# -*- coding: utf-8 -*- ############################################################################## # # Copyright (c) 2002-2009 Nexedi SA and Contributors. All Rights Reserved. # Jean-Paul Smets-Solanes <jp@nexedi.com> # Romain Courteaud <romain@nexedi.com> # Ćukasz Nowak <luke@nexedi.com> # Fabien Morin <fabien@nexedi.com> # # WARNING: This program as such is intended to be used by professional # programmers who take the whole responsability 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 # garantees 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. # ############################################################################## from AccessControl import ClassSecurityInfo from Products.ERP5Type import Permissions, PropertySheet, interfaces from Products.ERP5.Document.Transformation import Transformation from Products.ERP5.Document.Path import Path from Products.ERP5.AggregatedAmountList import AggregatedAmountList from Products.ERP5Type.XMLMatrix import XMLMatrix from Products.ZSQLCatalog.SQLCatalog import Query, ComplexQuery import zope.interface # XXX TODO : getTradeModelLineComposedList and findSpecialiseValueList should # probably move to Transformation (better names should be used) # XXX TODO: review naming of new methods # XXX WARNING: current API naming may change although model should be stable. class TradeCondition(Path, Transformation, XMLMatrix): """ Trade Conditions are used to store the conditions (payment, logistic,...) which should be applied (and used in the orders) when two companies make business together """ edited_property_list = ['price', 'resource', 'quantity', 'reference', 'base_application_list', 'base_contribution_list'] meta_type = 'ERP5 Trade Condition' portal_type = 'Trade Condition' model_line_portal_type_list = ('Trade Model Line',) # Declarative security security = ClassSecurityInfo() security.declareObjectProtected(Permissions.AccessContentsInformation) # Declarative properties property_sheets = ( PropertySheet.Base , PropertySheet.XMLObject , PropertySheet.CategoryCore , PropertySheet.DublinCore , PropertySheet.Folder , PropertySheet.Comment , PropertySheet.Arrow , PropertySheet.TradeCondition , PropertySheet.Order ) zope.interface.implements(interfaces.IAmountGenerator, interfaces.IMovementGenerator, interfaces.IMovementCollectionUpdater,) security.declareProtected(Permissions.AccessContentsInformation, 'updateAggregatedAmountList') def updateAggregatedAmountList(self, context, movement_list=None, rounding=None, **kw): existing_movement_list = context.getMovementList() aggregated_amount_list = self.getAggregatedAmountList(context=context, movement_list=movement_list, **kw) modified_reference_list = [] # check if the existing movements are in aggregated movements movement_to_delete_list = [] for movement in existing_movement_list: keep_movement = False # check if the movement is a generated one or entered by the user. # If it has been entered by user, keep it. if not movement.getBaseApplicationList(): keep_movement = True continue for amount in aggregated_amount_list: # if movement is generated and if not exist, append to delete list update_kw = {} for p in self.edited_property_list: update_kw[p] = amount.getProperty(p) if movement.getProperty('reference') == update_kw['reference'] and\ movement.getVariationCategoryList() == \ amount.getVariationCategoryList(): movement.edit(**update_kw) modified_reference_list.append(update_kw['reference']) keep_movement = True if not keep_movement: movement_to_delete_list.append(movement) movement_to_add_list = AggregatedAmountList( [amount for amount in aggregated_amount_list if amount.getReference() not in modified_reference_list]) return {'movement_to_delete_list' : movement_to_delete_list, 'movement_to_add_list': movement_to_add_list} security.declareProtected(Permissions.AccessContentsInformation, 'findSpecialiseValueList') def findSpecialiseValueList(self, context, portal_type_list=None): """Returns a list of specialised objects representing inheritance tree. Uses Breadth First Search. """ if portal_type_list is None: portal_type_list = [self.getPortalType()] if context.getPortalType() in portal_type_list: specialise_value_list = [context] visited_trade_condition_list = [context] else: specialise_value_list = context.getSpecialiseValueList() visited_trade_condition_list = context.getSpecialiseValueList(\ portal_type=portal_type_list) while len(specialise_value_list) != 0: specialise = specialise_value_list.pop(0) try: child_list = specialise.getSpecialiseValueList(\ portal_type=portal_type_list) except AttributeError: # it is possible, that specialised object cannot be specialised # anymore continue intersection = set(child_list).intersection(\ set(visited_trade_condition_list)) for model in child_list: if model not in intersection: # don't add model that are already been visited. This permit to # visit all model tree, and to not have circular dependency specialise_value_list.append(model) visited_trade_condition_list.append(model) return visited_trade_condition_list security.declareProtected(Permissions.AccessContentsInformation, 'getTradeModelLineComposedList') def getTradeModelLineComposedList(self, context=None, portal_type_list=None): """Returns list of Trade Model Lines using composition. Reference of Trade Model Line is used to hide other Trade Model Line In chain first found Trade Model Line has precedence Context's, if not None, Trade Model Lines have precedence Result is sorted in safe order to do one time pass - movements which applies are before its possible contributions. """ if portal_type_list is None: portal_type_list = self.model_line_portal_type_list reference_list = [] trade_model_line_composed_list = [] containting_object_list = [] start_date = None stop_date = None if context is not None: document = context if getattr(context, 'getExplanationValue', None) is not None: # if context is movement it is needed to ask its explanation # for contained Trade Model Lines document = context.getExplanationValue() containting_object_list.append(document) start_date = document.getStartDate() stop_date = document.getStopDate() containting_object_list.extend(\ self.findEffectiveSpecialiseValueList(context=self, start_date=start_date, stop_date=stop_date)) for specialise in containting_object_list: for trade_model_line in specialise.contentValues( portal_type=portal_type_list): reference = trade_model_line.getReference() if reference not in reference_list or reference is None: reference_list.append(reference) trade_model_line_composed_list.append(trade_model_line) # build a graph father_dict = {} child_dict = {} root_line = [] for line in trade_model_line_composed_list: father_dict.setdefault(line, []) for other_line in trade_model_line_composed_list: if line == other_line: continue child_dict.setdefault(other_line, []) for base_application in line.getBaseApplicationList(): if base_application in other_line.getBaseContributionList(): father_dict[line].append(other_line) child_dict[other_line].append(line) if len(father_dict): # find roots elements # XXX maybe this can be done while building the graph root_line_list = [] for k, v in child_dict.iteritems(): if len(v) == 0: root_line_list.append(k) # sort graph according to predecessors f = root_line_list[:] tmp = None cpt = 0 final_list = root_line_list[:] while len(f): tmp = f.pop(0) for predecessors in father_dict[tmp]: f.append(predecessors) if predecessors in final_list: final_list.remove(predecessors) final_list.append(predecessors) final_list.reverse() if len(final_list) == 0: # at least return original lines retrieved final_list = trade_model_line_composed_list return final_list security.declareProtected(Permissions.AccessContentsInformation, 'getAggregatedAmountList') def getAggregatedAmountList(self, context, movement_list=None, **kw): if movement_list is None: movement_list = [] result = AggregatedAmountList() trade_model_line_composed_list = \ self.getTradeModelLineComposedList(context) # trade_model_line_composed_list is sorted in good way to have # simple algorithm for model_line in trade_model_line_composed_list: result.extend(model_line.getAggregatedAmountList(context, movement_list=movement_list, current_aggregated_amount_list=result, **kw)) movement_list = result # remove amounts that should not be created, or with "incorrect" references. # XXX what are incorrect references ??? # getTradeModelLineComposedList should have removed duplicate reference # in the model graph # TODO: review this part aggregated_amount_list = AggregatedAmountList() for movement in movement_list: movement_reference = movement.getReference() if movement_reference is None: raise ValueError, 'Reference on Trade Model Line is None. Reference must be set.' for model_line in trade_model_line_composed_list: if model_line.getReference() == movement_reference and\ model_line.isCreateLine(): aggregated_amount_list.append(movement) return aggregated_amount_list security.declareProtected( Permissions.AccessContentsInformation, 'getCell') def getCell(self, *kw , **kwd): '''Overload the function getCell to be able to search a cell on the inheritance model tree if the cell is not found on current one. ''' cell = XMLMatrix.getCell(self, *kw, **kwd) if cell is None: # if cell not found, look on the inherited models start_date = kwd.has_key('paysheet') and \ kwd['paysheet'].getStartDate() or None stop_date = kwd.has_key('paysheet') and \ kwd['paysheet'].getStopDate() or None model_list = self.findEffectiveSpecialiseValueList(\ context=self, start_date=start_date, stop_date=stop_date) for specialised_model in model_list: cell = XMLMatrix.getCell(specialised_model, *kw, **kwd) if cell is not None: return cell return cell security.declareProtected(Permissions.AccessContentsInformation, 'getReferenceDict') def getReferenceDict(self, portal_type_list, property_list=None): '''Return a dict containing all id's of the objects contained in this model and corresponding to the given portal_type. The key of the dict are the reference (or id if no reference) ''' if property_list is None: property_list=[] reference_dict = {} object_list = self.contentValues(portal_type=portal_type_list, sort_on='id') for obj in object_list: keep = (len(property_list) == 0) for property_ in property_list: if obj.hasProperty(property_): keep = 1 break if keep: reference_dict[obj.getProperty('reference', obj.getId())] = obj.getId() return reference_dict security.declareProtected(Permissions.AccessContentsInformation, 'findEffectiveSpecialiseValueList') def findEffectiveSpecialiseValueList(self, context, start_date=None, stop_date=None, portal_type_list=None, effective_model_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. If no start_date and stop_date are provided, findSpecialiseValueList result is returned. This algorithm uses Breadth First Search. ''' if start_date is None and stop_date is None: # if dates are not defined, return findSpecialiseValueList result return self.findSpecialiseValueList(context=context) if effective_model_list is None: effective_model_list = [] visited_trade_condition_list = [] if portal_type_list is None: portal_type_list = [self.getPortalType()] if context.getPortalType() in portal_type_list: effective_model = context.getEffectiveModel( start_date=start_date, stop_date=stop_date) if effective_model is not None: effective_model_list = [effective_model] visited_trade_condition_list = [effective_model] else: model_list = context.getSpecialiseValueList(\ portal_type=portal_type_list) effective_model_list = [model.getEffectiveModel(\ start_date=start_date, stop_date=stop_date) for model in\ model_list] visited_trade_condition_list = [model.getEffectiveModel(\ start_date=start_date, stop_date=stop_date) for model in\ model_list] # remove None models effective_model_list = [ob for ob in effective_model_list if ob is not None] while len(effective_model_list) != 0: specialise = effective_model_list.pop(0) effective_specialise = specialise.getEffectiveModel(start_date=start_date, stop_date=stop_date) child_list = [] if effective_specialise is not None: child_list = effective_specialise.getSpecialiseValueList(\ portal_type=portal_type_list) intersection = set(child_list).intersection(\ set(visited_trade_condition_list)) for model in child_list: effective_model = model.getEffectiveModel(start_date=start_date, stop_date=stop_date) if effective_model not in intersection: # don't add model that are already been visited. This permit to # visit all model tree, and to not have circular dependency effective_model_list.append(effective_model) visited_trade_condition_list.append(effective_model) return visited_trade_condition_list security.declareProtected(Permissions.AccessContentsInformation, 'getInheritanceReferenceDict') def getInheritanceReferenceDict(self, portal_type_list, property_list=None): '''Returns a dict with the model url as key and a list of reference as value. A Reference can appear only one time in the final output. If property_list is not empty, documents which don't have any of theses properties will be skipped. ''' if property_list is None: property_list=[] model_list = self.findSpecialiseValueList(context=self) reference_list = [] model_reference_dict = {} for model in model_list: id_list = [] model_reference_list = model.getReferenceDict( portal_type_list, property_list=property_list) for reference in model_reference_list.keys(): if reference not in reference_list: reference_list.append(reference) id_list.append(model_reference_list[reference]) if len(id_list) != 0: model_reference_dict[model.getRelativeUrl()]=id_list return model_reference_dict security.declareProtected(Permissions.AccessContentsInformation, 'getEffectiveModel') def getEffectiveModel(self, start_date=None, stop_date=None): '''Return the more 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) ''' reference = self.getReference() if not reference or (start_date is None and stop_date is None): return self return self.getPortalObject().portal_catalog.unrestrictedGetResultValue( query=ComplexQuery( ComplexQuery( Query(effective_date=None), Query(effective_date=start_date, range='ngt'), logical_operator='OR'), ComplexQuery( Query(expiration_date=None), Query(expiration_date=stop_date, range='min'), logical_operator='OR'), Query(reference=reference), Query(validation_state=( 'deleted', 'invalidated'), operator='NOT'), Query(portal_type=self.getPortalType()), logical_operator='AND'), sort_on=(('version','descending'),)) security.declareProtected(Permissions.AccessContentsInformation, 'getModelInheritanceEffectiveProperty') def getModelInheritanceEffectiveProperty(self, paysheet, property_name): """Get a property from an effective model """ v = self.getProperty(property_name) if v: return v model_list = self.findEffectiveSpecialiseValueList(context=self, start_date=paysheet.getStartDate(), stop_date=paysheet.getStopDate()) for specialised_model in model_list: v = specialised_model.getProperty(property_name) if v: return v