Commit 119ee4a3 authored by Jérome Perrin's avatar Jérome Perrin

remove another way of solving divergences

parent 5bc49754
<?xml version="1.0"?>
<ZopeData>
<record id="1" aka="AAAAAAAAAAE=">
<pickle>
<global name="PythonScript" module="Products.PythonScripts.PythonScript"/>
</pickle>
<pickle>
<dictionary>
<item>
<key> <string>Script_magic</string> </key>
<value> <int>3</int> </value>
</item>
<item>
<key> <string>_bind_names</string> </key>
<value>
<object>
<klass>
<global name="NameAssignments" module="Shared.DC.Scripts.Bindings"/>
</klass>
<tuple/>
<state>
<dictionary>
<item>
<key> <string>_asgns</string> </key>
<value>
<dictionary>
<item>
<key> <string>name_container</string> </key>
<value> <string>container</string> </value>
</item>
<item>
<key> <string>name_context</string> </key>
<value> <string>context</string> </value>
</item>
<item>
<key> <string>name_m_self</string> </key>
<value> <string>script</string> </value>
</item>
<item>
<key> <string>name_subpath</string> </key>
<value> <string>traverse_subpath</string> </value>
</item>
</dictionary>
</value>
</item>
</dictionary>
</state>
</object>
</value>
</item>
<item>
<key> <string>_body</string> </key>
<value> <string>delivery = context\n
\n
# By default, we use \'CopyAndPropagate\' to accept decision.\n
delivery.portal_simulation.solveDelivery(delivery, None,\n
\'CopyAndPropagate\',\n
divergence_list=divergence_list)\n
</string> </value>
</item>
<item>
<key> <string>_params</string> </key>
<value> <string>divergence_list=None</string> </value>
</item>
<item>
<key> <string>id</string> </key>
<value> <string>Delivery_acceptDecision</string> </value>
</item>
</dictionary>
</pickle>
</record>
</ZopeData>
1044 1045
\ No newline at end of file \ No newline at end of file
...@@ -189,152 +189,6 @@ class SimulatedDeliveryBuilder(BuilderMixin): ...@@ -189,152 +189,6 @@ class SimulatedDeliveryBuilder(BuilderMixin):
delivery_relative_url, delivery_relative_url,
divergence_to_adopt_list=divergence_to_adopt_list) 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): def _createDelivery(self, delivery_module, movement_list, activate_kw):
""" """
Refer to the docstring in GeneratedDeliveryBuilder. Refer to the docstring in GeneratedDeliveryBuilder.
......
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