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##############################################################################
#
# 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 CopyToTarget import CopyToTarget
from Acquisition import aq_base
from Products.ERP5Type.DivergenceMessage import DivergenceMessage
from Products.ERP5.DivergenceSolutionDecision \
import DivergenceSolutionDecision
class SplitAndDefer(CopyToTarget):
"""
Split and defer simulation movement.
Many 'deliverable movements' are created in the Simulation and
may need to be delivered later. Solver accumulates such movements
in the solving process and creates a new delivery
This only works when some movements can not be delivered
(excessive qty is not covered)
"""
def solve(self, simulation_movement):
"""
Split a simulation movement and accumulate
"""
movement_quantity = simulation_movement.getQuantity()
delivery_quantity = simulation_movement.getDeliveryQuantity()
new_movement_quantity = delivery_quantity * simulation_movement.getDeliveryRatio()
applied_rule = simulation_movement.getParentValue()
rule = applied_rule.getSpecialiseValue()
expandable_property_list = []
if getattr(rule, 'getExpandablePropertyList', None) is not None:
expandable_property_list = rule.getExpandablePropertyList()
if movement_quantity > new_movement_quantity:
split_index = 0
new_id = "%s_split_%s" % (simulation_movement.getId(), split_index)
applied_rule = simulation_movement.getParentValue()
while getattr(aq_base(applied_rule), new_id, None) is not None:
split_index += 1
new_id = "%s_split_%s" % (simulation_movement.getId(), split_index)
# Adopt different dates for deferred movements
if simulation_movement.getCausality() and expandable_property_list:
# working in BPM enabled system with nicely configured rules
movement_dict = {}
# new properties
movement_dict.update(
portal_type="Simulation Movement",
id=new_id,
quantity=movement_quantity - new_movement_quantity,
activate_kw=self.activate_kw,
# 'order' category is deprecated. it is kept for compatibility.
order=simulation_movement.getOrder(),
**self.additional_parameters
)
for prop in applied_rule.getSpecialiseValue().getExpandablePropertyList():
if prop not in movement_dict: # XXX: better way to filter out
movement_dict.update(**{
prop: simulation_movement.getProperty(prop)})
new_movement = applied_rule.newContent(**movement_dict)
new_movement.recordProperty('start_date')
new_movement.recordProperty('stop_date')
new_movement.edit(start_date=self.start_date,
stop_date=self.stop_date)
new_movement.activate(**self.additional_parameters).expand()
else:
new_movement = applied_rule.newContent(
portal_type="Simulation Movement",
id=new_id,
efficiency=simulation_movement.getEfficiency(),
start_date=simulation_movement.getStartDate(),
stop_date=simulation_movement.getStopDate(),
# 'order' category is deprecated. it is kept for
# compatibility.
order=simulation_movement.getOrder(),
resource=simulation_movement.getResource(),
quantity=movement_quantity - new_movement_quantity,
quantity_unit=simulation_movement.getQuantityUnit(),
price=simulation_movement.getPrice(),
price_currency=simulation_movement.getPriceCurrency(),
source=simulation_movement.getSource(),
destination=simulation_movement.getDestination(),
source_section=simulation_movement.getSourceSection(),
destination_section=simulation_movement.getDestinationSection(),
source_function=simulation_movement.getSourceFunction(),
destination_function=simulation_movement.getDestinationFunction(),
source_account=simulation_movement.getSourceAccount(),
destination_account=simulation_movement.getDestinationAccount(),
variation_category_list=simulation_movement.getVariationCategoryList(),
variation_property_dict=simulation_movement.getVariationPropertyDict(),
base_application_list=simulation_movement.getBaseApplicationList(),
base_contribution_list=simulation_movement.getBaseContributionList(),
description=simulation_movement.getDescription(),
activate_kw=self.activate_kw,
**self.additional_parameters
)
new_movement.recordProperty('start_date')
new_movement.recordProperty('stop_date')
new_movement.edit(start_date=self.start_date,
stop_date=self.stop_date)
new_movement.activate(**self.additional_parameters).expand()
# adopt new quantity on original simulation movement
simulation_movement.edit(quantity=new_movement_quantity)
simulation_movement.setDefaultActivateParameters(**self.activate_kw)
simulation_movement.activate(**self.additional_parameters).expand()
simulation_movement.aq_parent.expand()
# SplitAndDefer solves the divergence at the current level, no need to
# backtrack.