# -*- coding: utf-8 -*- ############################################################################## # # Copyright (c) 2010 Nexedi SA and Contributors. All Rights Reserved. # Julien Muchembled <jm@nexedi.com> # # WARNING: This program as such is intended to be used by professional # programmers who take the whole responsibility of assessing all potential # consequences resulting from its eventual inadequacies and bugs # End users who are looking for a ready-to-use solution with commercial # guarantees and support are strongly adviced to contract a Free Software # Service Company # # This program is Free Software; you can redistribute it and/or # modify it under the terms of the GNU General Public License # as published by the Free Software Foundation; either version 2 # of the License, or (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program; if not, write to the Free Software # Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. # ############################################################################## from AccessControl import ClassSecurityInfo from Acquisition import aq_base from Products.ERP5Type import Permissions from Products.ERP5Type.Cache import transactional_cached from Products.ERP5Type.Utils import sortValueList from Products.ERP5.Document.Predicate import Predicate from Products.ERP5.Document.BusinessProcess import BusinessProcess from Products.ZSQLCatalog.SQLCatalog import Query, ComplexQuery @transactional_cached() def _getEffectiveModel(self, start_date=None, stop_date=None): """Return the most appropriate model using effective_date, expiration_date and version number. An effective model is a model which start and stop_date are equal (or excluded) to the range of the given start and stop_date and with the higher version number (if there is more than one) XXX Should we moved this function to a class ? Which one ? What about reusing IVersionable ? """ reference = self.getProperty('reference') if not reference: return self query_list = [Query(reference=reference), Query(portal_type=self.getPortalType()), Query(validation_state=('deleted', 'invalidated'), operator='NOT')] if start_date is not None: query_list.append(ComplexQuery(Query(effective_date=None), Query(effective_date=start_date, range='ngt'), logical_operator='OR')) if stop_date is not None: query_list.append(ComplexQuery(Query(expiration_date=None), Query(expiration_date=stop_date, range='min'), logical_operator='OR')) # XXX What to do the catalog returns nothing (either because 'self' was just # created and not yet indexed, or because it was invalidated) ? # For the moment, we raise. model_list = self.getPortalObject().portal_catalog.unrestrictedSearchResults( query=ComplexQuery(logical_operator='AND', *query_list), sort_on=(('version', 'descending'),)) if not model_list: raise KeyError('No %s found with the reference %s between %s and %s' % \ (self.getPortalType(), reference, start_date, stop_date)) return model_list[0].getObject() # XXX-JPS it is very likely that what must be cached is delivery based # since most lines do not "specialise" a delivery - clever caching # approach is possible, by keeping one cache at the delivery level # and just accessing it from wherever needed. This could minimize number of # caches in RAM and at the same time make things fast @transactional_cached() def _findPredicateList(container_list, portal_type=None): predicate_list = [] reference_dict = {} for container in container_list: for ob in container.contentValues(portal_type=portal_type): if isinstance(ob, Predicate): # reference is used to hide lines on farther containers reference = ob.getProperty('reference') if reference: reference_set = reference_dict.setdefault(ob.getPortalType(), set()) if reference in reference_set: continue reference_set.add(reference) predicate_list.append(ob) return predicate_list class asComposedDocument(object): # XXX-JPS bad name for a class - please follow conventions or explain """Return a temporary object which is the composition of all effective models The returned value is a temporary copy of the given object. The list of all effective models (specialise values) is stored in a private attribute. Collecting predicates (from effective models) is done lazily. Predicates can be accessed through contentValues/objectValues. """ def __new__(cls, orig_self, portal_type_list=None): self = orig_self.asContext(_portal_type_list=portal_type_list) # XXX-JPS orig_self -> original_self - please follow conventions base_class = self.__class__ self.__class__ = type(base_class.__name__, (cls, base_class, BusinessProcess), {}) # XXX-JPS - cls is abbriviatoin - please follow naming conventoin # here we could inherit many "useful" classes dynamically - héhé # that would be a "real" abstract composition system self._effective_model_list = \ orig_self._findEffectiveSpecialiseValueList(portal_type_list) return self def __init__(self, orig_self, portal_type_list=None): # __new__ does not call __init__ because returned object # is wrapped in an acquisition context. assert False def asComposedDocument(self, portal_type_list=None): assert False, "not useful yet" # If required, this must be implemented by calling 'asComposedDocument' on # the original object (because the parameters may differ). @property def _folder_handler(self): assert False def __getattr__(self, name): raise AttributeError(name) def objectValues(self, spec=None, meta_type=None, portal_type=None, sort_on=None, sort_order=None, checked_permission=None, **kw): assert spec is meta_type is checked_permission is None, "not useful yet" object_list = getattr(aq_base(self), '_predicate_list', None) if object_list is None: container_list = tuple(filter(len, self._effective_model_list)) object_list = _findPredicateList(container_list, self._portal_type_list) self._predicate_list = object_list if portal_type is not None: if isinstance(portal_type, str): portal_type = (portal_type,) object_list = filter(lambda x: x.getPortalType() in portal_type, object_list) return sortValueList(object_list, sort_on, sort_order, **kw) class CompositionMixin: """ """ # Declarative security security = ClassSecurityInfo() security.declareObjectProtected(Permissions.AccessContentsInformation) security.declareProtected(Permissions.AccessContentsInformation, 'asComposedDocument') asComposedDocument = transactional_cached()(asComposedDocument) # XXX add accessors to get properties from '_effective_model_list' ? # (cf PaySheetModel) def _findEffectiveSpecialiseValueList(self, specialise_type_list=None): """Return a list of effective specialised objects that is the inheritance tree. An effective object is an object which have start_date and stop_date included to the range of the given parameters start_date and stop_date. This algorithm uses Breadth First Search. """ start_date = self.getStartDate() stop_date = self.getStopDate() def getEffectiveModel(model): return _getEffectiveModel(model, start_date, stop_date) model_list = [self] model_set = set(model_list) model_index = 0 while model_index < len(model_list): model = model_list[model_index] model_index += 1 # we don't use getSpecialiseValueList to avoid acquisition on the parent for model in map(getEffectiveModel, model.getValueList('specialise', portal_type=specialise_type_list or ())): if model not in model_set: model_set.add(model) if 1: #model.test(self): # XXX model_list.append(model) try: parent_asComposedDocument = self.getParentValue().asComposedDocument except AttributeError: pass else: model_list += [model for model in parent_asComposedDocument( specialise_type_list)._effective_model_list if model not in model_set] return model_list del asComposedDocument # Why ? (hide it ?)