assert context is not None args = (cr, uid, context) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) self.cr, self.uid, self.context = self.args = (cr, uid, frozendict(context)) self.registry = Registry(cr.dbname) self.cache = envs.cache self._cache_key = (cr, uid) self._protected = StackMap() # {field: ids, ...} self.dirty = defaultdict(set) # {record: set(field_name), ...} self.all = envs envs.add(self) return self # # Mapping methods # def __contains__(self, model_name): """ Test whether the given model exists. """ return model_name in self.registry def __getitem__(self, model_name): """ Return an empty recordset from the given model. """ return self.registry[model_name]._browse(self, (), ()) def __iter__(self): """ Return an iterator on model names. """ return iter(self.registry) def __len__(self): """ Return the size of the model registry. """ return len(self.registry) def __eq__(self, other): return self is other def __ne__(self, other): return self is not other def __hash__(self): return object.__hash__(self) def __call__(self, cr=None, user=None, context=None): """ Return an environment based on ``self`` with modified parameters. :param cr: optional database cursor to change the current cursor :param user: optional user/user id to change the current user :param context: optional context dictionary to change the current context """ cr = self.cr if cr is None else cr uid = self.uid if user is None else int(user) context = self.context if context is None else context return Environment(cr, uid, context) def ref(self, xml_id, raise_if_not_found=True): """ return the record corresponding to the given ``xml_id`` """ return self['ir.model.data'].xmlid_to_object(xml_id, raise_if_not_found=raise_if_not_found) @property def user(self): """ return the current user (as an instance) """ return self(user=SUPERUSER_ID)['res.users'].browse(self.uid) @property def lang(self): """ return the current language code """ return self.context.get('lang') @contextmanager def _do_in_mode(self, mode): if self.all.mode: yield else: try: self.all.mode = mode yield finally: self.all.mode = False self.dirty.clear() def do_in_draft(self): """ Context-switch to draft mode, where all field updates are done in cache only. """ return self._do_in_mode(True) @property def in_draft(self): """ Return whether we are in draft mode. """ return bool(self.all.mode) def do_in_onchange(self): """ Context-switch to 'onchange' draft mode, which is a specialized draft mode used during execution of onchange methods. """ return self._do_in_mode('onchange') @property def in_onchange(self): """ Return whether we are in 'onchange' draft mode. """ return self.all.mode == 'onchange' def clear(self): """ Clear all record caches, and discard all fields to recompute. This may be useful when recovering from a failed ORM operation. """ self.cache.invalidate() self.all.todo.clear() @contextmanager def clear_upon_failure(self): """ Context manager that clears the environments (caches and fields to recompute) upon exception. """ try: yield except Exception: self.clear() raise def protected(self, field): """ Return the recordset for which ``field`` should not be invalidated or recomputed. """ return self[field.model_name].browse(self._protected.get(field, ())) @contextmanager def protecting(self, what, records=None): """ Prevent the invalidation or recomputation of fields on records. The parameters are either: - ``what`` a collection of fields and ``records`` a recordset, or - ``what`` a collection of pairs ``(fields, records)``. """ protected = self._protected try: protected.pushmap() what = what if records is None else [(what, records)] for fields, records in what: for field in fields: ids = protected.get(field, frozenset()) protected[field] = ids.union(records._ids) yield finally: protected.popmap() def field_todo(self, field): """ Return a recordset with all records to recompute for ``field``. """ ids = {rid for recs in self.all.todo.get(field, ()) for rid in recs.ids} return self[field.model_name].browse(ids) def check_todo(self, field, record): """ Check whether ``field`` must be recomputed on ``record``, and if so, return the corresponding recordset to recompute. """ for recs in self.all.todo.get(field, []): if recs & record: return recs def add_todo(self, field, records): """ Mark ``field`` to be recomputed on ``records``. """ recs_list = self.all.todo.setdefault(field, []) for i, recs in enumerate(recs_list): if recs.env == records.env: # only add records if not already in the recordset, much much # cheaper in case recs is big and records is a singleton # already present if not records <= recs: recs_list[i] |= records break else: recs_list.append(records) def remove_todo(self, field, records): """ Mark ``field`` as recomputed on ``records``. """ recs_list = [recs - records for recs in self.all.todo.pop(field, [])] recs_list = [r for r in recs_list if r] if recs_list: self.all.todo[field] = recs_list def has_todo(self): """ Return whether some fields must be recomputed. """ return bool(self.all.todo) def get_todo(self): """ Return a pair ``(field, records)`` to recompute. The field is such that none of its dependencies must be recomputed. """ field = min(self.all.todo, key=self.registry.field_sequence) return field, self.all.todo[field][0] @property def recompute(self): return self.all.recompute @contextmanager def norecompute(self): tmp = self.all.recompute self.all.recompute = False try: yield finally: self.all.recompute = tmp def cache_key(self, field): """ Return the key to store the value of ``field`` in cache, the full cache key being ``(key, field, record.id)``. """ return self if field.context_dependent else self._cache_key
class Environment(Mapping): """ An environment wraps data for ORM records: - :attr:`cr`, the current database cursor; - :attr:`uid`, the current user id; - :attr:`context`, the current context dictionary. It provides access to the registry by implementing a mapping from model names to new api models. It also holds a cache for records, and a data structure to manage recomputations. """ _local = Local() @classproperty def envs(cls): return cls._local.environments @classmethod @contextmanager def manage(cls): """ Context manager for a set of environments. """ if hasattr(cls._local, 'environments'): yield else: try: cls._local.environments = Environments() yield finally: release_local(cls._local) @classmethod def reset(cls): """ Clear the set of environments. This may be useful when recreating a registry inside a transaction. """ cls._local.environments = Environments() def __new__(cls, cr, uid, context): assert context is not None args = (cr, uid, context) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) self.cr, self.uid, self.context = self.args = (cr, uid, frozendict(context)) self.registry = Registry(cr.dbname) self.cache = envs.cache self._cache_key = (cr, uid) self._protected = StackMap() # {field: ids, ...} self.dirty = defaultdict(set) # {record: set(field_name), ...} self.all = envs envs.add(self) return self # # Mapping methods # def __contains__(self, model_name): """ Test whether the given model exists. """ return model_name in self.registry def __getitem__(self, model_name): """ Return an empty recordset from the given model. """ return self.registry[model_name]._browse((), self) def __iter__(self): """ Return an iterator on model names. """ return iter(self.registry) def __len__(self): """ Return the size of the model registry. """ return len(self.registry) def __eq__(self, other): return self is other def __ne__(self, other): return self is not other def __hash__(self): return object.__hash__(self) def __call__(self, cr=None, user=None, context=None): """ Return an environment based on ``self`` with modified parameters. :param cr: optional database cursor to change the current cursor :param user: optional user/user id to change the current user :param context: optional context dictionary to change the current context """ cr = self.cr if cr is None else cr uid = self.uid if user is None else int(user) context = self.context if context is None else context return Environment(cr, uid, context) def ref(self, xml_id, raise_if_not_found=True): """ return the record corresponding to the given ``xml_id`` """ return self['ir.model.data'].xmlid_to_object(xml_id, raise_if_not_found=raise_if_not_found) @property def user(self): """ return the current user (as an instance) """ return self(user=SUPERUSER_ID)['res.users'].browse(self.uid) @property def lang(self): """ return the current language code """ return self.context.get('lang') @contextmanager def _do_in_mode(self, mode): if self.all.mode: yield else: try: self.all.mode = mode yield finally: self.all.mode = False self.dirty.clear() def do_in_draft(self): """ Context-switch to draft mode, where all field updates are done in cache only. """ return self._do_in_mode(True) @property def in_draft(self): """ Return whether we are in draft mode. """ return bool(self.all.mode) def do_in_onchange(self): """ Context-switch to 'onchange' draft mode, which is a specialized draft mode used during execution of onchange methods. """ return self._do_in_mode('onchange') @property def in_onchange(self): """ Return whether we are in 'onchange' draft mode. """ return self.all.mode == 'onchange' def clear(self): """ Clear all record caches, and discard all fields to recompute. This may be useful when recovering from a failed ORM operation. """ self.cache.invalidate() self.all.todo.clear() @contextmanager def clear_upon_failure(self): """ Context manager that clears the environments (caches and fields to recompute) upon exception. """ try: yield except Exception: self.clear() raise def protected(self, field): """ Return the recordset for which ``field`` should not be invalidated or recomputed. """ return self[field.model_name].browse(self._protected.get(field, ())) @contextmanager def protecting(self, what, records=None): """ Prevent the invalidation or recomputation of fields on records. The parameters are either: - ``what`` a collection of fields and ``records`` a recordset, or - ``what`` a collection of pairs ``(fields, records)``. """ protected = self._protected try: protected.pushmap() what = what if records is None else [(what, records)] for fields, records in what: for field in fields: ids = protected.get(field, frozenset()) protected[field] = ids.union(records._ids) yield finally: protected.popmap() def field_todo(self, field): """ Return a recordset with all records to recompute for ``field``. """ ids = {rid for recs in self.all.todo.get(field, ()) for rid in recs.ids} return self[field.model_name].browse(ids) def check_todo(self, field, record): """ Check whether ``field`` must be recomputed on ``record``, and if so, return the corresponding recordset to recompute. """ for recs in self.all.todo.get(field, []): if recs & record: return recs def add_todo(self, field, records): """ Mark ``field`` to be recomputed on ``records``. """ recs_list = self.all.todo.setdefault(field, []) for i, recs in enumerate(recs_list): if recs.env == records.env: # only add records if not already in the recordset, much much # cheaper in case recs is big and records is a singleton # already present if not records <= recs: recs_list[i] |= records break else: recs_list.append(records) def remove_todo(self, field, records): """ Mark ``field`` as recomputed on ``records``. """ recs_list = [recs - records for recs in self.all.todo.pop(field, [])] recs_list = [r for r in recs_list if r] if recs_list: self.all.todo[field] = recs_list def has_todo(self): """ Return whether some fields must be recomputed. """ return bool(self.all.todo) def get_todo(self): """ Return a pair ``(field, records)`` to recompute. The field is such that none of its dependencies must be recomputed. """ field = min(self.all.todo, key=self.registry.field_sequence) return field, self.all.todo[field][0] @property def recompute(self): return self.all.recompute @contextmanager def norecompute(self): tmp = self.all.recompute self.all.recompute = False try: yield finally: self.all.recompute = tmp def cache_key(self, field): """ Return the key to store the value of ``field`` in cache, the full cache key being ``(key, field, record.id)``. """ return self if field.context_dependent else self._cache_key
class Environment(Mapping): """ An environment wraps data for ORM records: - :attr:`cr`, the current database cursor; - :attr:`uid`, the current user id; - :attr:`context`, the current context dictionary; - :attr:`su`, whether in superuser mode. It provides access to the registry by implementing a mapping from model names to new api models. It also holds a cache for records, and a data structure to manage recomputations. """ _local = Local() @classproperty def envs(cls): return getattr(cls._local, 'environments', ()) @classmethod @contextmanager def manage(cls): """ Context manager for a set of environments. """ if hasattr(cls._local, 'environments'): yield else: try: cls._local.environments = Environments() yield finally: release_local(cls._local) @classmethod def reset(cls): """ Clear the set of environments. This may be useful when recreating a registry inside a transaction. """ cls._local.environments = Environments() def __new__(cls, cr, uid, context, su=False): if uid == SUPERUSER_ID: su = True assert context is not None args = (cr, uid, context, su) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) args = (cr, uid, frozendict(context), su) self.cr, self.uid, self.context, self.su = self.args = args self.registry = Registry(cr.dbname) self.cache = envs.cache self._protected = StackMap() # {field: ids, ...} self.all = envs envs.add(self) return self # # Mapping methods # def __contains__(self, model_name): """ Test whether the given model exists. """ return model_name in self.registry def __getitem__(self, model_name): """ Return an empty recordset from the given model. """ return self.registry[model_name]._browse(self, (), ()) def __iter__(self): """ Return an iterator on model names. """ return iter(self.registry) def __len__(self): """ Return the size of the model registry. """ return len(self.registry) def __eq__(self, other): return self is other def __ne__(self, other): return self is not other def __hash__(self): return object.__hash__(self) def __call__(self, cr=None, user=None, context=None, su=None): """ Return an environment based on ``self`` with modified parameters. :param cr: optional database cursor to change the current cursor :param user: optional user/user id to change the current user :param context: optional context dictionary to change the current context :param su: optional boolean to change the superuser mode """ cr = self.cr if cr is None else cr uid = self.uid if user is None else int(user) context = self.context if context is None else context su = (user is None and self.su) if su is None else su return Environment(cr, uid, context, su) def ref(self, xml_id, raise_if_not_found=True): """ return the record corresponding to the given ``xml_id`` """ return self['ir.model.data'].xmlid_to_object(xml_id, raise_if_not_found=raise_if_not_found) def is_superuser(self): """ Return whether the environment is in superuser mode. """ return self.su def is_admin(self): """ Return whether the current user has group "Access Rights", or is in superuser mode. """ return self.su or self.user._is_admin() def is_system(self): """ Return whether the current user has group "Settings", or is in superuser mode. """ return self.su or self.user._is_system() @property def user(self): """ return the current user (as an instance) """ return self(su=True)['res.users'].browse(self.uid) @property def company(self): """ return the company in which the user is logged in (as an instance) """ try: company_id = int(self.context.get('allowed_company_ids')[0]) if company_id in self.user.company_ids.ids: return self['res.company'].browse(company_id) return self.user.company_id except Exception: return self.user.company_id @property def companies(self): """ return a recordset of the enabled companies by the user """ try: # In case the user tries to bidouille the url (eg: cids=1,foo,bar) allowed_company_ids = self.context.get('allowed_company_ids') # Prevent the user to enable companies for which he doesn't have any access users_company_ids = self.user.company_ids.ids allowed_company_ids = [company_id for company_id in allowed_company_ids if company_id in users_company_ids] except Exception: # By setting the default companies to all user companies instead of the main one # we save a lot of potential trouble in all "out of context" calls, such as # /mail/redirect or /web/image, etc. And it is not unsafe because the user does # have access to these other companies. The risk of exposing foreign records # (wrt to the context) is low because all normal RPCs will have a proper # allowed_company_ids. # Examples: # - when printing a report for several records from several companies # - when accessing to a record from the notification email template # - when loading an binary image on a template allowed_company_ids = self.user.company_ids.ids return self['res.company'].browse(allowed_company_ids) @property def lang(self): """ return the current language code """ return self.context.get('lang') def clear(self): """ Clear all record caches, and discard all fields to recompute. This may be useful when recovering from a failed ORM operation. """ self.cache.invalidate() self.all.tocompute.clear() self.all.towrite.clear() @contextmanager def clear_upon_failure(self): """ Context manager that clears the environments (caches and fields to recompute) upon exception. """ tocompute = { field: set(ids) for field, ids in self.all.tocompute.items() } towrite = { model: { record_id: dict(values) for record_id, values in id_values.items() } for model, id_values in self.all.towrite.items() } try: yield except Exception: self.clear() self.all.tocompute.update(tocompute) for model, id_values in towrite.items(): for record_id, values in id_values.items(): self.all.towrite[model][record_id].update(values) raise def is_protected(self, field, record): """ Return whether `record` is protected against invalidation or recomputation for `field`. """ return record.id in self._protected.get(field, ()) def protected(self, field): """ Return the recordset for which ``field`` should not be invalidated or recomputed. """ return self[field.model_name].browse(self._protected.get(field, ())) @contextmanager def protecting(self, what, records=None): """ Prevent the invalidation or recomputation of fields on records. The parameters are either: - ``what`` a collection of fields and ``records`` a recordset, or - ``what`` a collection of pairs ``(fields, records)``. """ protected = self._protected try: protected.pushmap() what = what if records is None else [(what, records)] for fields, records in what: for field in fields: ids = protected.get(field, frozenset()) protected[field] = ids.union(records._ids) yield finally: protected.popmap() def fields_to_compute(self): """ Return a view on the field to compute. """ return self.all.tocompute.keys() def records_to_compute(self, field): """ Return the records to compute for ``field``. """ ids = self.all.tocompute.get(field, ()) return self[field.model_name].browse(ids) def is_to_compute(self, field, record): """ Return whether ``field`` must be computed on ``record``. """ return record.id in self.all.tocompute.get(field, ()) def add_to_compute(self, field, records): """ Mark ``field`` to be computed on ``records``, return newly added records. """ if not records: return records ids = self.all.tocompute[field] added_ids = [id_ for id_ in records._ids if id_ not in ids] ids.update(added_ids) return records.browse(added_ids) def remove_to_compute(self, field, records): """ Mark ``field`` as computed on ``records``. """ if not records: return ids = self.all.tocompute.get(field, None) if ids is None: return ids.difference_update(records._ids) if not ids: del self.all.tocompute[field] @contextmanager def norecompute(self): """ Delay recomputations (deprecated: this is not the default behavior). """ yield
class Environment(Mapping): """ An environment wraps data for ORM records: - :attr:`cr`, the current database cursor; - :attr:`uid`, the current user id; - :attr:`context`, the current context dictionary; - :attr:`su`, whether in superuser mode. It provides access to the registry by implementing a mapping from model names to new api models. It also holds a cache for records, and a data structure to manage recomputations. """ _local = Local() @classproperty def envs(cls): return cls._local.environments @classmethod @contextmanager def manage(cls): """ Context manager for a set of environments. """ if hasattr(cls._local, 'environments'): yield else: try: cls._local.environments = Environments() yield finally: release_local(cls._local) @classmethod def reset(cls): """ Clear the set of environments. This may be useful when recreating a registry inside a transaction. """ cls._local.environments = Environments() def __new__(cls, cr, uid, context, su=False): if uid == SUPERUSER_ID: su = True assert context is not None args = (cr, uid, context, su) # if env already exists, return it env, envs = None, cls.envs for env in envs: if env.args == args: return env # otherwise create environment, and add it in the set self = object.__new__(cls) args = (cr, uid, frozendict(context), su) self.cr, self.uid, self.context, self.su = self.args = args self.registry = Registry(cr.dbname) self.cache = envs.cache self._cache_key = (cr, uid, su) self._protected = StackMap() # {field: ids, ...} self.all = envs envs.add(self) return self # # Mapping methods # def __contains__(self, model_name): """ Test whether the given model exists. """ return model_name in self.registry def __getitem__(self, model_name): """ Return an empty recordset from the given model. """ return self.registry[model_name]._browse(self, (), ()) def __iter__(self): """ Return an iterator on model names. """ return iter(self.registry) def __len__(self): """ Return the size of the model registry. """ return len(self.registry) def __eq__(self, other): return self is other def __ne__(self, other): return self is not other def __hash__(self): return object.__hash__(self) def __call__(self, cr=None, user=None, context=None, su=None): """ Return an environment based on ``self`` with modified parameters. :param cr: optional database cursor to change the current cursor :param user: optional user/user id to change the current user :param context: optional context dictionary to change the current context :param su: optional boolean to change the superuser mode """ cr = self.cr if cr is None else cr uid = self.uid if user is None else int(user) context = self.context if context is None else context su = (user is None and self.su) if su is None else su return Environment(cr, uid, context, su) def ref(self, xml_id, raise_if_not_found=True): """ return the record corresponding to the given ``xml_id`` """ return self['ir.model.data'].xmlid_to_object( xml_id, raise_if_not_found=raise_if_not_found) def is_superuser(self): """ Return whether the environment is in superuser mode. """ return self.su def is_admin(self): """ Return whether the current user has group "Access Rights", or is in superuser mode. """ return self.su or self.user._is_admin() def is_system(self): """ Return whether the current user has group "Settings", or is in superuser mode. """ return self.su or self.user._is_system() @property def user(self): """ return the current user (as an instance) """ return self(su=True)['res.users'].browse(self.uid) @property def company(self): """ return the company in which the user is logged in (as an instance) """ try: company_id = int(self.context.get('allowed_company_ids')[0]) if company_id in self.user.company_ids.ids: return self['res.company'].browse(company_id) return self.user.company_id except Exception: return self.user.company_id @property def companies(self): """ return a recordset of the enabled companies by the user """ try: # In case the user tries to bidouille the url (eg: cids=1,foo,bar) allowed_company_ids = self.context.get('allowed_company_ids') # Prevent the user to enable companies for which he doesn't have any access users_company_ids = self.user.company_ids.ids allowed_company_ids = [ company_id for company_id in allowed_company_ids if company_id in users_company_ids ] except Exception: # By setting the default companies to all user companies instead of the main one # we save a lot of potential trouble in all "out of context" calls, such as # /mail/redirect or /web/image, etc. And it is not unsafe because the user does # have access to these other companies. The risk of exposing foreign records # (wrt to the context) is low because all normal RPCs will have a proper # allowed_company_ids. # Examples: # - when printing a report for several records from several companies # - when accessing to a record from the notification email template # - when loading an binary image on a template allowed_company_ids = self.user.company_ids.ids return self['res.company'].browse(allowed_company_ids) @property def lang(self): """ return the current language code """ return self.context.get('lang') @contextmanager def do_in_draft(self): """ Context-switch to draft mode, where all field updates are done in cache only. """ if self.all.in_draft: yield else: try: self.all.in_draft = True yield finally: self.all.in_draft = False @property def in_draft(self): """ Return whether we are in draft mode. """ return self.all.in_draft def clear(self): """ Clear all record caches, and discard all fields to recompute. This may be useful when recovering from a failed ORM operation. """ self.cache.invalidate() self.all.todo.clear() @contextmanager def clear_upon_failure(self): """ Context manager that clears the environments (caches and fields to recompute) upon exception. """ try: yield except Exception: self.clear() raise def protected(self, field): """ Return the recordset for which ``field`` should not be invalidated or recomputed. """ return self[field.model_name].browse(self._protected.get(field, ())) @contextmanager def protecting(self, what, records=None): """ Prevent the invalidation or recomputation of fields on records. The parameters are either: - ``what`` a collection of fields and ``records`` a recordset, or - ``what`` a collection of pairs ``(fields, records)``. """ protected = self._protected try: protected.pushmap() what = what if records is None else [(what, records)] for fields, records in what: for field in fields: ids = protected.get(field, frozenset()) protected[field] = ids.union(records._ids) yield finally: protected.popmap() def field_todo(self, field): """ Return a recordset with all records to recompute for ``field``. """ ids = { rid for recs in self.all.todo.get(field, ()) for rid in recs.ids } return self[field.model_name].browse(ids) def check_todo(self, field, record): """ Check whether ``field`` must be recomputed on ``record``, and if so, return the corresponding recordset to recompute. """ for recs in self.all.todo.get(field, []): if recs & record: return recs def add_todo(self, field, records): """ Mark ``field`` to be recomputed on ``records``. """ recs_list = self.all.todo.setdefault(field, []) for i, recs in enumerate(recs_list): if recs.env == records.env: # only add records if not already in the recordset, much much # cheaper in case recs is big and records is a singleton # already present if not records <= recs: recs_list[i] |= records break else: recs_list.append(records) def remove_todo(self, field, records): """ Mark ``field`` as recomputed on ``records``. """ recs_list = [recs - records for recs in self.all.todo.pop(field, [])] recs_list = [r for r in recs_list if r] if recs_list: self.all.todo[field] = recs_list def has_todo(self): """ Return whether some fields must be recomputed. """ return bool(self.all.todo) def get_todo(self): """ Return a pair ``(field, records)`` to recompute. The field is such that none of its dependencies must be recomputed. """ field = min(self.all.todo, key=self.registry.field_sequence) return field, self.all.todo[field][0] @property def recompute(self): return self.all.recompute @contextmanager def norecompute(self): tmp = self.all.recompute self.all.recompute = False try: yield finally: self.all.recompute = tmp def cache_key(self, field): """ Return the key to store the value of ``field`` in cache, the full cache key being ``(key, field, record.id)``. """ return self if field.context_dependent else self._cache_key