############################################################################## # # Copyright (c) 2002, 2005 Nexedi SARL and Contributors. All Rights Reserved. # Jean-Paul Smets-Solanes <jp@nexedi.com> # Romain Courteaud <romain@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 Acquisition import aq_base, aq_parent, aq_inner, aq_acquire from Products.CMFCore.utils import getToolByName from Products.ERP5Type import Permissions, PropertySheet, Constraint, Interface from Products.ERP5.Document.Rule import Rule from Products.ERP5.Document.TransformationSourcingRule import\ TransformationSourcingRuleMixin from zLOG import LOG class TransformationRule(Rule): """ Order Rule object make sure an Order in the similation is consistent with the real order """ # CMF Type Definition meta_type = 'ERP5 Transformation Rule' portal_type = 'Transformation Rule' # Declarative security security = ClassSecurityInfo() security.declareObjectProtected(Permissions.View) # Default Properties property_sheets = ( PropertySheet.Base , PropertySheet.XMLObject , PropertySheet.CategoryCore , PropertySheet.DublinCore ) # Class variable simulation_movement_portal_type = "Simulation Movement" security.declareProtected(Permissions.AccessContentsInformation, 'test') def test(self, movement): """ Tests if the rule (still) applies """ # Test if we must transform # The test should actually be based on nodes, paths # and capacities, which is not possible now result = 1 # Only apply to Order applied rule root_applied_rule = movement.getRootAppliedRule() root_rule = root_applied_rule.getSpecialiseValue() order = root_applied_rule.getCausalityValue() root_movement = movement.getRootSimulationMovement() # Test movement if (root_rule is None) or\ (root_rule.getPortalType() != "Production Order Rule") or\ (order is None) or\ (movement.getResourceValue() is None) or\ (movement.getSourceValue() is None) or\ (movement.getResourceValue() != root_movement.getResourceValue()): # We only produced what is asked on the Production Order result = 0 else: supply_chain = self.getSupplyChain(movement.getParent()) parent_supply_link = self.getCurrentSupplyLink(movement) current_tranfo_link_list = supply_chain.\ getPreviousProductionSupplyLinkList(parent_supply_link) length = len(current_tranfo_link_list) if length == 0: result = 0 elif length > 1: result = 0 # XXX FIXME: implementation needed raise "TransformationRuleError",\ "TransformationRule not able to use multiple SupplyLink." return result # Simulation workflow security.declareProtected(Permissions.ModifyPortalContent, 'expand') def expand(self, applied_rule, **kw): """ Expands the current movement downward. -> new status -> expanded An applied rule can be expanded only if its parent movement is expanded. """ parent_movement = applied_rule.getParent() # Get production node and production section production = parent_movement.getSource() production_section = parent_movement.getSourceSection() # Get the current supply link used to calculate consumed resource # The current supply link is calculated from the parent AppliedRule. supply_chain = self.getSupplyChain(parent_movement.getParent()) parent_supply_link = self.getCurrentSupplyLink(parent_movement) current_supply_link_list = supply_chain.\ getPreviousProductionSupplyLinkList(parent_supply_link) if len(current_supply_link_list) != 1: # We shall no pass here. # The test method returned a wrong value ! raise "TransformationRuleError",\ "Expand must not be called on %r" %\ applied_rule.getRelativeUrl() else: current_supply_link = current_supply_link_list[0] # Generate produced movement movement_dict = self._expandProducedResource(applied_rule, production, production_section, current_supply_link) # Generate consumed movement consumed_mvt_dict = self._expandConsumedResource(applied_rule, production, production_section, current_supply_link) movement_dict.update(consumed_mvt_dict) # Finally, build movement self._buildMovementList(applied_rule, movement_dict) # Expand each movement created Rule.expand(self, applied_rule, **kw) def _expandProducedResource(self, applied_rule, production, production_section, current_supply_link): """ Produced resource. Create a movement for the resource produced by the transformation. Only one produced movement can be created. """ parent_movement = applied_rule.getParent() produced_movement_dict = { 'pr': { "resource": parent_movement.getResource(), # XXX what is lost quantity ? "quantity": parent_movement.getQuantity(),# + lost_quantity, "quantity_unit": parent_movement.getQuantityUnit(), "variation_category_list":\ parent_movement.getVariationCategoryList(), "source_list": (), "source_section_list": (), "destination": production, "destination_section": production_section, "deliverable": 1, # XXX FIXME date not implemented # "start_date": parent_movement.getStartDate(), # "stop_date": parent_movement.getStartDate(), 'causality_value': current_supply_link, } } return produced_movement_dict def _expandConsumedResource(self, applied_rule, production, production_section, current_supply_link): """ Consumed resource. Create a movement for each resource consumed by the transformation, and for the previous variation of the produced resource. """ # Calculate all consumed resource # Store each value in a dictionnary before created them. # { movement_id: {property_name: property_value,} ,} consumed_movement_dict = {} parent_movement = applied_rule.getParent() supply_chain = self.getSupplyChain(parent_movement.getParent()) # Consumed previous variation previous_variation_dict = self._expandConsumedPreviousVariation( applied_rule, production, production_section, supply_chain, current_supply_link) consumed_movement_dict.update(previous_variation_dict) # Consumed raw materials raw_material_dict = self._expandConsumedRawMaterials( applied_rule, production, production_section, supply_chain, current_supply_link) consumed_movement_dict.update(raw_material_dict) return consumed_movement_dict def _expandConsumedPreviousVariation(self, applied_rule, production, production_section, supply_chain, current_supply_link): """ Create a movement for the previous variation of the produced resource. """ consumed_movement_dict = {} parent_movement = applied_rule.getParent() # First, calculate the previous variation of the previous resource previous_ind_phase_list = supply_chain.\ getPreviousProductionIndustrialPhaseList(current_supply_link) for ind_phase_value in previous_ind_phase_list: ind_phase = ind_phase_value.getLogicalPath() consumed_mvt_id = "%s_%s" % ("mr", ind_phase_value.getId()) consumed_movement_dict[consumed_mvt_id] = { # XXX FIXME: Not yet implemented # start_date = parent_movement.getStartDate(), # stop_date = parent_movement.getStartDate(), "resource": parent_movement.getResource(), # XXX Is the quantity value correct ? "quantity": parent_movement.getQuantity(), "quantity_unit": parent_movement.getQuantityUnit(), "destination_list": (), "destination_section_list": (), "source": production, "source_section": production_section, "deliverable": 1, "variation_category_list": \ parent_movement.getVariationCategoryList(), 'causality_value': current_supply_link, "industrial_phase": ind_phase} return consumed_movement_dict def _expandConsumedRawMaterials(self, applied_rule, production, production_section, supply_chain, current_supply_link): """ Create a movement for each resource consumed by the transformation, """ parent_movement = applied_rule.getParent() # Calculate the context for getAggregatedAmountList base_category_list = parent_movement.getVariationBaseCategoryList() if "industrial_phase" in base_category_list: # We do not want to get the industrial phase variation base_category_list.remove("industrial_phase") category_list = parent_movement.getVariationCategoryList( base_category_list=base_category_list) # Get the transformation to use production_order = applied_rule.getRootAppliedRule().\ getCausalityValue() transformation = production_order.getSpecialiseValue( portal_type=self.getPortalTransformationTypeList()) # Generate the fake context tmp_context = parent_movement.asContext( context=parent_movement, REQUEST={'categories':category_list}) # Calculate the industrial phase list previous_ind_phase_list = supply_chain.\ getPreviousPackingListIndustrialPhaseList(current_supply_link) ind_phase_id_list = [x.getId() for x in previous_ind_phase_list] # Call getAggregatedAmountList amount_list = transformation.getAggregatedAmountList( tmp_context, ind_phase_id_list=ind_phase_id_list) # Add entries in the consumed_movement_dict consumed_movement_dict = {} for amount in amount_list: consumed_mvt_id = "%s_%s" % ("cr", amount.getId()) consumed_movement_dict[consumed_mvt_id] = { # XXX FIXME date not implemented # "start_date": movement.getStartDate(), # "stop_date": movement.getStartDate(), "resource": amount.getResource(), "variation_category_list":\ amount.getVariationCategoryList(), "quantity": amount.getQuantity() * parent_movement.getQuantity(), "quantity_unit": amount.getQuantityUnit(), "destination_list": (), "destination_section_list": (), "source": production, "source_section": production_section, "deliverable": 1, 'causality_value': current_supply_link, } return consumed_movement_dict security.declareProtected(Permissions.ModifyPortalContent, 'solve') def solve(self, applied_rule, solution_list): """ Solve inconsitency according to a certain number of solutions templates. This updates the -> new status -> solved This applies a solution to an applied rule. Once the solution is applied, the parent movement is checked. If it does not diverge, the rule is reexpanded. If not, diverge is called on the parent movement. """ security.declareProtected(Permissions.ModifyPortalContent, 'diverge') def diverge(self, applied_rule): """ -> new status -> diverged This basically sets the rule to "diverged" and blocks expansion process """ # Solvers security.declareProtected(Permissions.View, 'isDivergent') def isDivergent(self, applied_rule): """ Returns 1 if divergent rule """ security.declareProtected(Permissions.View, 'getDivergenceList') def getDivergenceList(self, applied_rule): """ Returns a list Divergence descriptors """ security.declareProtected(Permissions.View, 'getSolverList') def getSolverList(self, applied_rule): """ Returns a list Divergence solvers """ # Deliverability / orderability def isDeliverable(self, m): return 1 def isOrderable(self, m): return 0 from Products.ERP5Type.Utils import monkeyPatch monkeyPatch(TransformationSourcingRuleMixin, TransformationRule)