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Commit 210462bf authored by Jean-Paul Smets's avatar Jean-Paul Smets
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Quickly moved core to mixin, added what is needed for new BPM (taken from... 

Quickly moved core to mixin, added what is needed for new BPM (taken from BPMBuilder.py now in Legacy) and tried to have single code base)

git-svn-id: https://svn.erp5.org/repos/public/erp5/sandbox/amount_generator@37547 20353a03-c40f-0410-a6d1-a30d3c3de9de
parent 78de7006
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product/ERP5/Document/GeneratedDeliveryBuilder.py
View file @ 210462bf
......@@ -33,21 +33,13 @@ from Products.ERP5Type.XMLObject import XMLObject
from Products.ERP5.Document.Predicate import Predicate
from Products.ERP5.Document.Amount import Amount
from Products.ERP5.MovementGroup import MovementGroupNode
from Products.ERP5.mixin.builder import BuilderMixin, SelectMethodError
from Products.ERP5Type.TransactionalVariable import getTransactionalVariable
from Products.ERP5Type.UnrestrictedMethod import UnrestrictedMethod
from DateTime import DateTime
from Acquisition import aq_parent, aq_inner
from zLOG import LOG
class CollectError(Exception): pass
class MatrixError(Exception): pass
class DuplicatedPropertyDictKeysError(Exception): pass
class SelectMethodError(Exception): pass
class SelectMovementError(Exception): pass
class GeneratedDeliveryBuilder(XMLObject, Amount, Predicate):
class GeneratedDeliveryBuilder(BuilderMixin):
"""
Order Builder objects allow to gather multiple Simulation Movements
into a single Delivery.
......@@ -97,684 +89,4 @@ class GeneratedDeliveryBuilder(XMLObject, Amount, Predicate):
, 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, **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 movement_relative_url_list is None:
movement_relative_url_list = []
if delivery_relative_url_list is None:
delivery_relative_url_list = []
if movement_list is None:
movement_list = []
# Call a script before building
self.callBeforeBuildingScript() # XXX-JPS Used ?
# Select
if not len(movement_list):
if len(movement_relative_url_list) == 0:
movement_list = self.searchMovementList(
delivery_relative_url_list=delivery_relative_url_list,
applied_rule_uid=applied_rule_uid,**kw)
else:
movement_list = [self.restrictedTraverse(relative_url) for relative_url \
in movement_relative_url_list]
LOG('movement_list', 0, repr(movement_list))
if not len(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,**kw)
# Call a script after building
self.callAfterBuildingScript(delivery_list, movement_list, **kw)
# XXX Returning the delivery list is probably not necessary
return delivery_list
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 not in ["", None]:
delivery_module = getattr(self.getPortalObject(), self.getDeliveryModule())
getattr(delivery_module, delivery_module_before_building_script_id)()
def generateMovementListForStockOptimisation(self, **kw):
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
@UnrestrictedMethod
def searchMovementList(self, applied_rule_uid=None, **kw):
"""
Returns a list of simulation movements (or something similar to
simulation movements) to construct a new delivery.
For compatibility, if a simulation select method id is not provided,
a list of movements for predicting future supplies is returned.
You should define a simulation select method id, then it will be used
to calculate the result.
"""
method_id = self.getSimulationSelectMethodId()
if not method_id:
# XXX compatibility
return self.generateMovementListForStockOptimisation(**kw)
select_method = getattr(self.getPortalObject(), method_id)
movement_list = select_method(**kw)
# Make sure that movements are not duplicated.
movement_set = set()
for movement in movement_list:
if movement in movement_set:
raise SelectMethodError('%s returned %s twice or more' % \
(method_id, movement.getRelativeUrl()))
else:
movement_set.add(movement)
return movement_list
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 = {}
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.update(tmp_property_dict)
return result, new_property_dict
def _findUpdatableObject(self, instance_list, movement_group_node_list,
divergence_list):
instance = None
property_dict = {}
if not len(instance_list):
for movement_group_node in movement_group_node_list:
for k,v in movement_group_node.getGroupEditDict().iteritems():
if k in property_dict:
raise DuplicatedPropertyDictKeysError(k)
else:
property_dict[k] = v
else:
# 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 = self._test(
instance_to_update, movement_group_node_list, divergence_list)
if result == True:
instance = instance_to_update
break
return instance, property_dict
@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.
"""
new_delivery_id = str(delivery_module.generateNewId())
delivery = delivery_module.newContent(
portal_type=self.getDeliveryPortalType(),
id=new_delivery_id,
created_by_builder=1,
activate_kw=activate_kw)
return delivery
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.
"""
new_delivery_line_id = str(delivery.generateNewId())
delivery_line = delivery.newContent(
portal_type=self.getDeliveryLinePortalType(),
id=new_delivery_line_id,
created_by_builder=1,
activate_kw=activate_kw)
return delivery_line
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=None, **kw):
"""
Call script on each delivery built.
"""
if not len(delivery_list):
return
# Parameter initialization
if movement_list is None:
movement_list = []
delivery_after_generation_script_id = \
self.getDeliveryAfterGenerationScriptId()
related_simulation_movement_path_list = \
[x.getPath() for x in movement_list]
if delivery_after_generation_script_id not in ["", None]:
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.
safe_to_pass_parameter = True
meta_type = getattr(script, 'meta_type', None)
if meta_type == 'Script (Python)':
# check if the script accepts related_simulation_movement_path_list
safe_to_pass_parameter = False
for param in script.params().split(','):
param = param.split('=', 1)[0].strip()
if param == 'related_simulation_movement_path_list' \
or param.startswith('**'):
safe_to_pass_parameter = True
break
if safe_to_pass_parameter:
script(related_simulation_movement_path_list=related_simulation_movement_path_list)
else:
script()
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(self)
return level in tv['builder_processed_list'].get(obj, [])
def _setUpdated(self, obj, level):
tv = getTransactionalVariable(self)
if tv.get('builder_processed_list', None) is None:
self._resetUpdated()
tv['builder_processed_list'][obj] = \
tv['builder_processed_list'].get(obj, []) + [level]
def _resetUpdated(self):
tv = getTransactionalVariable(self)
tv['builder_processed_list'] = {}
# for backward compatibilities.
_deliveryGroupProcessing = _processDeliveryGroup
_deliveryLineGroupProcessing = _processDeliveryLineGroup
_deliveryCellGroupProcessing = _processDeliveryCellGroup
)
\ No newline at end of file
product/ERP5/Document/SimulatedDeliveryBuilder.py
View file @ 210462bf
......@@ -29,12 +29,11 @@
from AccessControl import ClassSecurityInfo
from Products.ERP5Type import Permissions, PropertySheet
from Products.ERP5.Document.GeneratedDeliveryBuilder import \
GeneratedDeliveryBuilder, SelectMethodError
from Products.ERP5.mixin.builder import BuilderMixin, SelectMethodError
from Products.ERP5Type.UnrestrictedMethod import UnrestrictedMethod
from Products.ERP5Type.CopySupport import CopyError, tryMethodCallWithTemporaryPermission
class SimulatedDeliveryBuilder(GeneratedDeliveryBuilder):
class SimulatedDeliveryBuilder(BuilderMixin):
"""
Delivery Builder objects allow to gather multiple Simulation Movements
into a single Delivery.
......
product/ERP5/mixin/builder.py 0 → 100644
View file @ 210462bf
# -*- coding: utf-8 -*-
##############################################################################
#
# Copyright (c) 2005-2010 Nexedi SA and Contributors. All Rights Reserved.
# Romain Courteaud <romain@nexedi.com>
#
# WARNING: This program as such is intended to be used by professional
# programmers who take the whole responsibility 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
# guarantees 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
from Products.ERP5Type.XMLObject import XMLObject
from Products.ERP5.Document.Predicate import Predicate
from Products.ERP5.Document.Amount import Amount
from Products.ERP5.MovementGroup import MovementGroupNode
from Products.ERP5Type.TransactionalVariable import getTransactionalVariable
from Products.ERP5Type.UnrestrictedMethod import UnrestrictedMethod
from Products.ERP5.ExplanationCache import _getExplanationCache
from DateTime import DateTime
from Acquisition import aq_parent, aq_inner
from zLOG import LOG
class CollectError(Exception): pass
class MatrixError(Exception): pass
class DuplicatedPropertyDictKeysError(Exception): pass
class SelectMethodError(Exception): pass
class SelectMovementError(Exception): pass
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, **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 movement_relative_url_list is None:
movement_relative_url_list = []
if delivery_relative_url_list is None:
delivery_relative_url_list = []
if movement_list is None:
movement_list = []
# Call a script before building
self.callBeforeBuildingScript() # XXX-JPS Used ?
# Select
if not len(movement_list):
if len(movement_relative_url_list) == 0:
if explanation is not None:
explanation_cache = _getExplanationCache(explanation)
path = explanation_cache.getSimulationPathPatternList()
else:
path = kw.get('path', None)
if business_link is not None:
causality_uid = business_link.getUid()
else:
causality_uid = kw.get('causality_uid', None)
kw.update(dict(causality_uid=causality_uid, path=path))
if 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(
delivery_relative_url_list=delivery_relative_url_list,
applied_rule_uid=applied_rule_uid,**kw)
else:
movement_list = [self.restrictedTraverse(relative_url) for relative_url \
in movement_relative_url_list]
if not len(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,**kw)
# Call a script after building
self.callAfterBuildingScript(delivery_list, movement_list, **kw)
# XXX Returning the delivery list is probably not necessary
return delivery_list
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 not in ["", None]:
delivery_module = getattr(self.getPortalObject(), self.getDeliveryModule())
getattr(delivery_module, delivery_module_before_building_script_id)()
def generateMovementListForStockOptimisation(self, **kw):
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
@UnrestrictedMethod
def searchMovementList(self, applied_rule_uid=None, **kw):
"""
Returns a list of simulation movements (or something similar to
simulation movements) to construct a new delivery.
For compatibility, if a simulation select method id is not provided,
a list of movements for predicting future supplies is returned.
You should define a simulation select method id, then it will be used
to calculate the result.
"""
method_id = self.getSimulationSelectMethodId()
if not method_id:
# XXX compatibility
return self.generateMovementListForStockOptimisation(**kw)
select_method = getattr(self.getPortalObject(), method_id)
movement_list = select_method(**kw)
# Make sure that movements are not duplicated.
movement_set = set()
for movement in movement_list:
if movement in movement_set:
raise SelectMethodError('%s returned %s twice or more' % \
(method_id, movement.getRelativeUrl()))
else:
movement_set.add(movement)
return movement_list
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 = {}
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.update(tmp_property_dict)
return result, new_property_dict
def _findUpdatableObject(self, instance_list, movement_group_node_list,
divergence_list):
instance = None
property_dict = {}
if not len(instance_list):
for movement_group_node in movement_group_node_list:
for k,v in movement_group_node.getGroupEditDict().iteritems():
if k in property_dict:
raise DuplicatedPropertyDictKeysError(k)
else:
property_dict[k] = v
else:
# 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 = self._test(
instance_to_update, movement_group_node_list, divergence_list)
if result == True:
instance = instance_to_update
break
return instance, property_dict
@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.
"""
new_delivery_id = str(delivery_module.generateNewId())
delivery = delivery_module.newContent(
portal_type=self.getDeliveryPortalType(),
id=new_delivery_id,
created_by_builder=1,
activate_kw=activate_kw)
return delivery
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.
"""
new_delivery_line_id = str(delivery.generateNewId())
delivery_line = delivery.newContent(
portal_type=self.getDeliveryLinePortalType(),
id=new_delivery_line_id,
created_by_builder=1,
activate_kw=activate_kw)
return delivery_line
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=None, **kw):
"""
Call script on each delivery built.
"""
if not len(delivery_list):
return
# Parameter initialization
if movement_list is None:
movement_list = []
delivery_after_generation_script_id = \
self.getDeliveryAfterGenerationScriptId()
related_simulation_movement_path_list = \
[x.getPath() for x in movement_list]
if delivery_after_generation_script_id not in ["", None]:
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.
safe_to_pass_parameter = True
meta_type = getattr(script, 'meta_type', None)
if meta_type == 'Script (Python)':
# check if the script accepts related_simulation_movement_path_list
safe_to_pass_parameter = False
for param in script.params().split(','):
param = param.split('=', 1)[0].strip()
if param == 'related_simulation_movement_path_list' \
or param.startswith('**'):
safe_to_pass_parameter = True
break
if safe_to_pass_parameter:
script(related_simulation_movement_path_list=related_simulation_movement_path_list)
else:
script()
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(self)
return level in tv['builder_processed_list'].get(obj, [])
def _setUpdated(self, obj, level):
tv = getTransactionalVariable(self)
if tv.get('builder_processed_list', None) is None:
self._resetUpdated()
tv['builder_processed_list'][obj] = \
tv['builder_processed_list'].get(obj, []) + [level]
def _resetUpdated(self):
tv = getTransactionalVariable(self)
tv['builder_processed_list'] = {}
# for backward compatibilities.
_deliveryGroupProcessing = _processDeliveryGroup
_deliveryLineGroupProcessing = _processDeliveryLineGroup
_deliveryCellGroupProcessing = _processDeliveryCellGroup
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