def _finalizeMigration(self): """Compatibility code to finalize migration from CMF Types Tool""" portal = self.getPortalObject() old_types_tool = portal.__dict__[OldTypesTool.id] # self.Base_setDefaultSecurity() trash_tool = getattr(portal, "portal_trash", None) if trash_tool is not None: LOG("OldTypesTool", WARNING, "Move old portal_types into a trash bin.") portal._objects = tuple(i for i in portal._objects if i["id"] != old_types_tool.id) portal._delOb(old_types_tool.id) # old_types_tool.id = self.id # Not possible to keep the original id # due to limitation of getToolByName trashbin = UnrestrictedMethod(trash_tool.newTrashBin)(self.id) trashbin._setOb(old_types_tool.id, old_types_tool)
def _finalizeMigration(self): """Compatibility code to finalize migration from CMF Types Tool""" portal = self.getPortalObject() old_types_tool = portal.__dict__[OldTypesTool.id] #self.Base_setDefaultSecurity() trash_tool = getattr(portal, 'portal_trash', None) if trash_tool is not None: LOG('OldTypesTool', WARNING, 'Move old portal_types into a trash bin.') portal._objects = tuple(i for i in portal._objects if i['id'] != old_types_tool.id) portal._delOb(old_types_tool.id) #old_types_tool.id = self.id # Not possible to keep the original id # due to limitation of getToolByName trashbin = UnrestrictedMethod(trash_tool.newTrashBin)(self.id) trashbin._setOb(old_types_tool.id, old_types_tool)
def __of__(self, parent): base_self = aq_base(self) # Is it required ? if parent.__dict__.get(TypesTool.id) is not base_self: return OFSFolder.__of__(self, parent) return UnrestrictedMethod(base_self._migrateTypesTool)(parent)
class BuilderMixin(XMLObject, Amount, Predicate): """ Order Builder objects allow to gather multiple Simulation Movements into a single Delivery. The initial quantity property of the Delivery Line is calculated by summing quantities of related Simulation Movements. Order Builder objects are provided with a set a parameters to achieve their goal: A path definition: source, destination, etc. which defines the general kind of movements it applies. simulation_select_method which defines how to query all Simulation Movements which meet certain criteria (including the above path path definition). collect_order_list which defines how to group selected movements according to gathering rules. delivery_select_method which defines how to select existing Delivery which may eventually be updated with selected simulation movements. delivery_module, delivery_type and delivery_line_type which define the module and portal types for newly built Deliveries and Delivery Lines. Order Builders can also be provided with optional parameters to restrict selection to a given root Applied Rule caused by a single Order or to Simulation Movements related to a limited set of existing Deliveries. """ # CMF Type Definition meta_type = 'ERP5 Order Builder' portal_type = 'Order Builder' # Declarative security security = ClassSecurityInfo() security.declareObjectProtected(Permissions.AccessContentsInformation) # Default Properties property_sheets = (PropertySheet.Base, PropertySheet.XMLObject, PropertySheet.CategoryCore, PropertySheet.DublinCore, PropertySheet.Arrow, PropertySheet.Amount, PropertySheet.Comment, PropertySheet.DeliveryBuilder) security.declarePublic('build') def build(self, applied_rule_uid=None, movement_relative_url_list=None, delivery_relative_url_list=None, movement_list=None, explanation=None, business_link=None, activate_kw=None, **kw): """ Build deliveries from a list of movements Delivery Builders can also be provided with optional parameters to restrict selection to a given root Applied Rule caused by a single Order or to Simulation Movements related to a limited set of existing """ # Parameter initialization if delivery_relative_url_list is None: delivery_relative_url_list = [] # Call a script before building self.callBeforeBuildingScript() # XXX-JPS Used ? # Select if not movement_list: if movement_relative_url_list: movement_list = map(self.restrictedTraverse, movement_relative_url_list) else: if explanation is not None: explanation_cache = _getExplanationCache(explanation) kw['path'] = explanation_cache.getSimulationPathPatternList( ) if business_link is not None: kw['causality_uid'] = business_link.getUid() elif kw.get('causality_uid') is None: business_link_value_list = self.getRelatedBusinessLinkValueList( ) if len(business_link_value_list) > 0: # use only Business Link related movements kw['causality_uid'] = [ link_value.getUid() for link_value in business_link_value_list ] movement_list = self.searchMovementList( applied_rule_uid=applied_rule_uid, **kw) if not movement_list: return [] # Collect root_group_node = self.collectMovement(movement_list) # Build delivery_list = self.buildDeliveryList( root_group_node, delivery_relative_url_list=delivery_relative_url_list, movement_list=movement_list, activate_kw=activate_kw, **kw) # Call a script after building self.callAfterBuildingScript(delivery_list, movement_list, **kw) return delivery_list def getRelatedBusinessLinkValueList(self): return self.getDeliveryBuilderRelatedValueList( portal_type='Business Link') def callBeforeBuildingScript(self): """ Call a script on the module, for example, to remove some auto_planned Order. This part can only be done with a script, because user may want to keep existing auto_planned Order, and only update lines in them. No activities are used when deleting a object, so, current implementation should be OK. """ delivery_module_before_building_script_id = \ self.getDeliveryModuleBeforeBuildingScriptId() if delivery_module_before_building_script_id: delivery_module = getattr(self.getPortalObject(), self.getDeliveryModule()) getattr(delivery_module, delivery_module_before_building_script_id)() def generateMovementListForStockOptimisation(self, **kw): # XXX: unused from Products.ERP5Type.Document import newTempMovement movement_list = [] for attribute, method in [('node_uid', 'getDestinationUid'), ('section_uid', 'getDestinationSectionUid')]: if getattr(self, method)() not in ("", None): kw[attribute] = getattr(self, method)() # We have to check the inventory for each stock movement date. # Inventory can be negative in some date, and positive in futur !! # This must be done by subclassing OrderBuilder with a new inventory # algorithm. sql_list = self.portal_simulation.getFutureInventoryList( group_by_variation=1, group_by_resource=1, group_by_node=1, group_by_section=0, **kw) id_count = 0 for inventory_item in sql_list: # XXX FIXME SQL return None inventory... # It may be better to return always good values if (inventory_item.inventory is not None): dumb_movement = inventory_item.getObject() # Create temporary movement movement = newTempMovement(self.getPortalObject(), str(id_count)) id_count += 1 movement.edit(resource=inventory_item.resource_relative_url, variation_category_list=dumb_movement. getVariationCategoryList(), destination_value=self.getDestinationValue(), destination_section_value=self. getDestinationSectionValue()) # We can do other test on inventory here # XXX It is better if it can be sql parameters resource_portal_type = self.getResourcePortalType() resource = movement.getResourceValue() # FIXME: XXX Those properties are defined on a supply line !! # min_flow, max_delay min_flow = resource.getMinFlow(0) if (resource.getPortalType() == resource_portal_type) and\ (round(inventory_item.inventory, 5) < min_flow): # FIXME XXX getNextNegativeInventoryDate must work stop_date = DateTime() + 10 # stop_date = resource.getNextNegativeInventoryDate( # variation_text=movement.getVariationText(), # from_date=DateTime(), # # node_category=node_category, # # section_category=section_category) # node_uid=self.getDestinationUid(), # section_uid=self.getDestinationSectionUid()) max_delay = resource.getMaxDelay(0) movement.edit( start_date=DateTime(((stop_date - max_delay).Date())), stop_date=DateTime(stop_date.Date()), quantity=min_flow - inventory_item.inventory, quantity_unit=resource.getQuantityUnit() # XXX FIXME define on a supply line # quantity_unit ) movement_list.append(movement) return movement_list def _searchMovementList(self, **kw): """ Returns a list of simulation movements (or something similar to simulation movements) to construct a new delivery. """ method_id = self.getSimulationSelectMethodId() or 'portal_catalog' select_method = getattr(self.getPortalObject(), method_id) movement_list = [] # use list to preserve order movement_set = set() for movement in select_method(**kw): movement = movement.getObject() if movement in movement_set: raise SelectMethodError('%s returned %s twice or more' % \ (method_id, movement.getRelativeUrl())) movement_set.add(movement) movement_list.append(movement) return movement_list searchMovementList = UnrestrictedMethod(_searchMovementList) def collectMovement(self, movement_list): """ group movements in the way we want. Thanks to this method, we are able to retrieve movement classed by order, resource, criterion,.... movement_list : the list of movement wich we want to group class_list : the list of classes used to group movements. The order of the list is important and determines by what we will group movement first Typically, check_list is : [DateMovementGroup,PathMovementGroup,...] """ movement_group_list = self.getMovementGroupList() last_line_movement_group = self.getDeliveryMovementGroupList()[-1] separate_method_name_list = self.getDeliveryCellSeparateOrderList([]) root_group_node = MovementGroupNode( separate_method_name_list=separate_method_name_list, movement_group_list=movement_group_list, last_line_movement_group=last_line_movement_group) root_group_node.append(movement_list) return root_group_node def _test(self, instance, movement_group_node_list, divergence_list): result = True new_property_dict_list = [] for movement_group_node in movement_group_node_list: tmp_result, tmp_property_dict = movement_group_node.test( instance, divergence_list) if not tmp_result: result = tmp_result new_property_dict_list.append(tmp_property_dict) return result, new_property_dict_list @staticmethod def _getSortedPropertyDict(property_dict_list): # Sort the edit keywords according to the order of their movement # groups. This is important so that, for example, the 'resource' # is already set on a movement before trying to set the # 'variation_category' or 'variation_property' pseudo properties, # which rely on the resource being set to discover which # categories/properties to set # XXX-Leo: in the future: using an ordered_dict would be nice, # but this would have to be respected on Base._edit() edit_order = [] property_dict = {'edit_order': edit_order} for d in property_dict_list: for k, v in d.iteritems(): if k in property_dict: raise DuplicatedPropertyDictKeysError(k) property_dict[k] = v edit_order.append(k) return property_dict def _findUpdatableObject(self, instance_list, movement_group_node_list, divergence_list): instance = None if instance_list: # we want to check the original delivery first. # so sort instance_list by that current is exists or not. try: current = movement_group_node_list[-1].getMovementList( )[0].getDeliveryValue() portal = self.getPortalObject() while current != portal: if current in instance_list: instance_list.sort( key=lambda x: x != current and 1 or 0) break current = current.getParentValue() except AttributeError: pass for instance_to_update in instance_list: result, property_dict_list = self._test( instance_to_update, movement_group_node_list, divergence_list) if result: instance = instance_to_update break else: property_dict_list = [ movement_group_node.getGroupEditDict() for movement_group_node in movement_group_node_list ] return instance, self._getSortedPropertyDict(property_dict_list) @UnrestrictedMethod def buildDeliveryList(self, movement_group_node, delivery_relative_url_list=None, movement_list=None, update=True, **kw): """ Build deliveries from a list of movements """ # Parameter initialization if delivery_relative_url_list is None: delivery_relative_url_list = [] if movement_list is None: movement_list = [] # Module where we can create new deliveries portal = self.getPortalObject() delivery_module = getattr(portal, self.getDeliveryModule()) if update: delivery_to_update_list = [portal.restrictedTraverse(relative_url) for \ relative_url in delivery_relative_url_list] # Deliveries we are trying to update delivery_select_method_id = self.getDeliverySelectMethodId() if delivery_select_method_id not in ["", None]: to_update_delivery_sql_list = getattr(self, delivery_select_method_id) \ (movement_list=movement_list) delivery_to_update_list.extend([sql_delivery.getObject() \ for sql_delivery \ in to_update_delivery_sql_list]) else: delivery_to_update_list = [] # We do not want to update the same object more than twice in one # _deliveryGroupProcessing(). self._resetUpdated() delivery_list = self._processDeliveryGroup( delivery_module, movement_group_node, self.getDeliveryMovementGroupList(), delivery_to_update_list=delivery_to_update_list, **kw) return delivery_list def _createDelivery(self, delivery_module, movement_list, activate_kw): """ Create a new delivery in case where a builder may not update an existing one. """ return delivery_module.newContent( portal_type=self.getDeliveryPortalType(), created_by_builder=1, activate_kw=activate_kw) def _processDeliveryGroup(self, delivery_module, movement_group_node, collect_order_list, movement_group_node_list=None, delivery_to_update_list=None, divergence_list=None, activate_kw=None, force_update=0, **kw): """ Build delivery from a list of movement """ if movement_group_node_list is None: movement_group_node_list = [] if divergence_list is None: divergence_list = [] # do not use 'append' or '+=' because they are destructive. movement_group_node_list = movement_group_node_list + [ movement_group_node ] # Parameter initialization if delivery_to_update_list is None: delivery_to_update_list = [] delivery_list = [] if len(collect_order_list): # Get sorted movement for each delivery for grouped_node in movement_group_node.getGroupList(): new_delivery_list = self._processDeliveryGroup( delivery_module, grouped_node, collect_order_list[1:], movement_group_node_list=movement_group_node_list, delivery_to_update_list=delivery_to_update_list, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) delivery_list.extend(new_delivery_list) force_update = 0 else: # Test if we can update a existing delivery, or if we need to create # a new one delivery_to_update_list = [ x for x in delivery_to_update_list \ if x.getPortalType() == self.getDeliveryPortalType() and \ not self._isUpdated(x, 'delivery')] delivery, property_dict = self._findUpdatableObject( delivery_to_update_list, movement_group_node_list, divergence_list) # if all deliveries are rejected in case of update, we update the # first one. if force_update and delivery is None and len( delivery_to_update_list): delivery = delivery_to_update_list[0] if delivery is None: delivery = self._createDelivery( delivery_module, movement_group_node.getMovementList(), activate_kw) # Put properties on delivery self._setUpdated(delivery, 'delivery') if property_dict: property_dict.setdefault('edit_order', ('stop_date', 'start_date')) delivery.edit(**property_dict) # Then, create delivery line for grouped_node in movement_group_node.getGroupList(): self._processDeliveryLineGroup( delivery, grouped_node, self.getDeliveryLineMovementGroupList()[1:], divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) delivery_list.append(delivery) return delivery_list def _createDeliveryLine(self, delivery, movement_list, activate_kw): """ Create a new delivery line in case where a builder may not update an existing one. """ return delivery.newContent( portal_type=self.getDeliveryLinePortalType(), created_by_builder=1, activate_kw=activate_kw) def _processDeliveryLineGroup(self, delivery, movement_group_node, collect_order_list, movement_group_node_list=None, divergence_list=None, activate_kw=None, force_update=0, **kw): """ Build delivery line from a list of movement on a delivery """ if movement_group_node_list is None: movement_group_node_list = [] if divergence_list is None: divergence_list = [] # do not use 'append' or '+=' because they are destructive. movement_group_node_list = movement_group_node_list + [ movement_group_node ] if len( collect_order_list ) and not movement_group_node.getCurrentMovementGroup().isBranch(): # Get sorted movement for each delivery line for grouped_node in movement_group_node.getGroupList(): self._processDeliveryLineGroup( delivery, grouped_node, collect_order_list[1:], movement_group_node_list=movement_group_node_list, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) else: # Test if we can update an existing line, or if we need to create a new # one delivery_line_to_update_list = [x for x in delivery.contentValues( portal_type=self.getDeliveryLinePortalType()) if \ not self._isUpdated(x, 'line')] delivery_line, property_dict = self._findUpdatableObject( delivery_line_to_update_list, movement_group_node_list, divergence_list) if delivery_line is not None: update_existing_line = 1 else: # Create delivery line update_existing_line = 0 delivery_line = self._createDeliveryLine( delivery, movement_group_node.getMovementList(), activate_kw) # Put properties on delivery line self._setUpdated(delivery_line, 'line') if property_dict: property_dict.setdefault('edit_order', ('stop_date', 'start_date')) delivery_line.edit(force_update=1, **property_dict) if movement_group_node.getCurrentMovementGroup().isBranch(): for grouped_node in movement_group_node.getGroupList(): self._processDeliveryLineGroup( delivery_line, grouped_node, collect_order_list[1:], movement_group_node_list=movement_group_node_list, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) return # Update variation category list on line variation_category_dict = dict([ (variation_category, True) for variation_category in delivery_line.getVariationCategoryList() ]) for movement in movement_group_node.getMovementList(): for category in movement.getVariationCategoryList(): variation_category_dict[category] = True variation_category_list = sorted(variation_category_dict.keys()) delivery_line.setVariationCategoryList(variation_category_list) # Then, create delivery movement (delivery cell or complete delivery # line) grouped_node_list = movement_group_node.getGroupList() # If no group is defined for cell, we need to continue, in order to # save the quantity value if len(grouped_node_list): for grouped_node in grouped_node_list: self._processDeliveryCellGroup( delivery_line, grouped_node, self.getDeliveryCellMovementGroupList()[1:], update_existing_line=update_existing_line, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) else: self._processDeliveryCellGroup( delivery_line, movement_group_node, [], update_existing_line=update_existing_line, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) def _createDeliveryCell(self, delivery_line, movement, activate_kw, base_id, cell_key): """ Create a new delivery cell in case where a builder may not update an existing one. """ cell = delivery_line.newCell( base_id=base_id, portal_type=self.getDeliveryCellPortalType(), activate_kw=activate_kw, *cell_key) return cell def _processDeliveryCellGroup(self, delivery_line, movement_group_node, collect_order_list, movement_group_node_list=None, update_existing_line=0, divergence_list=None, activate_kw=None, force_update=0): """ Build delivery cell from a list of movement on a delivery line or complete delivery line """ if movement_group_node_list is None: movement_group_node_list = [] if divergence_list is None: divergence_list = [] # do not use 'append' or '+=' because they are destructive. movement_group_node_list = movement_group_node_list + [ movement_group_node ] if len(collect_order_list): # Get sorted movement for each delivery line for grouped_node in movement_group_node.getGroupList(): self._processDeliveryCellGroup( delivery_line, grouped_node, collect_order_list[1:], movement_group_node_list=movement_group_node_list, update_existing_line=update_existing_line, divergence_list=divergence_list, activate_kw=activate_kw, force_update=force_update) else: movement_list = movement_group_node.getMovementList() if len(movement_list) != 1: raise CollectError, "DeliveryBuilder: %s unable to distinct those\ movements: %s" % (self.getId(), str(movement_list)) else: # XXX Hardcoded value base_id = 'movement' object_to_update = None # We need to initialize the cell update_existing_movement = 0 movement = movement_list[0] # decide if we create a cell or if we update the line # Decision can only be made with line matrix range: # because matrix range can be empty even if line variation category # list is not empty property_dict = {} if len(delivery_line.getCellKeyList(base_id=base_id)) == 0: # update line if update_existing_line == 1: if self._isUpdated(delivery_line, 'cell'): object_to_update_list = [] else: object_to_update_list = [delivery_line] else: object_to_update_list = [] object_to_update, property_dict = self._findUpdatableObject( object_to_update_list, movement_group_node_list, divergence_list) if object_to_update is not None: update_existing_movement = 1 else: object_to_update = delivery_line else: object_to_update_list = [ delivery_line.getCell(base_id=base_id, *cell_key) for cell_key in \ delivery_line.getCellKeyList(base_id=base_id) \ if delivery_line.hasCell(base_id=base_id, *cell_key)] object_to_update, property_dict = self._findUpdatableObject( object_to_update_list, movement_group_node_list, divergence_list) if object_to_update is not None: # We update a existing cell # delivery_ratio of new related movement to this cell # must be updated to 0. update_existing_movement = 1 if object_to_update is None: # create a new cell cell_key = movement.getVariationCategoryList( omit_optional_variation=1) if not delivery_line.hasCell(base_id=base_id, *cell_key): cell = self._createDeliveryCell( delivery_line, movement, activate_kw, base_id, cell_key) vcl = movement.getVariationCategoryList() cell._edit(category_list=vcl, # XXX hardcoded value mapped_value_property_list=('quantity', 'price'), membership_criterion_category_list=vcl, membership_criterion_base_category_list=movement.\ getVariationBaseCategoryList()) else: raise MatrixError, 'Cell: %s already exists on %s' % \ (str(cell_key), str(delivery_line)) object_to_update = cell self._setUpdated(object_to_update, 'cell') self._setDeliveryMovementProperties( object_to_update, movement, property_dict, update_existing_movement=update_existing_movement, force_update=force_update, activate_kw=activate_kw) def _setDeliveryMovementProperties(self, delivery_movement, simulation_movement, property_dict, update_existing_movement=0, force_update=0, activate_kw=None): """ Initialize or update delivery movement properties. """ if not update_existing_movement or force_update: # Now, only 1 movement is possible, so copy from this movement # XXX hardcoded value if getattr(simulation_movement, 'getMappedProperty', None) is not None: property_dict[ 'quantity'] = simulation_movement.getMappedProperty( 'quantity') else: property_dict['quantity'] = simulation_movement.getQuantity() property_dict['price'] = simulation_movement.getPrice() # Update properties on object (quantity, price...) delivery_movement._edit(force_update=1, **property_dict) @UnrestrictedMethod def callAfterBuildingScript(self, delivery_list, movement_list=(), **kw): """ Call script on each delivery built. """ delivery_after_generation_script_id = \ self.getDeliveryAfterGenerationScriptId() if delivery_after_generation_script_id: related_simulation_movement_path_list = \ [x.getPath() for x in movement_list] for delivery in delivery_list: script = getattr(delivery, delivery_after_generation_script_id) # BBB: Only Python Scripts were used in the past, and they might not # accept an arbitrary argument. So to keep compatibility, # check if it can take the new parameter safely, only when # the callable object is a Python Script. meta_type = getattr(script, 'meta_type', None) if meta_type == 'Script (Python)': # check parameters accepted by the script for param in script.params().split(','): param = param.split('=', 1)[0].strip() if param == "movement_list": # XXX-Aurel: path does not work with temp objects script(movement_list=movement_list) break if param == 'related_simulation_movement_path_list' \ or param.startswith('**'): script(related_simulation_movement_path_list= related_simulation_movement_path_list) break else: script() continue else: script(related_simulation_movement_path_list= related_simulation_movement_path_list) security.declareProtected(Permissions.AccessContentsInformation, 'getMovementGroupList') def getMovementGroupList(self, portal_type=None, collect_order_group=None, **kw): """ Return a list of movement groups sorted by collect order group and index. """ category_index_dict = {} for i in self.getPortalObject( ).portal_categories.collect_order_group.contentValues(): category_index_dict[i.getId()] = i.getIntIndex() def sort_movement_group(a, b): return cmp(category_index_dict.get(a.getCollectOrderGroup()), category_index_dict.get(b.getCollectOrderGroup())) or \ cmp(a.getIntIndex(), b.getIntIndex()) if portal_type is None: portal_type = self.getPortalMovementGroupTypeList() movement_group_list = [x for x in self.contentValues(filter={'portal_type': portal_type}) \ if collect_order_group is None or collect_order_group == x.getCollectOrderGroup()] return sorted(movement_group_list, sort_movement_group) # XXX category name is hardcoded. def getDeliveryMovementGroupList(self, **kw): return self.getMovementGroupList(collect_order_group='delivery') # XXX category name is hardcoded. def getDeliveryLineMovementGroupList(self, **kw): return self.getMovementGroupList(collect_order_group='line') # XXX category name is hardcoded. def getDeliveryCellMovementGroupList(self, **kw): return self.getMovementGroupList(collect_order_group='cell') def _searchUpByPortalType(self, obj, portal_type): limit_portal_type = self.getPortalObject().getPortalType() while obj is not None: obj_portal_type = obj.getPortalType() if obj_portal_type == portal_type: break elif obj_portal_type == limit_portal_type: obj = None break else: obj = aq_parent(aq_inner(obj)) return obj def _isUpdated(self, obj, level): tv = getTransactionalVariable() return level in tv['builder_processed_list'].get(obj, ()) def _setUpdated(self, obj, level): tv = getTransactionalVariable() if 'builder_processed_list' not in tv: self._resetUpdated() tv['builder_processed_list'].setdefault(obj, []).append(level) def _resetUpdated(self): tv = getTransactionalVariable() tv['builder_processed_list'] = {} # for backward compatibilities. _deliveryGroupProcessing = _processDeliveryGroup _deliveryLineGroupProcessing = _processDeliveryLineGroup _deliveryCellGroupProcessing = _processDeliveryCellGroup
def _solve(self, activate_kw=None): """ This method splits a Delivery and move movements in to a new Delivery. Splitting is done by duplicating the Delivery, removing needless lines excess and updating related content. """ delivery_dict = {} for simulation_movement in self.getDeliveryValueList(): movement = simulation_movement.getDeliveryValue() delivery = movement.getRootDeliveryValue() delivery_dict.setdefault(delivery, []).append(simulation_movement) for delivery, split_simulation_movement_list \ in delivery_dict.iteritems(): # First, duplicate the whole delivery document including its # sub objects. old_delivery_url = delivery.getRelativeUrl() indexation_tag = 'MovementSplitSolver_solve_' + old_delivery_url applied_rule = delivery.getCausalityRelatedValue( portal_type='Applied Rule') parent = delivery.getParentValue() cp, = UnrestrictedMethod(lambda parent, *ids: parent._duplicate( parent.manage_copyObjects(ids=ids)))(parent, delivery.getId()) new_delivery = parent[cp['new_id']] new_delivery.recursiveReindexObject( activate_kw={'tag': indexation_tag}) new_delivery_url = new_delivery.getRelativeUrl() update_related_content_tag_list = [indexation_tag] old_simulation_movement_list = [] new_simulation_movement_list = [] def _isDescendant(parent, child): """ /1 and /1/2 => True /1 and /1 => True /1/2 and /1 => False """ return ('%s/' % child.getRelativeUrl()).startswith( '%s/' % parent.getRelativeUrl()) def _delete(obj): parent = obj.getParentValue() parent.deleteContent(obj.getId()) if len(parent ) == 0 and parent != parent.getRootDeliveryValue(): _delete(parent) for movement in delivery.getMovementList(): simulation_movement_list = movement.getDeliveryRelatedValueList( ) old = [] new = [] for simulation_movement in simulation_movement_list: for parent in split_simulation_movement_list: if _isDescendant(parent, simulation_movement): new.append(simulation_movement) break else: old.append(simulation_movement) if len(new) == 0: # Case 1. the movement is only used for the old delivery. # * remove from the new delivery old_simulation_movement_list.extend( [x.getRelativeUrl() for x in simulation_movement_list]) _delete( delivery.unrestrictedTraverse( movement.getRelativeUrl().replace( old_delivery_url, new_delivery_url))) elif len(old) == 0: # Case 2. the movement is only used for the new delivery. # * update related content on the new movement # * remove from the old delivery new_movement_url = movement.getRelativeUrl().replace( old_delivery_url, new_delivery_url) movement.updateRelatedContent(movement.getRelativeUrl(), new_movement_url) update_related_content_tag_list.append( '%s_updateRelatedContent' % movement.getPath()) for simulation_movement in simulation_movement_list: # XXX: Tagged reindexation added to replace after_path_and_method_id. May be unnecessary. simulation_movement.reindexObject( activate_kw={'tag': indexation_tag}) new_simulation_movement_list.extend( [x.getRelativeUrl() for x in simulation_movement_list]) _delete(movement) else: # Case 3. the movement is used for both the old and the new # delivery. # * modify 'delivery' value on simulation movements that are # related to the new delivery. # * recalculate quantity on simulation movements for simulation_moment in new: simulation_movement.setDelivery( simulation_movement.getDelivery().replace( '%s/' % old_delivery_url, '%s/' % new_delivery_url)) simulation_moment.reindexObjec( activate_kw={'tag': indexation_tag}) quantity_dict = {} for simulation_movement in simulation_movement_list: delivery_movement = simulation_movement.getDeliveryValue( ) quantity_dict[delivery_movement] = \ quantity_dict.get(delivery_movement, 0) + \ simulation_movement.getQuantity() for simulation_movement in simulation_movement_list: delivery_movement = simulation_movement.getDeliveryValue( ) total_quantity = quantity_dict[delivery_movement] quantity = simulation_movement.getQuantity() delivery_ratio = quantity / total_quantity delivery_error = total_quantity * delivery_ratio - quantity simulation_movement.edit(delivery_ratio=delivery_ratio, delivery_error=delivery_error) for movement, quantity in quantity_dict.iteritems(): movement.setQuantity(quantity) assert delivery.getMovementList() and new_delivery.getMovementList( ) # check if root applied rule exists and needs to be modified if applied_rule is not None: movement_list = [x.getRelativeUrl() for x in \ applied_rule.objectValues()] new_root_simulation_movement_list = \ [x for x in new_simulation_movement_list if x in movement_list] old_root_simulation_movement_list = \ [x for x in old_simulation_movement_list if x in movement_list] if len(new_root_simulation_movement_list) == 0: # we need to do nothing pass elif len(old_root_simulation_movement_list) == 0: # we need to modify the causality to the new delivery applied_rule.setCausality(new_delivery_url) else: # we need to split simulation movement tree new_applied_rule = delivery.getPortalObject( ).portal_simulation.newContent( portal_type='Applied Rule', specialise=applied_rule.getSpecialise(), causality=new_delivery_url) id_list = [x.rsplit('/', 1)[-1] for x in \ new_root_simulation_movement_list] cut_data = applied_rule.manage_cutObjects(id_list) new_applied_rule.manage_pasteObjects(cut_data) new_applied_rule.recursiveReindexObject( activate_kw={'tag': indexation_tag}) # Update variation category list def _updateVariationCategoryList(document): line_dict = {} for movement in document.getMovementList(): parent = movement.getParentValue() if getattr(parent, 'setVariationCategoryList', None) is not None: line_dict.setdefault(parent, []).extend( movement.getVariationCategoryList()) for line, category_list in line_dict.iteritems(): line.setVariationCategoryList(sorted(set(category_list))) _updateVariationCategoryList(delivery) _updateVariationCategoryList(new_delivery) # Set comment on old and new delivery explaining what (and when) happened doActionFor = delivery.getPortalObject( ).portal_workflow.doActionFor doActionFor(delivery, 'edit_action', comment=translateString( 'Split to Delivery ${new_delivery_url}', mapping={'new_delivery_url': new_delivery_url})) doActionFor(new_delivery, 'edit_action', comment=translateString( 'Split from Delivery ${old_delivery_url}', mapping={'old_delivery_url': old_delivery_url})) # Update causality state activate_kw = {'after_tag_list': update_related_content_tag_list} delivery.activate(**activate_kw).updateCausalityState() new_delivery.activate(**activate_kw).updateCausalityState() # Update causality values delivery.activate(**activate_kw).fixConsistency( filter={'id': 'causality_validity'}) new_delivery.activate(**activate_kw).fixConsistency( filter={'id': 'causality_validity'}) for related_value in delivery.getCausalityRelatedValueList(): if related_value.getPortalType() == 'Applied Rule': continue related_value.activate(**activate_kw).fixConsistency( filter={'id': 'causality_validity'}) # Finish solving if self.getPortalObject().portal_workflow.isTransitionPossible( self, 'succeed'): self.succeed()
class SimulatedDeliveryBuilder(BuilderMixin): """ Delivery Builder objects allow to gather multiple Simulation Movements into a single Delivery. The initial quantity property of the Delivery Line is calculated by summing quantities of related Simulation Movements. Delivery Builders are called for example whenever an order is confirmed. They are also called globaly in order to gather any confirmed or above Simulation Movement which was not associated to any Delivery Line. Such movements are called orphaned Simulation Movements. Delivery Builder objects are provided with a set a parameters to achieve their goal: A path definition: source, destination, etc. which defines the general kind of movements it applies. simulation_select_method which defines how to query all Simulation Movements which meet certain criteria (including the above path path definition). collect_order_list which defines how to group selected movements according to gathering rules. delivery_select_method which defines how to select existing Delivery which may eventually be updated with selected simulation movements. delivery_module, delivery_type and delivery_line_type which define the module and portal types for newly built Deliveries and Delivery Lines. Delivery Builders can also be provided with optional parameters to restrict selection to a given root Applied Rule caused by a single Order or to Simulation Movements related to a limited set of existing Deliveries. """ # CMF Type Definition meta_type = 'ERP5 Delivery Builder' portal_type = 'Delivery Builder' # Declarative security security = ClassSecurityInfo() security.declareObjectProtected(Permissions.AccessContentsInformation) # Default Properties property_sheets = ( PropertySheet.Base , PropertySheet.XMLObject , PropertySheet.CategoryCore , PropertySheet.DublinCore , PropertySheet.Arrow , PropertySheet.Amount , PropertySheet.Comment , PropertySheet.DeliveryBuilder ) def callBeforeBuildingScript(self): # XXX-JPS """ Redefine this method, because it seems nothing interesting can be done before building Delivery. """ pass @UnrestrictedMethod def searchMovementList(self, applied_rule_uid=None, **kw): """ defines how to query all Simulation Movements which meet certain criteria (including the above path path definition). First, select movement matching to criteria define on Delivery Builder Then, call script simulation_select_method to restrict movement_list """ # Search only child movement from this applied rule if applied_rule_uid: kw['parent_uid'] = applied_rule_uid # XXX Add profile query # Add resource query portal_type = self.getResourcePortalType() if portal_type: kw['resource_portal_type'] = portal_type movement_list = [] for movement in self._searchMovementList( portal_type='Simulation Movement', **kw): if movement.getDelivery(): LOG("searchMovementList", BLATHER, "ignore already built simulation movement %r" % movement.getRelativeUrl()) elif movement.isBuildable(): movement_list.append(movement) # XXX Add predicate test return movement_list def _setDeliveryMovementProperties(self, delivery_movement, simulation_movement, property_dict, update_existing_movement=0, force_update=0, activate_kw=None): """ Initialize or update delivery movement properties. Set delivery ratio on simulation movement. Create the relation between simulation movement and delivery movement. """ delivery = delivery_movement.getExplanationValue() simulation_movement.recursiveReindexObject(activate_kw=dict( activate_kw or (), tag='build:'+delivery.getPath())) BuilderMixin._setDeliveryMovementProperties( self, delivery_movement, simulation_movement, property_dict, update_existing_movement=update_existing_movement, force_update=force_update, activate_kw=activate_kw) if update_existing_movement and not force_update: # Important. # Attributes of delivery_movement must not be modified here. # Because we can not change values modified by the user. # Delivery will probably diverge now, but this is not the job of # Delivery Builder to resolve such problem. # Use Solver instead. simulation_movement._setDeliveryRatio(0) else: simulation_movement._setDeliveryRatio(1) delivery_movement = delivery_movement.getRelativeUrl() if simulation_movement.getDeliveryList() != [delivery_movement]: simulation_movement._setDelivery(delivery_movement) if not simulation_movement.isTempDocument(): try: getCausalityState = delivery.aq_explicit.getCausalityState except AttributeError: return if getCausalityState() == 'building': # Make sure no other node is changing state of the delivery delivery.serializeCausalityState() else: delivery.startBuilding() # Simulation consistency propagation security.declareProtected(Permissions.ModifyPortalContent, 'updateFromSimulation') def updateFromSimulation(self, delivery_relative_url, **kw): """ Update all lines of this transaction based on movements in the simulation related to this transaction. """ # We have to get a delivery, else, raise a Error delivery = self.getPortalObject().restrictedTraverse(delivery_relative_url) divergence_to_adopt_list = delivery.getDivergenceList() return self.solveDivergence( delivery_relative_url, divergence_to_adopt_list=divergence_to_adopt_list) @UnrestrictedMethod def solveDeliveryGroupDivergence(self, delivery_relative_url, property_dict=None): """ solve each divergence according to users decision (accept, adopt or do nothing). """ if property_dict in (None, {}): return delivery = self.getPortalObject().restrictedTraverse(delivery_relative_url) for (property, value) in property_dict.iteritems(): delivery.setPropertyList(property, value) # Try to remove existing properties/categories from Movements that # should exist on Deliveries. for movement in delivery.getMovementList(): for prop in property_dict.keys(): # XXX The following should be implemented in better way. if movement.hasProperty(prop): try: # for Property movement._delProperty(prop) except AttributeError: # for Category movement.setProperty(prop, None) divergence_to_accept_list = [] for divergence in delivery.getDivergenceList(): if divergence.getProperty('tested_property') not in property_dict.keys(): continue divergence_to_accept_list.append(divergence) self._solveDivergence(delivery_relative_url, divergence_to_accept_list=divergence_to_accept_list) def _solveDivergence(self, delivery_relative_url, # XXX-JPS what is this doing here ????? divergence_to_accept_list=None, divergence_to_adopt_list=None, **kw): """ solve each divergence according to users decision (accept, adopt or do nothing). """ # We have to get a delivery, else, raise a Error delivery = self.getPortalObject().restrictedTraverse(delivery_relative_url) if divergence_to_accept_list is None: divergence_to_accept_list = [] if divergence_to_adopt_list is None: divergence_to_adopt_list = [] if not len(divergence_to_accept_list) and \ not len(divergence_to_adopt_list): return divergence_list = delivery.getDivergenceList() # First, we update simulation movements according to # divergence_to_accept_list. if len(divergence_to_accept_list): solver_script = delivery._getTypeBasedMethod('acceptDecision', 'Delivery_acceptDecision') solver_script(divergence_to_accept_list) # Then, we update delivery/line/cell from simulation movements # according to divergence_to_adopt_list. if not len(divergence_to_adopt_list): return # Select movement_type_list = (self.getDeliveryLinePortalType(), self.getDeliveryCellPortalType()) movement_list = delivery.getMovementList(portal_type=movement_type_list) simulation_movement_list = [] for movement in movement_list: movement.edit(quantity=0) for simulation_movement in movement.getDeliveryRelatedValueList( portal_type="Simulation Movement"): simulation_movement_list.append(simulation_movement) # Collect root_group_node = self.collectMovement(simulation_movement_list) # Build portal = self.getPortalObject() delivery_module = getattr(portal, self.getDeliveryModule()) delivery_to_update_list = [delivery] self._resetUpdated() delivery_list = self._processDeliveryGroup( delivery_module, root_group_node, self.getDeliveryMovementGroupList(), delivery_to_update_list=delivery_to_update_list, divergence_list=divergence_to_adopt_list, force_update=1) # Then, we should re-apply quantity divergence according to 'Do # nothing' quanity divergence list because all quantity are already # calculated in adopt prevision phase. quantity_dict = {} for divergence in divergence_list: if divergence.getProperty('divergence_scope') != 'quantity' or \ divergence in divergence_to_accept_list or \ divergence in divergence_to_adopt_list: continue s_m = divergence.getProperty('simulation_movement') delivery_movement = s_m.getDeliveryValue() quantity_gap = divergence.getProperty('decision_value') - \ divergence.getProperty('prevision_value') delivery_movement.setQuantity(delivery_movement.getQuantity() + \ quantity_gap) quantity_dict[s_m] = \ divergence.getProperty('decision_value') # Finally, recalculate delivery_ratio # # Here, created/updated movements are not indexed yet. So we try to # gather delivery relations from simulation movements. delivery_dict = {} for s_m in simulation_movement_list: delivery_path = s_m.getDelivery() delivery_dict[delivery_path] = \ delivery_dict.get(delivery_path, []) + \ [s_m] for s_m_list_per_movement in delivery_dict.values(): total_quantity = sum([quantity_dict.get(s_m, s_m.getMappedProperty('quantity')) \ for s_m in s_m_list_per_movement]) if total_quantity != 0.0: for s_m in s_m_list_per_movement: delivery_ratio = quantity_dict.get(s_m, s_m.getMappedProperty('quantity')) \ / total_quantity s_m.edit(delivery_ratio=delivery_ratio) else: for s_m in s_m_list_per_movement: delivery_ratio = 1.0 / len(s_m_list_per_movement) s_m.edit(delivery_ratio=delivery_ratio) # Call afterscript if new deliveries are created new_delivery_list = [x for x in delivery_list if x != delivery] self.callAfterBuildingScript(new_delivery_list, simulation_movement_list) return delivery_list solveDivergence = UnrestrictedMethod(_solveDivergence) def _createDelivery(self, delivery_module, movement_list, activate_kw): """ Refer to the docstring in GeneratedDeliveryBuilder. Unlike GeneratedDeliveryBuilder, SimulatedDeliveryBuilder needs to respect existing relationship. """ try: old_delivery = self._searchUpByPortalType( movement_list[0].getDeliveryValue(), self.getDeliveryPortalType()) except AttributeError: old_delivery = None if old_delivery is None: # from scratch delivery = super(SimulatedDeliveryBuilder, self)._createDelivery( delivery_module, movement_list, activate_kw) # Interactions will usually trigger reindexing of related SM when # simulation state changes. Disable them for this transaction # because we already do this in _setDeliveryMovementProperties delivery.updateSimulation(index_related=0) else: # from duplicated original delivery cp = tryMethodCallWithTemporaryPermission( delivery_module, 'Copy or Move', lambda parent, *ids: parent._duplicate(parent.manage_copyObjects(ids=ids))[0], (delivery_module, old_delivery.getId()), {}, CopyError) delivery = delivery_module[cp['new_id']] # delete non-split movements keep_id_list = [y.getDeliveryValue().getId() for y in movement_list] delete_id_list = [x.getId() for x in delivery.contentValues() \ if x.getId() not in keep_id_list] delivery.deleteContent(delete_id_list) return delivery def _createDeliveryLine(self, delivery, movement_list, activate_kw): """ Refer to the docstring in GeneratedDeliveryBuilder. Unlike GeneratedDeliveryBuilder, SimulatedDeliveryBuilder needs to respect existing relationship. """ try: old_delivery_line = self._searchUpByPortalType( movement_list[0].getDeliveryValue(), self.getDeliveryLinePortalType()) except AttributeError: old_delivery_line = None if old_delivery_line is None: # from scratch delivery_line = delivery.newContent( portal_type=self.getDeliveryLinePortalType(), variation_category_list=[], activate_kw=activate_kw) else: # from duplicated original line cp = tryMethodCallWithTemporaryPermission( delivery, 'Copy or Move', lambda parent, *ids: parent._duplicate(parent.manage_copyObjects(ids=ids))[0], (delivery, old_delivery_line.getId()), {}, CopyError) delivery_line = delivery[cp['new_id']] # reset variation category list delivery_line.setVariationCategoryList([]) # delete non-split movements keep_id_list = [y.getDeliveryValue().getId() for y in movement_list] delete_id_list = [x.getId() for x in delivery_line.contentValues() \ if x.getId() not in keep_id_list] delivery_line.deleteContent(delete_id_list) return delivery_line def _createDeliveryCell(self, delivery_line, movement, activate_kw, base_id, cell_key): """ Refer to the docstring in GeneratedDeliveryBuilder. Unlike GeneratedDeliveryBuilder, SimulatedDeliveryBuilder needs to respect existing relationship. """ try: old_cell = movement.getDeliveryValue() except AttributeError: old_cell = None if old_cell is None: # from scratch cell = delivery_line.newCell(base_id=base_id, \ portal_type=self.getDeliveryCellPortalType(), activate_kw=activate_kw,*cell_key) else: # from duplicated original line cp = tryMethodCallWithTemporaryPermission( delivery_line, 'Copy or Move', lambda parent, *ids: parent._duplicate(parent.manage_copyObjects(ids=ids))[0], (delivery_line, old_cell.getId()), {}, CopyError) cell = delivery_line[cp['new_id']] return cell
def getProductPrice(product): getPrice = UnrestrictedMethod(product.getPrice) return getPrice()