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Commit c287c894 authored by Sebastien Robin's avatar Sebastien Robin
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product/ERP5Banking/tests/testERP5BankingCounterRendering.py 0 → 100644
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##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Contributors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingCounterRendering(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Counter Rendering
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a counter rendering
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingCounterRendering"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_counter_rendering-0.1.bt5' # erp5_banking_cash contains all method for counter rendering
)
def getCounterRenderingModule(self):
"""
Return the Cash Transer Module
"""
return getattr(self.getPortal(), 'counter_rendering_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the cahs transfer module
self.counter_rendering_module = self.getCounterRenderingModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.piece_200,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_200}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
self.usual_cash = self.paris.surface.caisse_courante.encaisse_des_billets_et_monnaies
self.counter = self.paris.surface.banque_interne.guichet_1.encaisse_des_billets_et_monnaies
self.createCashInventory(source=None, destination=self.counter, currency=self.currency_1,
line_list=line_list)
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that CounterRendering Module was created
self.assertEqual(self.counter_rendering_module.getPortalType(), 'Counter Rendering Module')
# check counter rendering module is empty
self.assertEqual(len(self.counter_rendering_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (usual_cash) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestination(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (counter) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCreateCounterRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Create a counter rendering document and check it
"""
# Counter rendering has usual_cash for source, counter for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
self.counter_rendering = self.counter_rendering_module.newContent(id='counter_rendering_1', portal_type='Counter Rendering', source_value=self.counter, source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one counter rendering
self.assertEqual(len(self.counter_rendering_module.objectValues()), 1)
# get the counter rendering document
self.counter_rendering = getattr(self.counter_rendering_module, 'counter_rendering_1')
# check its portal type
self.assertEqual(self.counter_rendering.getPortalType(), 'Counter Rendering')
# check that its source is usual_cash
self.assertEqual(self.counter_rendering.getSource(), 'site/testsite/paris/surface/banque_interne/guichet_1/encaisse_des_billets_et_monnaies')
# check that its destination is counter
#self.assertEqual(self.counter_rendering.getDestination(), 'site/testsite/paris/surface/caisse_courante/encaisse_des_billets_et_monnaies')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the counter rendering line 1 with banknotes of 10000 and check it has been well created
"""
# create the counter rendering line
self.addCashLineToDelivery(self.counter_rendering, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.counter_rendering.objectValues()), 1)
# get the counter rendering line
self.valid_line_1 = getattr(self.counter_rendering, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/valid')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is usual_cash
self.assertEqual(cell.getSourceValue(), self.counter)
# check the destination vault is counter
#self.assertEqual(cell.getDestinationValue(), self.usual_cash)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of counter rendering line 1
"""
# Check number of lines
self.assertEqual(len(self.counter_rendering.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.counter_rendering.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.counter_rendering.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the counter rendering line 2 wiht coins of 200 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.counter_rendering, 'valid_line_2', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.counter_rendering.objectValues()), 2)
# get the second counter rendering line
self.valid_line_2 = getattr(self.counter_rendering, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is coin of 200
self.assertEqual(self.valid_line_2.getResourceValue(), self.piece_200)
# check the value of coin
self.assertEqual(self.valid_line_2.getPrice(), 200.0)
# check the unit of coin
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/valid')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for coin for year 1992 is 5
self.assertEqual(cell.getQuantity(), 5.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for coin for year 2003 is 7
self.assertEqual(cell.getQuantity(), 7.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid counter rendering line and
check the total with the invalid counter rendering line
"""
# create a line in which quanity of banknotes of 5000 is higher that quantity available at source
# here create a line with 24 (11+13) banknotes of 500 although the vault usual_cash has no banknote of 5000
self.addCashLineToDelivery(self.counter_rendering, 'invalid_line', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# Check number of counter rendering lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.counter_rendering.objectValues()), 3)
# Check quantity, same as checkTotal + banknote of 500: 11 for 1992 and 13 for 2003
self.assertEqual(self.counter_rendering.getTotalQuantity(), 5.0 + 12.0 + 24)
# chect the total price
self.assertEqual(self.counter_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0 + 5000 * 24)
def stepTryConfirmCounterRenderingWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the counter rendering with a bad counter rendering line and
check the try of confirm the counter rendering with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.counter_rendering.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.counter_rendering, 'confirm_action', wf_id='counter_rendering_workflow')
# execute tic
self.stepTic()
# get state of the counter rendering
state = self.counter_rendering.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.counter_rendering, name='history', wf_id='counter_rendering_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid counter rendering line previously create
"""
self.counter_rendering.deleteContent('invalid_line')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two counter rendering lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.counter_rendering.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, coin : 5 for 1992 and 7 for 2003
self.assertEqual(self.counter_rendering.getTotalQuantity(), 5.0 + 12.0)
# check the total price
self.assertEqual(self.counter_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0)
def stepConfirmCounterRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the counter rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.counter_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.counter_rendering, 'confirm_action', wf_id='counter_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.counter_rendering.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.counter_rendering, name='history', wf_id='counter_rendering_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault usual_cash is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCreditPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault counter is right after confirm and before deliver
"""
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepDeliverCounterRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the counter rendering with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.counter_rendering, 'deliver_action', wf_id='counter_rendering_workflow')
# execute tic
self.stepTic()
# get state of counter rendering
state = self.counter_rendering.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.counter_rendering, name='history', wf_id='counter_rendering_workflow')
# check len of len workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault usual_cash) after deliver of the counter rendering
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCredit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault counter) after deliver of the counter rendering
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
##################################
## Tests
##################################
def test_01_ERP5BankingCounterRendering(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource CheckDestination ' \
+ 'CreateCounterRendering ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource CheckDestination ' \
+ 'CreateInvalidLine ' \
+ 'TryConfirmCounterRenderingWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'ConfirmCounterRendering ' \
+ 'Tic CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'DeliverCounterRendering ' \
+ 'CheckSourceDebit CheckDestinationCredit '
sequence_list.addSequenceString(sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingCounterRendering))
return suite
product/ERP5Banking/tests/testERP5BankingMonetaryDestruction.py 0 → 100644
View file @ c287c894
##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Contributors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingMonetaryDestruction(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Monetary Destruction
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a monetary destruction
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingMonetaryDestruction"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_monetary_destruction' # erp5_banking_monetary_destruction contains all method for monetary destruction
)
def getMonetaryDestructionModule(self):
"""
Return the Monetary Destruction Module
"""
return getattr(self.getPortal(), 'monetary_destruction_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the monetary destruction module
self.monetary_destruction_module = self.getMonetaryDestructionModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.billet_5000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_5000}
inventory_dict_line_for_externe_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/s', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_for_externe_2 = {'id' : 'inventory_line_2',
'resource': self.billet_5000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/s', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_5000}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
line_list_for_externe = [inventory_dict_line_for_externe_1, inventory_dict_line_for_externe_2]
self.source = self.paris.caveau.serre.encaisse_des_billets_retires_de_la_circulation
self.source_for_externe = self.paris.caveau.externes.encaisse_des_externes
###self.destinat = self.paris.caveau.serre.encaisse_des_billets_detruits
self.createCashInventory(source=None, destination=self.source, currency=self.currency_1,
line_list=line_list)
self.createCashInventory(source=None, destination=self.source_for_externe, currency=self.currency_1,
line_list=line_list_for_externe)
# now we need to create a user as Manager to do the test
# in order to have an assigment defined which is used to do transition
# Create an Organisation that will be used for users assignment
self.checkUserFolderType()
self.organisation = self.organisation_module.newContent(id='baobab_org', portal_type='Organisation',
function='banking', group='baobab', site='testsite/paris')
self.organisation_externe = self.organisation_module.newContent(id='baobab_org_externe', portal_type='Organisation',
function='banking', group='baobab', site='testsite/madrid')
# define the user
user_dict = {
'super_user' : [['Manager'], self.organisation, 'banking/comptable', 'baobab', 'testsite/paris']
}
# call method to create this user
self.createERP5Users(user_dict)
self.logout()
self.login('super_user')
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that Monetary Destruction Module was created
self.assertEqual(self.monetary_destruction_module.getPortalType(), 'Monetary Destruction Module')
# check monetary destruction module is empty
self.assertEqual(len(self.monetary_destruction_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in source
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 24 banknotes of 5000 in source
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
def stepCheckInitialInventoryForExterne(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in source
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 24 banknotes of 5000 in source
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (source) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 24 banknotes of 5000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
def stepCheckSourceForExterne(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (source) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 24 banknotes of 5000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
def stepCreateMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Create a monetary destruction document and check it
"""
#print self.portal.portal_categories.objectIds()
# Monetary Destruction has source(serre) for source, destinat (serre) for destination, and a price coresponding to the sum of banknote of 10000 and of 5000 ( (2*3) * 10000 + (5*7) * 5000 )
self.monetary_destruction = self.monetary_destruction_module.newContent(id='monetary_destruction_1', portal_type='Monetary Destruction', source_value=self.source, destination_value=None, source_total_asset_price=110000.0)
# execute tic
self.stepTic()
# check we have only one monetary destruction
self.assertEqual(len(self.monetary_destruction_module.objectValues()), 1)
# get the monetary destruction document
self.monetary_destruction = getattr(self.monetary_destruction_module, 'monetary_destruction_1')
# check its portal type
self.assertEqual(self.monetary_destruction.getPortalType(), 'Monetary Destruction')
# check that its source is source
self.assertEqual(self.monetary_destruction.getSource(), 'site/testsite/paris/caveau/serre/encaisse_des_billets_retires_de_la_circulation')
# check that its destination is destinat
##self.assertEqual(self.monetary_destruction.getDestination(), 'site/testsite/paris/caveau/serre/encaisse_des_billets_detruits')
def stepCreateMonetaryDestructionForExterne(self, sequence=None, sequence_list=None, **kwd):
"""
Create a monetary destruction document and check it
"""
# Monetary Destruction has source(serre) for source, destinat (serre) for destination, and a price coresponding to the sum of banknote of 10000 and of 5000 ( (2*3) * 10000 + (5*7) * 5000 )
self.monetary_destruction = self.monetary_destruction_module.newContent(id='monetary_destruction_1', portal_type='Monetary Destruction', source_value=self.source_for_externe, destination_value=None, source_total_asset_price=110000.0)
# execute tic
self.stepTic()
# check we have only one monetary destruction
self.assertEqual(len(self.monetary_destruction_module.objectValues()), 1)
# get the monetary destruction document
self.monetary_destruction = getattr(self.monetary_destruction_module, 'monetary_destruction_1')
# check its portal type
self.assertEqual(self.monetary_destruction.getPortalType(), 'Monetary Destruction')
# check that its source is source
self.assertEqual(self.monetary_destruction.getSource(), 'site/testsite/paris/caveau/externes/encaisse_des_externes')
# check that its destination is destinat
##self.assertEqual(self.monetary_destruction.getDestination(), 'site/testsite/paris/caveau/serre/encaisse_des_billets_detruits')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary destruction line 1 with banknotes of 10000 and check it has been well created
"""
# create the monetary destruction line
self.addCashLineToDelivery(self.monetary_destruction, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.monetary_destruction.objectValues()), 1)
# get the monetary destruction line
self.valid_line_1 = getattr(self.monetary_destruction, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/cancelled')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is source
self.assertEqual(cell.getSourceValue(), self.source)
# check the destination vault is counter
#self.assertEqual(cell.getDestinationValue(), self.destinat)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateValidLineForExterne1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary destruction line 1 with banknotes of 10000 and check it has been well created
"""
# create the monetary destruction line
self.addCashLineToDelivery(self.monetary_destruction, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/s', 'cash_status/cancelled') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.monetary_destruction.objectValues()), 1)
# get the monetary destruction line
self.valid_line_1 = getattr(self.monetary_destruction, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/s', variation, 'cash_status/cancelled')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is source
self.assertEqual(cell.getSourceValue(), self.source_for_externe)
# check the destination vault is counter
#self.assertEqual(cell.getDestinationValue(), self.destinat)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of monetary destruction line 1
"""
# Check number of lines
self.assertEqual(len(self.monetary_destruction.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.monetary_destruction.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.monetary_destruction.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary destruction line 2 wiht banknotes of 5000 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.monetary_destruction, 'valid_line_2', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.monetary_destruction.objectValues()), 2)
# get the second monetary destruction line
self.valid_line_2 = getattr(self.monetary_destruction, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 5000
self.assertEqual(self.valid_line_2.getResourceValue(), self.billet_5000)
# check the value of banknote
self.assertEqual(self.valid_line_2.getPrice(), 5000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/cancelled')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for banknote for year 1992 is 5
self.assertEqual(cell.getQuantity(), 11.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for banknote for year 2003 is 7
self.assertEqual(cell.getQuantity(), 13.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateValidLineForExterne2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary destruction line 2 wiht banknotes of 5000 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.monetary_destruction, 'valid_line_2', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/s', 'cash_status/cancelled') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.monetary_destruction.objectValues()), 2)
# get the second monetary destruction line
self.valid_line_2 = getattr(self.monetary_destruction, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 5000
self.assertEqual(self.valid_line_2.getResourceValue(), self.billet_5000)
# check the value of banknote
self.assertEqual(self.valid_line_2.getPrice(), 5000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/s', variation, 'cash_status/cancelled')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for banknote for year 1992 is 5
self.assertEqual(cell.getQuantity(), 11.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for banknote for year 2003 is 7
self.assertEqual(cell.getQuantity(), 13.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid monetary destruction line and
check the total with the invalid monetary destruction line
"""
# create a line in which quanity of coin of 200 is higher that quantity available at source
# here create a line with 12 (5+7) coin of 200 although the vault source has no coin of 200
self.addCashLineToDelivery(self.monetary_destruction, 'invalid_line', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# Check number of monetary destruction lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.monetary_destruction.objectValues()), 3)
# Check quantity, same as checkTotal + coin of 200: 5 for 1992 and 7 for 2003
self.assertEqual(self.monetary_destruction.getTotalQuantity(), 5.0 + 24.0 + 12)
# chect the total price
self.assertEqual(self.monetary_destruction.getTotalPrice(), 10000 * 5.0 + 5000 * 24.0 + 200 * 12)
def stepTryPlannedMonetaryDestructionWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the monetary destruction with a bad monetary destruction line and
check the try of confirm the monetary destruction with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 5000 * 24.0 + 200 * 12)
self.monetary_destruction.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.monetary_destruction, 'plan_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state of the monetary destruction
state = self.monetary_destruction.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid monetary destruction line previously create
"""
self.monetary_destruction.deleteContent('invalid_line')
def stepDelMonetrayDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid monetary_destruction line previously create
"""
self.monetary_destruction.deleteContent('monetary_destruction_1')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two monetary destruction lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.monetary_destruction.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, banknotes : 5 for 1992 and 7 for 2003
self.assertEqual(self.monetary_destruction.getTotalQuantity(), 5.0 + 24.0)
# check the total price
self.assertEqual(self.monetary_destruction.getTotalPrice(), 10000 * 5.0 + 5000 * 24.0)
def stepPlannedMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the monetary destruction and check it
"""
# fix amount (10000 * 5.0 + 5000 * 24.0)
self.monetary_destruction.setSourceTotalAssetPrice('170000.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.monetary_destruction, 'plan_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state
state = self.monetary_destruction.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'planned')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault source is right after confirm and before deliver
"""
print self.monetary_destruction.getBaobabDestination()
print self.monetary_destruction.getBaobabDestinationUid()
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 24 banknotes of 5000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
# check we will have 0 banknote of 5000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
def stepCheckSourceDebitPlannedForExterne(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault source is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 24 banknotes of 5000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 24.0)
# check we will have 0 banknote of 5000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
def stepValidateMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Validate the monetary destruction with a good user
and check that the validation of a monetary destruction have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.monetary_destruction, 'plan_to_deliver_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state of monetary destruction
state = self.monetary_destruction.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of len workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault source) after validation of the monetary destruction
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 banknote of 5000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
def stepCheckSourceDebitForExterne(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault source) after validation of the monetary destruction
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 banknote of 5000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.source_for_externe.getRelativeUrl(), resource = self.billet_5000.getRelativeUrl()), 0.0)
def stepPlanMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the monetary_destruction and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.monetary_destruction.setSourceTotalAssetPrice('170000.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.monetary_destruction, 'plan_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state
state = self.monetary_destruction.getSimulationState()
# check state is planned
self.assertEqual(state, 'planned')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepOrderMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the monetary_destruction and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.monetary_destruction.setSourceTotalAssetPrice('170000.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.monetary_destruction, 'order_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state
state = self.monetary_destruction.getSimulationState()
# check state is ordered
self.assertEqual(state, 'ordered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 6)
def stepConfirmMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the monetary_destruction and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.monetary_destruction.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
import pdb;pdb.set_trace()
self.workflow_tool.doActionFor(self.monetary_destruction, 'confirm_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state
state = self.monetary_destruction.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of workflow history is 8
self.assertEqual(len(workflow_history), 8)
def stepConfirmToDeliverMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the monetary_destruction with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.monetary_destruction, 'deliver_action', wf_id='monetary_destruction_workflow')
# execute tic
self.stepTic()
# get state of monetary_destruction
state = self.monetary_destruction.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_destruction, name='history', wf_id='monetary_destruction_workflow')
# check len of len workflow history is 10
self.assertEqual(len(workflow_history), 10)
def stepDelMonetaryDestruction(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid vault_transfer line previously create
"""
self.monetary_destruction_module.deleteContent('monetary_destruction_1')
##################################
## Tests
##################################
def test_01_ERP5BankingMonetaryDestruction(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource ' \
+ 'CreateMonetaryDestruction ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource ' \
+ 'CreateInvalidLine ' \
+ 'TryPlannedMonetaryDestructionWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'PlannedMonetaryDestruction ' \
+ 'CheckSourceDebitPlanned ' \
+ 'ValidateMonetaryDestruction ' \
+ 'CheckSourceDebit '
sequence_list.addSequenceString(sequence_string)
# define the sequence
another_sequence_string = 'Tic DelMonetaryDestruction Tic CheckObjects Tic CheckInitialInventoryForExterne CheckSourceForExterne ' \
+ 'CreateMonetaryDestructionForExterne ' \
+ 'CreateValidLineForExterne1 CheckSubTotal ' \
+ 'CreateValidLineForExterne2 CheckTotal ' \
+ 'CheckSourceForExterne ' \
+ 'CreateInvalidLine ' \
+ 'TryPlannedMonetaryDestructionWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'PlanMonetaryDestruction ' \
+ 'CheckSourceDebitPlannedForExterne ' \
+ 'OrderMonetaryDestruction ' \
+ 'ConfirmMonetaryDestruction ' \
+ 'ConfirmToDeliverMonetaryDestruction ' \
+ 'CheckSourceDebitForExterne '
sequence_list.addSequenceString(another_sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingMonetaryDestruction))
return suite
product/ERP5Banking/tests/testERP5BankingMonetaryRecall.py 0 → 100755
View file @ c287c894
##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Contributors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingMonetaryRecall(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Monetary Recall
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a monetary recall
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingMonetaryRecall"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_monetary_recall'
#, 'erp5_banking_monetary_recall-0.1.bt5' # erp5_banking_cash contains all method for monetary recall
)
def getMonetaryRecallModule(self):
"""
Return the Monetary Recall Module
"""
return getattr(self.getPortal(), 'monetary_recall_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the cahs transfer module
self.monetary_recall_module = self.getMonetaryRecallModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.piece_200,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
'quantity': self.quantity_200}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
self.cash = self.paris.caveau.auxiliaire.encaisse_des_billets_et_monnaies
###Comment this part because the destination is automatic
#print self.paris.caveau.objectIds()
self.counter = self.paris.caveau.serre.encaisse_des_billets_retires_de_la_circulation
self.createCashInventory(source=None, destination=self.cash, currency=self.currency_1,
line_list=line_list)
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that MonetaryRecall Module was created
self.assertEqual(self.monetary_recall_module.getPortalType(), 'Monetary Recall Module')
# check monetary recall module is empty
self.assertEqual(len(self.monetary_recall_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (cash) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestination(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (counter) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCreateMonetaryRecall(self, sequence=None, sequence_list=None, **kwd):
"""
Create a monetary recall document and check it
"""
# Cash transfer has cash for source, counter for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
#self.monetary_recall = self.monetary_recall_module.newContent(id='monetary_recall_1', portal_type='Monetary Recall', source_value=self.cash, #destination_value=self.counter, source_total_asset_price=52400.0)
self.monetary_recall = self.monetary_recall_module.newContent(id='monetary_recall_1', portal_type='Monetary Recall', source_value=self.cash, source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one monetary recall
self.assertEqual(len(self.monetary_recall_module.objectValues()), 1)
# get the monetary recall document
self.monetary_recall = getattr(self.monetary_recall_module, 'monetary_recall_1')
# check its portal type
self.assertEqual(self.monetary_recall.getPortalType(), 'Monetary Recall')
# check that its source is cash
self.assertEqual(self.monetary_recall.getSource(), 'site/testsite/paris/caveau/auxiliaire/encaisse_des_billets_et_monnaies')
# check that its destination is counter
##self.assertEqual(self.monetary_recall.getDestination(),
##'site/testsite/paris/caveau/serre/encaisse_des_billets_retires_de_la_circulation')
#'site/testsite/paris/surface/banque_interne/guichet_1')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary recall line 1 with banknotes of 10000 and check it has been well created
"""
# create the monetary recall line
self.addCashLineToDelivery(self.monetary_recall, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.monetary_recall.objectValues()), 1)
# get the monetary recall line
self.valid_line_1 = getattr(self.monetary_recall, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/cancelled')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is cash
self.assertEqual(cell.getSourceValue(), self.cash)
# check the destination vault is counter
##self.assertEqual(cell.getDestinationValue(), self.counter)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of monetary recall line 1
"""
# Check number of lines
self.assertEqual(len(self.monetary_recall.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.monetary_recall.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.monetary_recall.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the monetary recall line 2 wiht coins of 200 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.monetary_recall, 'valid_line_2', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.monetary_recall.objectValues()), 2)
# get the second monetary recall line
self.valid_line_2 = getattr(self.monetary_recall, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is coin of 200
self.assertEqual(self.valid_line_2.getResourceValue(), self.piece_200)
# check the value of coin
self.assertEqual(self.valid_line_2.getPrice(), 200.0)
# check the unit of coin
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/cancelled')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for coin for year 1992 is 5
self.assertEqual(cell.getQuantity(), 5.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for coin for year 2003 is 7
self.assertEqual(cell.getQuantity(), 7.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid monetary recall line and
check the total with the invalid monetary recall line
"""
# create a line in which quanity of banknotes of 5000 is higher that quantity available at source
# here create a line with 24 (11+13) banknotes of 500 although the vault cash has no banknote of 5000
self.addCashLineToDelivery(self.monetary_recall, 'invalid_line', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/cancelled') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# Check number of monetary recall lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.monetary_recall.objectValues()), 3)
# Check quantity, same as checkTotal + banknote of 500: 11 for 1992 and 13 for 2003
self.assertEqual(self.monetary_recall.getTotalQuantity(), 5.0 + 12.0 + 24)
# chect the total price
self.assertEqual(self.monetary_recall.getTotalPrice(), 10000 * 5.0 + 200 * 12.0 + 5000 * 24)
def stepTryConfirmMonetaryRecallWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the monetary recall with a bad monetary recall line and
check the try of confirm the monetary recall with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.monetary_recall.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.monetary_recall, 'confirm_action', wf_id='monetary_recall_workflow')
# execute tic
self.stepTic()
# get state of the monetary recall
state = self.monetary_recall.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_recall, name='history', wf_id='monetary_recall_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid monetary recall line previously create
"""
self.monetary_recall.deleteContent('invalid_line')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two monetary recall lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.monetary_recall.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, coin : 5 for 1992 and 7 for 2003
self.assertEqual(self.monetary_recall.getTotalQuantity(), 5.0 + 12.0)
# check the total price
self.assertEqual(self.monetary_recall.getTotalPrice(), 10000 * 5.0 + 200 * 12.0)
def stepConfirmMonetaryRecall(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the monetary recall and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.monetary_recall.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.monetary_recall, 'confirm_action', wf_id='monetary_recall_workflow')
# execute tic
self.stepTic()
# get state
state = self.monetary_recall.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_recall, name='history', wf_id='monetary_recall_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault cash is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCreditPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault counter is right after confirm and before deliver
"""
#print self.monetary_recall.getBaobabDestination()
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepDeliverMonetaryRecall(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the monetary recall with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.monetary_recall, 'deliver_action', wf_id='monetary_recall_workflow')
# execute tic
self.stepTic()
# get state of monetary recall
state = self.monetary_recall.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.monetary_recall, name='history', wf_id='monetary_recall_workflow')
# check len of len workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault cash) after deliver of the monetary recall
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCredit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault counter) after deliver of the monetary recall
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.counter.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
##################################
## Tests
##################################
def test_01_ERP5BankingMonetaryRecall(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource CheckDestination ' \
+ 'CreateMonetaryRecall ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource CheckDestination ' \
+ 'CreateInvalidLine ' \
+ 'TryConfirmMonetaryRecallWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'ConfirmMonetaryRecall ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'DeliverMonetaryRecall ' \
+ 'CheckSourceDebit CheckDestinationCredit '
sequence_list.addSequenceString(sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingMonetaryRecall))
return suite
product/ERP5Banking/tests/testERP5BankingMoneyDepositRendering.py 0 → 100644
View file @ c287c894
##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Contributors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
from zLOG import LOG
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingMoneyDepositRendering(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Money Deposit Rendering
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a money deposit rendering
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingMoneyDepositRendering"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_money_deposit_rendering-0.1.bt5' # erp5_banking_cash contains all method for money deposit rendering
)
def getMoneyDepositRenderingModule(self):
"""
Return the Cash Transer Module
"""
return getattr(self.getPortal(), 'money_deposit_rendering_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the cahs transfer module
self.money_deposit_rendering_module = self.getMoneyDepositRenderingModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.piece_200,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_200}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
self.gros_versement = self.paris.surface.gros_versement.guichet_1.encaisse_des_billets_et_monnaies
self.auxiliaire = self.paris.caveau.auxiliaire.encaisse_des_billets_et_monnaies
self.createCashInventory(source=None, destination=self.gros_versement, currency=self.currency_1,
line_list=line_list)
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that MoneyDepositRendering Module was created
self.assertEqual(self.money_deposit_rendering_module.getPortalType(), 'Money Deposit Rendering Module')
# check money deposit rendering module is empty
self.assertEqual(len(self.money_deposit_rendering_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in auxiliaire
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in auxiliaire
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (auxiliaire) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestination(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (gros_versement) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCreateMoneyDepositRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Create a money deposit rendering document and check it
"""
# Money deposit rendering has auxiliaire for source, gros_versement for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
LOG('money_deposit_rendering_module.showDict()',0,self.money_deposit_rendering_module.showDict())
self.money_deposit_rendering = self.money_deposit_rendering_module.newContent(id='money_deposit_rendering_1', portal_type='Money Deposit Rendering', source_value=self.gros_versement, source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one money deposit rendering
self.assertEqual(len(self.money_deposit_rendering_module.objectValues()), 1)
# get the money deposit rendering document
self.money_deposit_rendering = getattr(self.money_deposit_rendering_module, 'money_deposit_rendering_1')
# check its portal type
self.assertEqual(self.money_deposit_rendering.getPortalType(), 'Money Deposit Rendering')
# check that its source is auxiliaire
self.assertEqual(self.money_deposit_rendering.getSource(), 'site/testsite/paris/surface/gros_versement/guichet_1/encaisse_des_billets_et_monnaies')
# check that its destination is gros_versement
#self.assertEqual(self.money_deposit_rendering.getDestination(), 'site/testsite/paris/surface/caisse_courante/encaisse_des_billets_et_monnaies')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the money deposit rendering line 1 with banknotes of 10000 and check it has been well created
"""
# create the money deposit rendering line
self.addCashLineToDelivery(self.money_deposit_rendering, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.money_deposit_rendering.objectValues()), 1)
# get the money deposit rendering line
self.valid_line_1 = getattr(self.money_deposit_rendering, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/valid')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is auxiliaire
self.assertEqual(cell.getSourceValue(), self.gros_versement)
# check the destination vault is gros_versement
#self.assertEqual(cell.getDestinationValue(), self.auxiliaire)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of money deposit rendering line 1
"""
# Check number of lines
self.assertEqual(len(self.money_deposit_rendering.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.money_deposit_rendering.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.money_deposit_rendering.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the money deposit rendering line 2 wiht coins of 200 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.money_deposit_rendering, 'valid_line_2', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.money_deposit_rendering.objectValues()), 2)
# get the second money deposit rendering line
self.valid_line_2 = getattr(self.money_deposit_rendering, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is coin of 200
self.assertEqual(self.valid_line_2.getResourceValue(), self.piece_200)
# check the value of coin
self.assertEqual(self.valid_line_2.getPrice(), 200.0)
# check the unit of coin
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/valid')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for coin for year 1992 is 5
self.assertEqual(cell.getQuantity(), 5.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for coin for year 2003 is 7
self.assertEqual(cell.getQuantity(), 7.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid money deposit rendering line and
check the total with the invalid money deposit rendering line
"""
# create a line in which quanity of banknotes of 5000 is higher that quantity available at source
# here create a line with 24 (11+13) banknotes of 500 although the vault auxiliaire has no banknote of 5000
self.addCashLineToDelivery(self.money_deposit_rendering, 'invalid_line', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# Check number of money deposit rendering lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.money_deposit_rendering.objectValues()), 3)
# Check quantity, same as checkTotal + banknote of 500: 11 for 1992 and 13 for 2003
self.assertEqual(self.money_deposit_rendering.getTotalQuantity(), 5.0 + 12.0 + 24)
# chect the total price
self.assertEqual(self.money_deposit_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0 + 5000 * 24)
def stepTryConfirmMoneyDepositRenderingWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the money deposit rendering with a bad money deposit rendering line and
check the try of confirm the money deposit rendering with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.money_deposit_rendering.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.money_deposit_rendering, 'confirm_action', wf_id='money_deposit_rendering_workflow')
# execute tic
self.stepTic()
# get state of the money deposit rendering
state = self.money_deposit_rendering.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.money_deposit_rendering, name='history', wf_id='money_deposit_rendering_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 4)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepTryOrderMoneyDepositRenderingWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the money deposit rendering with a bad money deposit rendering line and
check the try of confirm the money deposit rendering with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.money_deposit_rendering.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.money_deposit_rendering, 'order_action', wf_id='money_deposit_rendering_workflow')
# execute tic
self.stepTic()
# get state of the money deposit rendering
state = self.money_deposit_rendering.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.money_deposit_rendering, name='history', wf_id='money_deposit_rendering_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid money deposit rendering line previously create
"""
self.money_deposit_rendering.deleteContent('invalid_line')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two money deposit rendering lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.money_deposit_rendering.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, coin : 5 for 1992 and 7 for 2003
self.assertEqual(self.money_deposit_rendering.getTotalQuantity(), 5.0 + 12.0)
# check the total price
self.assertEqual(self.money_deposit_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0)
def stepConfirmMoneyDepositRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the money deposit rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.money_deposit_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.money_deposit_rendering, 'confirm_action', wf_id='money_deposit_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.money_deposit_rendering.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.money_deposit_rendering, name='history', wf_id='money_deposit_rendering_workflow')
# check len of workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepOrderMoneyDepositRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the money deposit rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.money_deposit_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.money_deposit_rendering, 'order_action', wf_id='money_deposit_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.money_deposit_rendering.getSimulationState()
# check state is ordered
self.assertEqual(state, 'ordered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.money_deposit_rendering, name='history', wf_id='money_deposit_rendering_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault auxiliaire is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCreditPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault gros_versement is right after confirm and before deliver
"""
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepDeliverMoneyDepositRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the money deposit rendering with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.money_deposit_rendering, 'deliver_action', wf_id='money_deposit_rendering_workflow')
# execute tic
self.stepTic()
# get state of money deposit rendering
state = self.money_deposit_rendering.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.money_deposit_rendering, name='history', wf_id='money_deposit_rendering_workflow')
# check len of len workflow history is 8
self.assertEqual(len(workflow_history), 8)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault auxiliaire) after deliver of the money deposit rendering
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.gros_versement.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCredit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault gros_versement) after deliver of the money deposit rendering
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
##################################
## Tests
##################################
def test_01_ERP5BankingMoneyDepositRendering(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource CheckDestination ' \
+ 'CreateMoneyDepositRendering ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource CheckDestination ' \
+ 'CreateInvalidLine ' \
+ 'TryOrderMoneyDepositRenderingWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'OrderMoneyDepositRendering ' \
+ 'Tic CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'ConfirmMoneyDepositRendering ' \
+ 'DeliverMoneyDepositRendering ' \
+ 'CheckSourceDebit CheckDestinationCredit '
sequence_list.addSequenceString(sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingMoneyDepositRendering))
return suite
product/ERP5Banking/tests/testERP5BankingUsualCashRendering.py 0 → 100644
View file @ c287c894
##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Concaisse_courantebutors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 rediscaisse_courantebute 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 discaisse_courantebuted 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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingUsualCashRendering(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Usual Cash Rendering
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a vault transfer
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "plan_action" transition
- check that the new state is planned
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "order_action" transition
- check that the new state is ordered
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingUsualCashRendering"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_usual_cash_rendering-0.1.bt5' # erp5_banking_cash contains all method for vault transfer
)
def getUsualCashRenderingModule(self):
"""
Return the Vault Transer Module
"""
return getattr(self.getPortal(), 'usual_cash_rendering_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the cahs transfer module
self.usual_cash_rendering_module = self.getUsualCashRenderingModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.piece_200,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_200}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
self.caisse_courante = self.paris.surface.caisse_courante.encaisse_des_billets_et_monnaies
self.auxiliaire = self.paris.caveau.auxiliaire.encaisse_des_billets_et_monnaies
self.createCashInventory(source=None, destination=self.caisse_courante, currency=self.currency_1,
line_list=line_list)
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that UsualCashRendering Module was created
self.assertEqual(self.usual_cash_rendering_module.getPortalType(), 'Usual Cash Rendering Module')
# check vault transfer module is empty
self.assertEqual(len(self.usual_cash_rendering_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in caisse_courante
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in caisse_courante
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (caisse_courante) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestination(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (caisse_courante) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCreateUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Create a vault transfer document and check it
"""
# Usual Cash Rendering has caisse_courante (Gros versment) for source, caisse_courante for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
self.usual_cash_rendering = self.usual_cash_rendering_module.newContent(id='usual_cash_rendering_1',
portal_type='Usual Cash Rendering', source=self.caisse_courante.getRelativeUrl(),
destination=self.auxiliaire.getRelativeUrl(), source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one vault transfer
self.assertEqual(len(self.usual_cash_rendering_module.objectValues()), 1)
# get the vault transfer document
self.usual_cash_rendering = getattr(self.usual_cash_rendering_module, 'usual_cash_rendering_1')
# check its portal type
self.assertEqual(self.usual_cash_rendering.getPortalType(), 'Usual Cash Rendering')
# check that its source is caisse_courante
self.assertEqual(self.usual_cash_rendering.getSource(), 'site/testsite/paris/surface/caisse_courante/encaisse_des_billets_et_monnaies')
# check that its destination is caisse auxiliaire
self.assertEqual(self.usual_cash_rendering.getDestination(), 'site/testsite/paris/caveau/auxiliaire/encaisse_des_billets_et_monnaies')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the vault transfer line 1 with banknotes of 10000 and check it has been well created
"""
# create the vault transfer line
self.addCashLineToDelivery(self.usual_cash_rendering, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.usual_cash_rendering.objectValues()), 1)
# get the vault transfer line
self.valid_line_1 = getattr(self.usual_cash_rendering, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/valid')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is caisse_courante
self.assertEqual(cell.getSourceValue(), self.caisse_courante)
# check the destination vault is caisse_courante
self.assertEqual(cell.getDestinationValue(), self.auxiliaire)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of vault transfer line 1
"""
# Check number of lines
self.assertEqual(len(self.usual_cash_rendering.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.usual_cash_rendering.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.usual_cash_rendering.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the vault transfer line 2 wiht coins of 200 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.usual_cash_rendering, 'valid_line_2', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.usual_cash_rendering.objectValues()), 2)
# get the second vault transfer line
self.valid_line_2 = getattr(self.usual_cash_rendering, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is coin of 200
self.assertEqual(self.valid_line_2.getResourceValue(), self.piece_200)
# check the value of coin
self.assertEqual(self.valid_line_2.getPrice(), 200.0)
# check the unit of coin
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/valid')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for coin for year 1992 is 5
self.assertEqual(cell.getQuantity(), 5.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for coin for year 2003 is 7
self.assertEqual(cell.getQuantity(), 7.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid vault transfer line and
check the total with the invalid vault transfer line
"""
# create a line in which quanity of banknotes of 5000 is higher that quantity available at source
# here create a line with 24 (11+13) banknotes of 500 although the vault caisse_courante has no banknote of 5000
self.addCashLineToDelivery(self.usual_cash_rendering, 'invalid_line', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# Check number of vault transfer lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.usual_cash_rendering.objectValues()), 3)
# Check quantity, same as checkTotal + banknote of 500: 11 for 1992 and 13 for 2003
self.assertEqual(self.usual_cash_rendering.getTotalQuantity(), 5.0 + 12.0 + 24)
# chect the total price
self.assertEqual(self.usual_cash_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0 + 5000 * 24)
def stepTryConfirmUsualCashRenderingWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the usual_cash_rendering with a bad usual_cash_rendering line and
check the try of confirm the usual_cash_rendering with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.usual_cash_rendering.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.usual_cash_rendering, 'confirm_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state of the usual_cash_rendering
state = self.usual_cash_rendering.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepTryPlanUsualCashRenderingWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to plan the usual_cash_rendering with a bad usual_cash_rendering line and
check the try of confirm the usual_cash_rendering with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.usual_cash_rendering.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "plan_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.usual_cash_rendering, 'plan_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state of the usual_cash_rendering
state = self.usual_cash_rendering.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid usual_cash_rendering line previously create
"""
self.usual_cash_rendering.deleteContent('invalid_line')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two usual_cash_rendering lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.usual_cash_rendering.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, coin : 5 for 1992 and 7 for 2003
self.assertEqual(self.usual_cash_rendering.getTotalQuantity(), 5.0 + 12.0)
# check the total price
self.assertEqual(self.usual_cash_rendering.getTotalPrice(), 10000 * 5.0 + 200 * 12.0)
def stepConfirmUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the usual_cash_rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.usual_cash_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'confirm_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.usual_cash_rendering.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of workflow history is 8
self.assertEqual(len(workflow_history), 8)
def stepPlanUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the usual_cash_rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.usual_cash_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'plan_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.usual_cash_rendering.getSimulationState()
# check state is planned
self.assertEqual(state, 'planned')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepOrderUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the usual_cash_rendering and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.usual_cash_rendering.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'order_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state
state = self.usual_cash_rendering.getSimulationState()
# check state is ordered
self.assertEqual(state, 'ordered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 6)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault caisse_courante is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCreditPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault caisse_courante is right after confirm and before deliver
"""
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepDeliverUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the usual_cash_rendering with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'deliver_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state of usual_cash_rendering
state = self.usual_cash_rendering.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of len workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepDeliverUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the usual_cash_rendering with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'deliver_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state of usual_cash_rendering
state = self.usual_cash_rendering.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of len workflow history is 10
self.assertEqual(len(workflow_history), 10)
def stepOrderToDeliverUsualCashRendering(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the usual_cash_rendering with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.usual_cash_rendering, 'order_to_deliver_action', wf_id='usual_cash_rendering_workflow')
# execute tic
self.stepTic()
# get state of usual_cash_rendering
state = self.usual_cash_rendering.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.usual_cash_rendering, name='history', wf_id='usual_cash_rendering_workflow')
# check len of len workflow history is 10
self.assertEqual(len(workflow_history), 8)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault caisse_courante) after deliver of the usual_cash_rendering
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCredit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault caisse_courante) after deliver of the usual_cash_rendering
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def test_01_ERP5BankingUsualCashRendering(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource CheckDestination ' \
+ 'CreateUsualCashRendering ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource CheckDestination ' \
+ 'CreateInvalidLine ' \
+ 'TryPlanUsualCashRenderingWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'PlanUsualCashRendering ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'OrderUsualCashRendering ' \
+ 'ConfirmUsualCashRendering ' \
+ 'DeliverUsualCashRendering ' \
+ 'CheckSourceDebit CheckDestinationCredit '
sequence_list.addSequenceString(sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingUsualCashRendering))
return suite
product/ERP5Banking/tests/testERP5BankingVaultTransfer.py 0 → 100644
View file @ c287c894
##############################################################################
#
# Copyright (c) 2005-2006 Nexedi SARL and Concaisse_courantebutors. All Rights Reserved.
# Alexandre Boeglin <alex_AT_nexedi_DOT_com>
# Kevin Deldycke <kevin_AT_nexedi_DOT_com>
# Aurelien Calonne <aurel@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 rediscaisse_courantebute 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 discaisse_courantebuted 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 requested python module
import os
from Products.ERP5Type.tests.ERP5TypeTestCase import ERP5TypeTestCase
from Products.ERP5Type.tests.Sequence import SequenceList
from Products.DCWorkflow.DCWorkflow import Unauthorized, ValidationFailed
from Testing.ZopeTestCase.PortalTestCase import PortalTestCase
from Products.ERP5Banking.tests.TestERP5BankingMixin import TestERP5BankingMixin
# Needed in order to have a log file inside the current folder
os.environ['EVENT_LOG_FILE'] = os.path.join(os.getcwd(), 'zLOG.log')
# Define the level of log we want, here is all
os.environ['EVENT_LOG_SEVERITY'] = '-300'
# Define how to launch the script if we don't use runUnitTest script
if __name__ == '__main__':
execfile(os.path.join(sys.path[0], 'framework.py'))
class TestERP5BankingVaultTransfer(TestERP5BankingMixin, ERP5TypeTestCase):
"""
This class is a unit test to check the module of Vault Transfer
Here are the following step that will be done in the test :
- before the test, we need to create some movements that will put resources in the source
- create a vault transfer
- check it has been created correctly
- check source and destination (current == future)
- create a "Note Line" (billetage)
- check it has been created correctly
- check the total amount
- create a second Line
- check it has been created correctly
- check the total amount
- create an invalid Line (quantity > available at source)
- check that the system behaves correctly
- pass "plan_action" transition
- check that the new state is planned
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "order_action" transition
- check that the new state is ordered
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "confirm_action" transition
- check that the new state is confirmed
- check that the source has been debited correctly (current < future)
- check amount, lines, ...
- pass "deliver_action" transition
- check that the new state is delivered
- check that the destination has been credited correctly (current == future)
"""
login = PortalTestCase.login
# pseudo constants
RUN_ALL_TEST = 1 # we want to run all test
QUIET = 0 # we don't want the test to be quiet
def getTitle(self):
"""
Return the title of the test
"""
return "ERP5BankingVaultTransfer"
def getBusinessTemplateList(self):
"""
Return the list of business templates we need to run the test.
This method is called during the initialization of the unit test by
the unit test framework in order to know which business templates
need to be installed to run the test on.
"""
return ('erp5_base'
, 'erp5_trade'
, 'erp5_accounting'
, 'erp5_banking_core' # erp5_banking_core contains all generic methods for banking
, 'erp5_banking_inventory'
, 'erp5_banking_vault_transfer-0.1.bt5' # erp5_banking_cash contains all method for vault transfer
)
def getVaultTransferModule(self):
"""
Return the Vault Transer Module
"""
return getattr(self.getPortal(), 'vault_transfer_module', None)
def afterSetUp(self):
"""
Method called before the launch of the test to initialize some data
"""
# Set some variables :
self.initDefaultVariable()
# the cahs transfer module
self.vault_transfer_module = self.getVaultTransferModule()
self.createManagerAndLogin()
# create categories
self.createFunctionGroupSiteCategory()
# create resources
self.createBanknotesAndCoins()
# Before the test, we need to input the inventory
inventory_dict_line_1 = {'id' : 'inventory_line_1',
'resource': self.billet_10000,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_10000}
inventory_dict_line_2 = {'id' : 'inventory_line_2',
'resource': self.piece_200,
'variation_id': ('emission_letter', 'cash_status', 'variation'),
'variation_value': ('emission_letter/p', 'cash_status/valid') + self.variation_list,
'quantity': self.quantity_200}
line_list = [inventory_dict_line_1, inventory_dict_line_2]
self.usual_cash = self.paris.caveau.reserve.encaisse_des_billets_et_monnaies
self.caisse_courante = self.paris.surface.caisse_courante.encaisse_des_billets_et_monnaies
self.auxiliaire = self.paris.caveau.auxiliaire.encaisse_des_billets_et_monnaies
self.createCashInventory(source=None, destination=self.usual_cash, currency=self.currency_1,
line_list=line_list)
self.createCashInventory(source=None, destination=self.auxiliaire, currency=self.currency_1,
line_list=line_list)
self.salle_tri = self.paris.surface.salle_tri.encaisse_des_billets_et_monnaies
def stepCheckObjects(self, sequence=None, sequence_list=None, **kwd):
"""
Check that all the objects we created in afterSetUp or
that were added by the business template and that we rely
on are really here.
"""
self.checkResourceCreated()
# check that VaultTransfer Module was created
self.assertEqual(self.vault_transfer_module.getPortalType(), 'Vault Transfer Module')
# check vault transfer module is empty
self.assertEqual(len(self.vault_transfer_module.objectValues()), 0)
def stepCheckInitialInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckInitialInventoryForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check the initial inventory before any operations
"""
self.simulation_tool = self.getSimulationTool()
# check we have 5 banknotes of 10000 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200 in usual_cash
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSource(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (usual_cash) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckSourceForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in source vault (usual_cash) before a confirm
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestination(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (caisse_courante) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory in destination vault (caisse_courante) before confirm
"""
# check we don't have banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we don't have coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCreateVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Create a vault transfer document and check it
"""
# Vault Transfer has usual_cash (Gros versment) for source, caisse_courante for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
self.vault_transfer = self.vault_transfer_module.newContent(id='vault_transfer_1',
portal_type='Vault Transfer', source=self.usual_cash.getRelativeUrl(),
destination=self.caisse_courante.getRelativeUrl(), source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one vault transfer
self.assertEqual(len(self.vault_transfer_module.objectValues()), 1)
# get the vault transfer document
self.vault_transfer = getattr(self.vault_transfer_module, 'vault_transfer_1')
# check its portal type
self.assertEqual(self.vault_transfer.getPortalType(), 'Vault Transfer')
# check that its source is usual_cash
self.assertEqual(self.vault_transfer.getSource(), 'site/testsite/paris/caveau/reserve/encaisse_des_billets_et_monnaies')
# check that its destination is caisse_courante
self.assertEqual(self.vault_transfer.getDestination(), 'site/testsite/paris/surface/caisse_courante/encaisse_des_billets_et_monnaies')
def stepCreateVaultTransferForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Create a vault transfer document and check it
"""
# Vault Transfer has usual_cash (Gros versment) for source, caisse_courante for destination, and a price cooreponding to the sum of banknote of 10000 abd coin of 200 ( (2+3) * 1000 + (5+7) * 200 )
self.vault_transfer = self.vault_transfer_module.newContent(id='vault_transfer_1', portal_type='Vault Transfer', source_value=self.auxiliaire, destination_value=self.salle_tri, source_total_asset_price=52400.0)
# execute tic
self.stepTic()
# check we have only one vault transfer
self.assertEqual(len(self.vault_transfer_module.objectValues()), 1)
# get the vault transfer document
self.vault_transfer = getattr(self.vault_transfer_module, 'vault_transfer_1')
# check its portal type
self.assertEqual(self.vault_transfer.getPortalType(), 'Vault Transfer')
# check that its source is usual_cash
self.assertEqual(self.vault_transfer.getSource(), 'site/testsite/paris/caveau/auxiliaire/encaisse_des_billets_et_monnaies')
# check that its destination is caisse_courante
self.assertEqual(self.vault_transfer.getDestination(), 'site/testsite/paris/surface/salle_tri/encaisse_des_billets_et_monnaies')
def stepCreateValidLine1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the vault transfer line 1 with banknotes of 10000 and check it has been well created
"""
# create the vault transfer line
self.addCashLineToDelivery(self.vault_transfer, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.vault_transfer.objectValues()), 1)
# get the vault transfer line
self.valid_line_1 = getattr(self.vault_transfer, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/valid')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is usual_cash
self.assertEqual(cell.getSourceValue(), self.usual_cash)
# check the destination vault is caisse_courante
self.assertEqual(cell.getDestinationValue(), self.caisse_courante)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateValidLineForTri1(self, sequence=None, sequence_list=None, **kwd):
"""
Create the vault transfer line 1 with banknotes of 10000 and check it has been well created
"""
# create the vault transfer line
self.addCashLineToDelivery(self.vault_transfer, 'valid_line_1', 'Cash Delivery Line', self.billet_10000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_10000)
# execute tic
self.stepTic()
# check there is only one line created
self.assertEqual(len(self.vault_transfer.objectValues()), 1)
# get the vault transfer line
self.valid_line_1 = getattr(self.vault_transfer, 'valid_line_1')
# check its portal type
self.assertEqual(self.valid_line_1.getPortalType(), 'Cash Delivery Line')
# check the resource is banknotes of 10000
self.assertEqual(self.valid_line_1.getResourceValue(), self.billet_10000)
# chek the value of the banknote
self.assertEqual(self.valid_line_1.getPrice(), 10000.0)
# check the unit of banknote
self.assertEqual(self.valid_line_1.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_1.objectValues()), 2)
# now check for each variation (years 1992 and 2003)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_1.getCell('emission_letter/p', variation, 'cash_status/valid')
# chek portal types
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
# check the banknote of the cell is banknote of 10000
self.assertEqual(cell.getResourceValue(), self.billet_10000)
# check the source vault is usual_cash
self.assertEqual(cell.getSourceValue(), self.auxiliaire)
# check the destination vault is caisse_courante
self.assertEqual(cell.getDestinationValue(), self.salle_tri)
if cell.getId() == 'movement_0_0_0':
# check the quantity of banknote for year 1992 is 2
self.assertEqual(cell.getQuantity(), 2.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity of banknote for year 2003 is 3
self.assertEqual(cell.getQuantity(), 3.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCheckSubTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the amount after the creation of vault transfer line 1
"""
# Check number of lines
self.assertEqual(len(self.vault_transfer.objectValues()), 1)
# Check quantity of banknotes (2 for 1992 and 3 for 2003)
self.assertEqual(self.vault_transfer.getTotalQuantity(), 5.0)
# Check the total price
self.assertEqual(self.vault_transfer.getTotalPrice(), 10000 * 5.0)
def stepCreateValidLine2(self, sequence=None, sequence_list=None, **kwd):
"""
Create the vault transfer line 2 wiht coins of 200 and check it has been well created
"""
# create the line
self.addCashLineToDelivery(self.vault_transfer, 'valid_line_2', 'Cash Delivery Line', self.piece_200,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_200)
# execute tic
self.stepTic()
# check the number of lines (line1 + line2)
self.assertEqual(len(self.vault_transfer.objectValues()), 2)
# get the second vault transfer line
self.valid_line_2 = getattr(self.vault_transfer, 'valid_line_2')
# check portal types
self.assertEqual(self.valid_line_2.getPortalType(), 'Cash Delivery Line')
# check the resource is coin of 200
self.assertEqual(self.valid_line_2.getResourceValue(), self.piece_200)
# check the value of coin
self.assertEqual(self.valid_line_2.getPrice(), 200.0)
# check the unit of coin
self.assertEqual(self.valid_line_2.getQuantityUnit(), 'quantity_unit/unit')
# check we have two delivery cells: (one for year 1992 and one for 2003)
self.assertEqual(len(self.valid_line_2.objectValues()), 2)
for variation in self.variation_list:
# get the delivery cell
cell = self.valid_line_2.getCell('emission_letter/p', variation, 'cash_status/valid')
# check the portal type
self.assertEqual(cell.getPortalType(), 'Cash Delivery Cell')
if cell.getId() == 'movement_0_0_0':
# check the quantity for coin for year 1992 is 5
self.assertEqual(cell.getQuantity(), 5.0)
elif cell.getId() == 'movement_0_1_0':
# check the quantity for coin for year 2003 is 7
self.assertEqual(cell.getQuantity(), 7.0)
else:
self.fail('Wrong cell created : %s' % cell.getId())
def stepCreateInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Create an invalid vault transfer line and
check the total with the invalid vault transfer line
"""
# create a line in which quanity of banknotes of 5000 is higher that quantity available at source
# here create a line with 24 (11+13) banknotes of 500 although the vault usual_cash has no banknote of 5000
self.addCashLineToDelivery(self.vault_transfer, 'invalid_line', 'Cash Delivery Line', self.billet_5000,
('emission_letter', 'cash_status', 'variation'), ('emission_letter/p', 'cash_status/valid') + self.variation_list,
self.quantity_5000)
# execute tic
self.stepTic()
# Check number of vault transfer lines (line1 + line2 +invalid_line)
self.assertEqual(len(self.vault_transfer.objectValues()), 3)
# Check quantity, same as checkTotal + banknote of 500: 11 for 1992 and 13 for 2003
self.assertEqual(self.vault_transfer.getTotalQuantity(), 5.0 + 12.0 + 24)
# chect the total price
self.assertEqual(self.vault_transfer.getTotalPrice(), 10000 * 5.0 + 200 * 12.0 + 5000 * 24)
def stepTryConfirmVaultTransferWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to confirm the vault_transfer with a bad vault_transfer line and
check the try of confirm the vault_transfer with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.vault_transfer.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "confirm_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.vault_transfer, 'confirm_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state of the vault_transfer
state = self.vault_transfer.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepTryPlanVaultTransferWithBadInventory(self, sequence=None, sequence_list=None, **kwd):
"""
Try to plan the vault_transfer with a bad vault_transfer line and
check the try of confirm the vault_transfer with the invalid line has failed
"""
# fix amount (10000 * 5.0 + 200 * 12.0 + 5000 * 24)
self.vault_transfer.setSourceTotalAssetPrice('172400.0')
# try to do the workflow action "plan_action', cath the exception ValidationFailed raised by workflow transition
self.assertRaises(ValidationFailed, self.workflow_tool.doActionFor, self.vault_transfer, 'plan_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state of the vault_transfer
state = self.vault_transfer.getSimulationState()
# check the state is draft
self.assertEqual(state, 'draft')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check its len is 2
self.assertEqual(len(workflow_history), 2)
# check we get an "Insufficient balance" message in the workflow history because of the invalid line
msg = workflow_history[-1]['error_message']
self.assertEqual('Insufficient Balance.', "%s" %(msg,))
def stepDelInvalidLine(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid vault_transfer line previously create
"""
self.vault_transfer.deleteContent('invalid_line')
def stepDelVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Delete the invalid vault_transfer line previously create
"""
self.vault_transfer_module.deleteContent('vault_transfer_1')
def stepCheckTotal(self, sequence=None, sequence_list=None, **kwd):
"""
Check the total after the creation of the two vault_transfer lines
"""
# Check number of lines (line1 + line2)
self.assertEqual(len(self.vault_transfer.objectValues()), 2)
# Check quantity, banknotes : 2 for 1992 and 3 for 2003, coin : 5 for 1992 and 7 for 2003
self.assertEqual(self.vault_transfer.getTotalQuantity(), 5.0 + 12.0)
# check the total price
self.assertEqual(self.vault_transfer.getTotalPrice(), 10000 * 5.0 + 200 * 12.0)
def stepConfirmVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the vault_transfer and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.vault_transfer.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.vault_transfer, 'confirm_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state
state = self.vault_transfer.getSimulationState()
# check state is confirmed
self.assertEqual(state, 'confirmed')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of workflow history is 8
self.assertEqual(len(workflow_history), 8)
def stepPlanVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the vault_transfer and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.vault_transfer.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.vault_transfer, 'plan_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state
state = self.vault_transfer.getSimulationState()
# check state is planned
self.assertEqual(state, 'planned')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 4)
def stepOrderVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Confirm the vault_transfer and check it
"""
# fix amount (10000 * 5.0 + 200 * 12.0)
self.vault_transfer.setSourceTotalAssetPrice('52400.0')
# do the Workflow action
self.workflow_tool.doActionFor(self.vault_transfer, 'order_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state
state = self.vault_transfer.getSimulationState()
# check state is ordered
self.assertEqual(state, 'ordered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of workflow history is 4
self.assertEqual(len(workflow_history), 6)
def stepCheckSourceDebitPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault usual_cash is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckSourceDebitPlannedForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault usual_cash is right after confirm and before deliver
"""
# check we have 5 banknotes of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we will have 0 banknote of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 12 coins of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
# check we will have 0 coin of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCreditPlannedForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault caisse_courante is right after confirm and before deliver
"""
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestinationCreditPlanned(self, sequence=None, sequence_list=None, **kwd):
"""
Check that compution of inventory at vault caisse_courante is right after confirm and before deliver
"""
# check we have 0 banknote of 10000 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we will have 5 banknotes of 10000 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 0 coin of 200 currently
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
# check we will have 12 coins of 200 after deliver
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepDeliverVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the vault_transfer with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.vault_transfer, 'deliver_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state of vault_transfer
state = self.vault_transfer.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of len workflow history is 6
self.assertEqual(len(workflow_history), 6)
def stepConfirmToDeliverVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the vault_transfer with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
self.workflow_tool.doActionFor(self.vault_transfer, 'confirm_to_deliver_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state of vault_transfer
state = self.vault_transfer.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of len workflow history is 10
self.assertEqual(len(workflow_history), 10)
def stepOrderToDeliverVaultTransfer(self, sequence=None, sequence_list=None, **kwd):
"""
Deliver the vault_transfer with a good user
and check that the deliver of a cash tranfer have achieved
"""
# do the workflow transition "deliver_action"
print self.portal.acl_users.getUserById('chef_de_tri')
self.workflow_tool.doActionFor(self.vault_transfer, 'order_to_deliver_action', wf_id='vault_transfer_workflow')
# execute tic
self.stepTic()
# get state of vault_transfer
state = self.vault_transfer.getSimulationState()
# check that state is delivered
self.assertEqual(state, 'delivered')
# get workflow history
workflow_history = self.workflow_tool.getInfoFor(ob=self.vault_transfer, name='history', wf_id='vault_transfer_workflow')
# check len of len workflow history is 10
self.assertEqual(len(workflow_history), 8)
def stepCheckSourceDebit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault usual_cash) after deliver of the vault_transfer
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.usual_cash.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckSourceDebitForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at source (vault usual_cash) after deliver of the vault_transfer
"""
# check we have 0 banknote of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 0.0)
# check we have 0 coin of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.auxiliaire.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 0.0)
def stepCheckDestinationCredit(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault caisse_courante) after deliver of the vault_transfer
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.caisse_courante.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
def stepCheckDestinationCreditForTri(self, sequence=None, sequence_list=None, **kwd):
"""
Check inventory at destination (vault caisse_courante) after deliver of the vault_transfer
"""
# check we have 5 banknotes of 10000
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.billet_10000.getRelativeUrl()), 5.0)
# check we have 12 coins of 200
self.assertEqual(self.simulation_tool.getCurrentInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
self.assertEqual(self.simulation_tool.getFutureInventory(node=self.salle_tri.getRelativeUrl(), resource = self.piece_200.getRelativeUrl()), 12.0)
##################################
## Tests
##################################
def test_01_ERP5BankingVaultTransfer(self, quiet=QUIET, run=RUN_ALL_TEST):
"""
Define the sequence of step that will be play
"""
if not run: return
sequence_list = SequenceList()
# define the sequence
sequence_string = 'Tic CheckObjects Tic CheckInitialInventory CheckSource CheckDestination ' \
+ 'CreateVaultTransfer ' \
+ 'CreateValidLine1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSource CheckDestination ' \
+ 'CreateInvalidLine ' \
+ 'TryPlanVaultTransferWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'PlanVaultTransfer ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'CheckSourceDebitPlanned CheckDestinationCreditPlanned ' \
+ 'OrderVaultTransfer ' \
+ 'ConfirmVaultTransfer ' \
+ 'ConfirmToDeliverVaultTransfer ' \
+ 'CheckSourceDebit CheckDestinationCredit '
sequence_list.addSequenceString(sequence_string)
another_sequence_string = 'Tic DelVaultTransfer Tic CheckObjects Tic CheckInitialInventoryForTri CheckSourceForTri CheckDestinationForTri ' \
+ 'CreateVaultTransferForTri ' \
+ 'CreateValidLineForTri1 CheckSubTotal ' \
+ 'CreateValidLine2 CheckTotal ' \
+ 'CheckSourceForTri CheckDestinationForTri ' \
+ 'CreateInvalidLine ' \
+ 'TryPlanVaultTransferWithBadInventory ' \
+ 'DelInvalidLine Tic CheckTotal ' \
+ 'PlanVaultTransfer ' \
+ 'CheckSourceDebitPlannedForTri CheckDestinationCreditPlannedForTri ' \
+ 'OrderVaultTransfer ' \
+ 'OrderToDeliverVaultTransfer ' \
+ 'CheckSourceDebitForTri CheckDestinationCreditForTri '
sequence_list.addSequenceString(another_sequence_string)
# play the sequence
sequence_list.play(self)
# define how we launch the unit test
if __name__ == '__main__':
framework()
else:
import unittest
def test_suite():
suite = unittest.TestSuite()
suite.addTest(unittest.makeSuite(TestERP5BankingVaultTransfer))
return suite
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