Commit ad14d590 authored by Łukasz Nowak's avatar Łukasz Nowak

Rule.py

 - update copyrights, fix some typos
 - declare encoding
 - cleanup imports
 - incorporate BPMRule functionality
 - define which helpers are override able, which aren't
BPMRule.py
 - remove, because Rule.py provide same functionality
BPMInvoiceTransactionRule.py
BPMInvoicingRule.py
BPMOrderRule.py
BPMDeliveryRule.py
 - use Rule instead of BPMRule
 - remove not needed disclaimer


git-svn-id: https://svn.erp5.org/repos/public/erp5/trunk@28517 20353a03-c40f-0410-a6d1-a30d3c3de9de
parent 919c56a7
......@@ -31,12 +31,10 @@
from AccessControl import ClassSecurityInfo
from Products.ERP5Type import Permissions, PropertySheet
from Products.ERP5.Document.BPMRule import BPMRule
from Products.ERP5.Document.Rule import Rule
class BPMDeliveryRule(BPMRule):
class BPMDeliveryRule(Rule):
"""
DISCLAIMER: Refer to BPMRule docstring disclaimer.
This is BPM enabled Delivery Rule.
"""
......
......@@ -30,13 +30,11 @@
from AccessControl import ClassSecurityInfo
from Products.ERP5Type import Permissions, PropertySheet
from Products.ERP5.Document.BPMRule import BPMRule
from Products.ERP5.Document.Rule import Rule
from Products.ERP5.Document.PredicateMatrix import PredicateMatrix
class BPMInvoiceTransactionRule(BPMRule, PredicateMatrix):
class BPMInvoiceTransactionRule(Rule, PredicateMatrix):
"""
DISCLAIMER: Refer to BPMRule docstring disclaimer.
This is BPM enabled Invoice Transaction Rule.
"""
......
......@@ -32,12 +32,10 @@
from AccessControl import ClassSecurityInfo
from Products.ERP5Type import Permissions, PropertySheet
from Products.ERP5.Document.BPMRule import BPMRule
from Products.ERP5.Document.Rule import Rule
class BPMInvoicingRule(BPMRule):
class BPMInvoicingRule(Rule):
"""
DISCLAIMER: Refer to BPMRule docstring disclaimer.
This is BPM enabled Invoicing Rule
"""
......
......@@ -35,8 +35,6 @@ from Products.ERP5.Document.BPMDeliveryRule import BPMDeliveryRule
class BPMOrderRule(BPMDeliveryRule):
"""
DISCLAIMER: Refer to BPMRule docstring disclaimer.
This is BPM enabled Order Rule.
"""
# CMF Type Definition
......
# -*- coding: utf-8 -*-
##############################################################################
#
# Copyright (c) 2002-2009 Nexedi SA and Contributors. All Rights Reserved.
# Jean-Paul Smets-Solanes <jp@nexedi.com>
# Łukasz Nowak <luke@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.
#
##############################################################################
import zope.interface
from AccessControl import ClassSecurityInfo
from Products.ERP5Type import Permissions, PropertySheet, interfaces
from Products.ERP5.Document.Predicate import Predicate
from Products.ERP5Type.XMLObject import XMLObject
from Acquisition import aq_base
from Products.CMFCore.utils import getToolByName
from zLOG import LOG
class BPMRule(Predicate, XMLObject):
"""
DISCLAIMER: Do not use this in any production system.
This is only proof of concept and evaluation of new system
design. Implementation and API can change without any
further warning.
*DO NOT USE IN PRODUCTION SYSTEM*
This is BPM enabled Rule system Base class.
"""
# CMF Type Definition
meta_type = 'ERP5 BPM Rule'
portal_type = 'BPM Rule'
add_permission = Permissions.AddPortalContent
isPortalContent = 1
isRADContent = 1
isPredicate = 1
# Declarative security
security = ClassSecurityInfo()
security.declareObjectProtected(Permissions.AccessContentsInformation)
zope.interface.implements( interfaces.IPredicate,
interfaces.IRule )
# Default Properties
property_sheets = ( PropertySheet.Base
, PropertySheet.XMLObject
, PropertySheet.CategoryCore
, PropertySheet.DublinCore
, PropertySheet.Task
, PropertySheet.Predicate
, PropertySheet.Reference
, PropertySheet.Version
, PropertySheet.Rule
)
movement_type = 'Simulation Movement'
security.declareProtected(Permissions.AccessContentsInformation,
'isAccountable')
def isAccountable(self, movement):
"""Tells wether generated movement needs to be accounted or not.
Only account movements which are not associated to a delivery;
Whenever delivery is there, delivery has priority
"""
return movement.getDeliveryValue() is None
security.declareProtected(Permissions.ModifyPortalContent,
'constructNewAppliedRule')
def constructNewAppliedRule(self, context, id=None, activate_kw=None):
"""
Creates a new applied rule which points to self
"""
portal_types = getToolByName(self, 'portal_types')
if id is None:
id = context.generateNewId()
if getattr(aq_base(context), id, None) is None:
context.newContent(id=id,
portal_type='Applied Rule',
specialise_value=self,
activate_kw=activate_kw)
return context.get(id)
# Simulation workflow
def test(self, *args, **kw):
"""
If no test method is defined, return False, to prevent infinite loop
"""
if not self.getTestMethodId():
return False
return Predicate.test(self, *args, **kw)
# Solvers
security.declareProtected( Permissions.AccessContentsInformation,
'isDivergent')
def isDivergent(self, simulation_movement, ignore_list=[]):
"""
Returns true if the Simulation Movement is divergent comparing to
the delivery value
"""
delivery = simulation_movement.getDeliveryValue()
if delivery is None:
return 0
if self.getDivergenceList(simulation_movement) == []:
return 0
else:
return 1
security.declareProtected(Permissions.View, 'getDivergenceList')
def getDivergenceList(self, simulation_movement):
"""
Return a list of messages that contains the divergences.
"""
result_list = []
for divergence_tester in self.contentValues(
portal_type=self.getPortalDivergenceTesterTypeList()):
result = divergence_tester.explain(simulation_movement)
result_list.extend(result)
return result_list
# Deliverability / orderability
def isOrderable(self, movement):
return 0
def isDeliverable(self, movement):
return 0
def isStable(self, applied_rule, **kw):
"""
- generate a list of previsions
- compare the prevision with existing children
- return 1 if they match, 0 else
"""
list = self._getCompensatedMovementList(applied_rule, **kw)
for e in list:
if len(e) > 0:
return 0
return 1
#### Helpers to overload
def _getExpandablePropertyUpdateDict(self, applied_rule, movement,
business_path, current_property_dict):
"""Rule specific dictionary used to update _getExpandablePropertyDict
This method might be overloaded.
"""
return {}
def _getInputMovementList(self, applied_rule):
"""Return list of movements for applied rule.
This method might be overloaded"""
return [applied_rule.getParentValue()]
def _generatePrevisionList(self, applied_rule, **kw):
"""
Generate a list of dictionaries, that contain calculated content of
current Simulation Movements in applied rule.
based on its context (parent movement, delivery, configuration ...)
These previsions are returned as dictionaries.
"""
prevision_dict_list = []
for input_movement, business_path in self \
._getInputMovementAndPathTupleList(applied_rule):
prevision_dict_list.append(self._getExpandablePropertyDict(applied_rule,
input_movement, business_path))
return prevision_dict_list
#### Helpers NOT to overload
def _getCurrentMovementList(self, applied_rule, **kw):
"""
Returns the list of current children of the applied rule, sorted in 3
groups : immutable/mutable/deletable
* immutable is frozen
* mutable is not frozen, but delivered
* deletable is not frozen and not delivered
Delivered means movement is delivered or any of its children is delivered.
"""
immutable_movement_list = []
mutable_movement_list = []
deletable_movement_list = []
for movement in applied_rule.contentValues(
portal_type=self.movement_type):
if movement.isFrozen():
immutable_movement_list.append(movement)
else:
if movement._isTreeDelivered():
mutable_movement_list.append(movement)
else:
deletable_movement_list.append(movement)
return (immutable_movement_list, mutable_movement_list,
deletable_movement_list)
def _getInputMovementAndPathTupleList(self, applied_rule):
"""Returns list of tuples (movement, business_path)"""
input_movement_list = self._getInputMovementList(applied_rule)
business_process = applied_rule.getBusinessProcessValue()
input_movement_and_path_list = []
business_path_list = []
for input_movement in input_movement_list:
for business_path in business_process.getPathValueList(
self.getTradePhaseList(),
input_movement):
input_movement_and_path_list.append((input_movement, business_path))
business_path not in business_path_list and business_path_list \
.append(business_path)
if len(business_path_list) > 1:
raise NotImplementedError
return input_movement_and_path_list
def _getCompensatedMovementList(self, applied_rule, **kw):
"""Compute the difference between prevision and existing movements
Immutable movements need compensation, mutable ones needs to be modified
XXX For now, this implementation is too simple. It could be improved by
using MovementGroups
"""
add_list = [] # list of movements to be added
modify_dict = {} # dict of movements to be modified
delete_list = [] # list of movements to be deleted
prevision_list = self._generatePrevisionList(applied_rule, **kw)
immutable_movement_list, mutable_movement_list, \
deletable_movement_list = self._getCurrentMovementList(applied_rule,
**kw)
movement_list = immutable_movement_list + mutable_movement_list \
+ deletable_movement_list
non_matched_list = movement_list[:] # list of remaining movements
for prevision in prevision_list:
p_matched_list = []
for movement in non_matched_list:
for prop in self.getMatchingPropertyList():
if prevision.get(prop) != movement.getProperty(prop):
break
else:
p_matched_list.append(movement)
# Movements exist, we'll try to make them match the prevision
if p_matched_list != []:
# Check the quantity
m_quantity = 0.0
for movement in p_matched_list:
m_quantity += movement.getQuantity()#getCorrectedQuantity()
if m_quantity != prevision.get('quantity'):
# special case - quantity
if movement.isPropertyForced('quantity'):
# TODO: support compensation if not prevent_compensation
LOG('%s:%s' % (self.getRelativeUrl(), movement.getRelativeUrl()), 100,
'Quantity forced to stay as %s, even if wanted %s' % (m_quantity, prevision.get('quantity')))
# DivergenceDecision mangle
pass
else:
q_diff = prevision.get('quantity') - m_quantity
# try to find a movement that can be edited
for movement in p_matched_list:
if movement in (mutable_movement_list \
+ deletable_movement_list):
# mark as requiring modification
prop_dict = modify_dict.setdefault(movement.getId(), {})
#prop_dict['quantity'] = movement.getCorrectedQuantity() + \
prop_dict['quantity'] = movement.getQuantity() + \
q_diff
break
else:
# no modifiable movement was found, need to compensate by quantity
raise NotImplementedError('Need to generate quantity compensation')
for movement in p_matched_list:
if movement in (mutable_movement_list \
+ deletable_movement_list):
prop_dict = modify_dict.setdefault(movement.getId(), {})
for k, v in prevision.items():
if k not in ('quantity',) and v != movement.getProperty(k):
# TODO: acceptance range
if movement.isPropertyForced(k):
# support compensation if not prevent_compensation
LOG('%s:%s' % (self.getRelativeUrl(), movement.getRelativeUrl()), 100,
'Property %s forced to stay as %r, even if wanted %r' % (k, movement.getProperty(k), v))
# DivergenceDecision mangle
continue
prop_dict.setdefault(k, v)
# update movement lists
for movement in p_matched_list:
non_matched_list.remove(movement)
# No movement matched, we need to create one
else:
add_list.append(prevision)
# delete non matched movements
for movement in non_matched_list:
if movement in deletable_movement_list:
# delete movement
delete_list.append(movement.getId())
elif movement in mutable_movement_list:
# set movement quantity to 0 to make it "void"
prop_dict = modify_dict.setdefault(movement.getId(), {})
prop_dict['quantity'] = 0.0
else:
# movement not modifiable, we can decide to create a compensation
# with negative quantity
raise NotImplementedError("Tried to delete immutable movement %s" % \
movement.getRelativeUrl())
return (add_list, modify_dict, delete_list)
def _getExpandablePropertyDict(self, applied_rule, movement, business_path,
**kw):
"""
Return a Dictionary with the Properties used to edit the simulation
Do NOT overload this method, use _getExpandablePropertyUpdateDict instead
"""
property_dict = {}
default_property_list = self.getExpandablePropertyList()
for prop in default_property_list:
property_dict[prop] = movement.getProperty(prop)
# Arrow
for base_category in \
business_path.getSourceBaseCategoryList() +\
business_path.getDestinationBaseCategoryList():
# XXX: we need to use _list for categories *always*
category_url = business_path.getDefaultAcquiredCategoryMembership(
base_category, context=movement)
if category_url not in ['', None]:
property_dict['%s_list' % base_category] = [category_url]
else:
property_dict['%s_list' % base_category] = []
# Amount
if business_path.getQuantity():
property_dict['quantity'] = business_path.getQuantity()
elif business_path.getEfficiency():
property_dict['quantity'] = movement.getQuantity() *\
business_path.getEfficiency()
else:
property_dict['quantity'] = movement.getQuantity()
if movement.getStartDate() == movement.getStopDate():
property_dict['start_date'] = business_path.getExpectedStartDate(
movement)
property_dict['stop_date'] = business_path.getExpectedStopDate(movement)
else: # XXX shall not be used, but business_path.getExpectedStart/StopDate
# do not works on second path...
property_dict['start_date'] = movement.getStartDate()
property_dict['stop_date'] = movement.getStopDate()
# rule specific
property_dict.update(**self._getExpandablePropertyUpdateDict(applied_rule,
movement, business_path, property_dict))
# save a relation to business path
property_dict['causality_list'] = [business_path.getRelativeUrl()]
return property_dict
security.declareProtected(Permissions.ModifyPortalContent, 'expand')
def expand(self, applied_rule, force=0, **kw):
"""Generic expand with helpers.
Do NOT overload, use helpers."""
add_list, modify_dict, \
delete_list = self._getCompensatedMovementList(applied_rule, **kw)
# delete not needed movements
for movement_id in delete_list:
applied_rule._delObject(movement_id)
# update existing
for movement, property_dict in modify_dict.items():
applied_rule[movement].edit(**property_dict)
# add new ones
for movement_dict in add_list:
movement_id = applied_rule._get_id(movement_dict.pop('id', None))
new_movement = applied_rule.newContent(id=movement_id,
portal_type=self.movement_type, **movement_dict)
for o in applied_rule.objectValues():
o.expand(**kw)
# -*- coding: utf-8 -*-
##############################################################################
#
# Copyright (c) 2002 Nexedi SARL and Contributors. All Rights Reserved.
# Copyright (c) 2002-2009 Nexedi SARL and Contributors. All Rights Reserved.
# Jean-Paul Smets-Solanes <jp@nexedi.com>
# Łukasz Nowak <luke@nexedi.com>
#
# WARNING: This program as such is intended to be used by professional
# programmers who take the whole responsability of assessing all potential
# 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
# garantees and support are strongly adviced to contract a Free Software
# guarantees and support are strongly advised to contract a Free Software
# Service Company
#
# This program is Free Software; you can redistribute it and/or
......@@ -29,10 +31,10 @@
import zope.interface
from AccessControl import ClassSecurityInfo
from Products.CMFCore.utils import getToolByName
from Products.ERP5Type import Permissions, PropertySheet, Constraint, interfaces
from Products.ERP5Type import Permissions, PropertySheet, interfaces
from Products.ERP5Type.XMLObject import XMLObject
from Products.ERP5.Document.Predicate import Predicate
from Acquisition import aq_base, aq_parent, aq_inner, aq_acquire
from Acquisition import aq_base
from zLOG import LOG, WARNING
class Rule(Predicate, XMLObject):
......@@ -120,6 +122,10 @@ class Rule(Predicate, XMLObject):
activate_kw=activate_kw)
return context.get(id)
def _isBPM(self):
"""Checks if rule is used in BPM"""
return bool(self.getTradePhaseList())
# Simulation workflow
def test(self, *args, **kw):
"""
......@@ -129,6 +135,29 @@ class Rule(Predicate, XMLObject):
return False
return Predicate.test(self, *args, **kw)
def _expandBPM(self, applied_rule, force=0, **kw):
"""Generic expand with helpers.
Do NOT overload, use helpers."""
add_list, modify_dict, \
delete_list = self._getCompensatedMovementList(applied_rule, **kw)
# delete not needed movements
for movement_id in delete_list:
applied_rule._delObject(movement_id)
# update existing
for movement, property_dict in modify_dict.items():
applied_rule[movement].edit(**property_dict)
# add new ones
for movement_dict in add_list:
movement_id = applied_rule._get_id(movement_dict.pop('id', None))
new_movement = applied_rule.newContent(id=movement_id,
portal_type=self.movement_type, **movement_dict)
for o in applied_rule.objectValues():
o.expand(**kw)
security.declareProtected(Permissions.ModifyPortalContent, 'expand')
def expand(self, applied_rule, **kw):
"""
......@@ -137,6 +166,8 @@ class Rule(Predicate, XMLObject):
An applied rule can be expanded only if its parent movement
is expanded.
"""
if self._isBPM():
return self._expandBPM(applied_rule, **kw)
for o in applied_rule.objectValues():
o.expand(**kw)
......@@ -221,7 +252,35 @@ class Rule(Predicate, XMLObject):
return 0
return 1
#### Helpers
#### Helpers to overload
def _getExpandablePropertyUpdateDict(self, applied_rule, movement,
business_path, current_property_dict):
"""Rule specific dictionary used to update _getExpandablePropertyDict
This method might be overloaded.
"""
return {}
def _getInputMovementList(self, applied_rule):
"""Return list of movements for applied rule.
This method might be overloaded"""
return [applied_rule.getParentValue()]
def _generatePrevisionList(self, applied_rule, **kw):
"""
Generate a list of dictionaries, that contain calculated content of
current Simulation Movements in applied rule.
based on its context (parent movement, delivery, configuration ...)
These previsions are returned as dictionaries.
"""
prevision_dict_list = []
for input_movement, business_path in self \
._getInputMovementAndPathTupleList(applied_rule):
prevision_dict_list.append(self._getExpandablePropertyDict(applied_rule,
input_movement, business_path))
return prevision_dict_list
#### Helpers NOT to overload
def _getCurrentMovementList(self, applied_rule, **kw):
"""
Returns the list of current children of the applied rule, sorted in 3
......@@ -258,6 +317,121 @@ class Rule(Predicate, XMLObject):
return (immutable_movement_list, mutable_movement_list,
deletable_movement_list)
def _getInputMovementAndPathTupleList(self, applied_rule):
"""Returns list of tuples (movement, business_path)"""
input_movement_list = self._getInputMovementList(applied_rule)
business_process = applied_rule.getBusinessProcessValue()
input_movement_and_path_list = []
business_path_list = []
for input_movement in input_movement_list:
for business_path in business_process.getPathValueList(
self.getTradePhaseList(),
input_movement):
input_movement_and_path_list.append((input_movement, business_path))
business_path not in business_path_list and business_path_list \
.append(business_path)
if len(business_path_list) > 1:
raise NotImplementedError
return input_movement_and_path_list
def _getCompensatedMovementListBPM(self, applied_rule, **kw):
"""Compute the difference between prevision and existing movements
Immutable movements need compensation, mutable ones needs to be modified
"""
add_list = [] # list of movements to be added
modify_dict = {} # dict of movements to be modified
delete_list = [] # list of movements to be deleted
prevision_list = self._generatePrevisionList(applied_rule, **kw)
immutable_movement_list, mutable_movement_list, \
deletable_movement_list = self._getCurrentMovementList(applied_rule,
**kw)
movement_list = immutable_movement_list + mutable_movement_list \
+ deletable_movement_list
non_matched_list = movement_list[:] # list of remaining movements
for prevision in prevision_list:
p_matched_list = []
for movement in non_matched_list:
for prop in self.getMatchingPropertyList():
if prevision.get(prop) != movement.getProperty(prop):
break
else:
p_matched_list.append(movement)
# Movements exist, we'll try to make them match the prevision
if p_matched_list != []:
# Check the quantity
m_quantity = 0.0
for movement in p_matched_list:
m_quantity += movement.getQuantity()#getCorrectedQuantity()
if m_quantity != prevision.get('quantity'):
# special case - quantity
if movement.isPropertyForced('quantity'):
# TODO: support compensation if not prevent_compensation
LOG('%s:%s' % (self.getRelativeUrl(), movement.getRelativeUrl()), WARNING,
'Quantity forced to stay as %s, even if wanted %s' % (m_quantity, prevision.get('quantity')))
# DivergenceDecision mangle
pass
else:
q_diff = prevision.get('quantity') - m_quantity
# try to find a movement that can be edited
for movement in p_matched_list:
if movement in (mutable_movement_list \
+ deletable_movement_list):
# mark as requiring modification
prop_dict = modify_dict.setdefault(movement.getId(), {})
#prop_dict['quantity'] = movement.getCorrectedQuantity() + \
prop_dict['quantity'] = movement.getQuantity() + \
q_diff
break
else:
# no modifiable movement was found, need to compensate by quantity
raise NotImplementedError('Need to generate quantity compensation')
for movement in p_matched_list:
if movement in (mutable_movement_list \
+ deletable_movement_list):
prop_dict = modify_dict.setdefault(movement.getId(), {})
for k, v in prevision.items():
if k not in ('quantity',) and v != movement.getProperty(k):
# TODO: acceptance range
if movement.isPropertyForced(k):
# support compensation if not prevent_compensation
LOG('%s:%s' % (self.getRelativeUrl(), movement.getRelativeUrl()), WARNING,
'Property %s forced to stay as %r, even if wanted %r' % (k, movement.getProperty(k), v))
# DivergenceDecision mangle
continue
prop_dict.setdefault(k, v)
# update movement lists
for movement in p_matched_list:
non_matched_list.remove(movement)
# No movement matched, we need to create one
else:
add_list.append(prevision)
# delete non matched movements
for movement in non_matched_list:
if movement in deletable_movement_list:
# delete movement
delete_list.append(movement.getId())
elif movement in mutable_movement_list:
# set movement quantity to 0 to make it "void"
prop_dict = modify_dict.setdefault(movement.getId(), {})
prop_dict['quantity'] = 0.0
else:
# movement not modifiable, we can decide to create a compensation
# with negative quantity
raise NotImplementedError("Tried to delete immutable movement %s" % \
movement.getRelativeUrl())
return (add_list, modify_dict, delete_list)
def _getCompensatedMovementList(self, applied_rule,
matching_property_list=(
'resource',
......@@ -271,6 +445,9 @@ class Rule(Predicate, XMLObject):
XXX For now, this implementation is too simple. It could be improved by
using MovementGroups
"""
if self._isBPM():
return self._getCompensatedMovementListBPM(applied_rule,
matching_property_list=matching_property_list, **kw)
add_list = [] # list of movements to be added
modify_dict = {} # dict of movements to be modified
delete_list = [] # list of movements to be deleted
......@@ -358,3 +535,55 @@ class Rule(Predicate, XMLObject):
"Can not create a compensation movement for %s" % \
movement.getRelativeUrl())
return (add_list, modify_dict, delete_list)
def _getExpandablePropertyDict(self, applied_rule, movement, business_path,
**kw):
"""
Return a Dictionary with the Properties used to edit the simulation
Do NOT overload this method, use _getExpandablePropertyUpdateDict instead
"""
property_dict = {}
default_property_list = self.getExpandablePropertyList()
for prop in default_property_list:
property_dict[prop] = movement.getProperty(prop)
# Arrow
for base_category in \
business_path.getSourceBaseCategoryList() +\
business_path.getDestinationBaseCategoryList():
# XXX: we need to use _list for categories *always*
category_url = business_path.getDefaultAcquiredCategoryMembership(
base_category, context=movement)
if category_url not in ['', None]:
property_dict['%s_list' % base_category] = [category_url]
else:
property_dict['%s_list' % base_category] = []
# Amount
if business_path.getQuantity():
property_dict['quantity'] = business_path.getQuantity()
elif business_path.getEfficiency():
property_dict['quantity'] = movement.getQuantity() *\
business_path.getEfficiency()
else:
property_dict['quantity'] = movement.getQuantity()
if movement.getStartDate() == movement.getStopDate():
property_dict['start_date'] = business_path.getExpectedStartDate(
movement)
property_dict['stop_date'] = business_path.getExpectedStopDate(movement)
else: # XXX shall not be used, but business_path.getExpectedStart/StopDate
# do not works on second path...
property_dict['start_date'] = movement.getStartDate()
property_dict['stop_date'] = movement.getStopDate()
# rule specific
property_dict.update(**self._getExpandablePropertyUpdateDict(applied_rule,
movement, business_path, property_dict))
# save a relation to business path
property_dict['causality_list'] = [business_path.getRelativeUrl()]
return property_dict
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