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flectra/addons/stock/tests/test_stock_flow.py

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[INIT] Inception of Flectra from Odoo Flectra is Forked from Odoo v11 commit : (https://github.com/odoo/odoo/commit/6135e82d735d5eb3af914f4a838468f6dc33e51d)
2018-01-16 06:58:15 +01:00
# -*- coding: utf-8 -*-
[REN] rename namespace
2018-01-16 11:34:37 +01:00
from flectra.addons.stock.tests.common import TestStockCommon
from flectra.tools import mute_logger, float_round
from flectra.exceptions import UserError
[INIT] Inception of Flectra from Odoo Flectra is Forked from Odoo v11 commit : (https://github.com/odoo/odoo/commit/6135e82d735d5eb3af914f4a838468f6dc33e51d)
2018-01-16 06:58:15 +01:00
class TestStockFlow(TestStockCommon):
[REN] rename namespace
2018-01-16 11:34:37 +01:00
@mute_logger('flectra.addons.base.ir.ir_model', 'flectra.models')
[INIT] Inception of Flectra from Odoo Flectra is Forked from Odoo v11 commit : (https://github.com/odoo/odoo/commit/6135e82d735d5eb3af914f4a838468f6dc33e51d)
2018-01-16 06:58:15 +01:00
def test_00_picking_create_and_transfer_quantity(self):
""" Basic stock operation on incoming and outgoing shipment. """
LotObj = self.env['stock.production.lot']
# ----------------------------------------------------------------------
# Create incoming shipment of product A, B, C, D
# ----------------------------------------------------------------------
# Product A ( 1 Unit ) , Product C ( 10 Unit )
# Product B ( 1 Unit ) , Product D ( 10 Unit )
# Product D ( 5 Unit )
# ----------------------------------------------------------------------
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_a = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 1,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_b = self.MoveObj.create({
'name': self.productB.name,
'product_id': self.productB.id,
'product_uom_qty': 1,
'product_uom': self.productB.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_c = self.MoveObj.create({
'name': self.productC.name,
'product_id': self.productC.id,
'product_uom_qty': 10,
'product_uom': self.productC.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_d = self.MoveObj.create({
'name': self.productD.name,
'product_id': self.productD.id,
'product_uom_qty': 10,
'product_uom': self.productD.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.productD.name,
'product_id': self.productD.id,
'product_uom_qty': 5,
'product_uom': self.productD.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_in.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# ----------------------------------------------------------------------
# Replace pack operation of incoming shipments.
# ----------------------------------------------------------------------
picking_in.action_assign()
move_a.move_line_ids.qty_done = 4
move_b.move_line_ids.qty_done = 5
move_c.move_line_ids.qty_done = 5
move_d.move_line_ids.qty_done = 5
lot2_productC = LotObj.create({'name': 'C Lot 2', 'product_id': self.productC.id})
self.StockPackObj.create({
'product_id': self.productC.id,
'qty_done': 2,
'product_uom_id': self.productC.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'move_id': move_c.id,
'lot_id': lot2_productC.id,
})
self.StockPackObj.create({
'product_id': self.productD.id,
'qty_done': 2,
'product_uom_id': self.productD.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'move_id': move_d.id
})
# Check incoming shipment total quantity of pack operation
total_qty = sum(self.StockPackObj.search([('move_id', 'in', picking_in.move_lines.ids)]).mapped('qty_done'))
self.assertEqual(total_qty, 23, 'Wrong quantity in pack operation')
# Transfer Incoming Shipment.
picking_in.action_done()
# ----------------------------------------------------------------------
# Check state, quantity and total moves of incoming shipment.
# ----------------------------------------------------------------------
# Check total no of move lines of incoming shipment. move line e disappear from original picking to go in backorder.
self.assertEqual(len(picking_in.move_lines), 4, 'Wrong number of move lines.')
# Check incoming shipment state.
self.assertEqual(picking_in.state, 'done', 'Incoming shipment state should be done.')
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
# Check product A done quantity must be 3 and 1
moves = self.MoveObj.search([('product_id', '=', self.productA.id), ('picking_id', '=', picking_in.id)])
self.assertEqual(moves.product_uom_qty, 4.0, 'Wrong move quantity for product A.')
# Check product B done quantity must be 4 and 1
moves = self.MoveObj.search([('product_id', '=', self.productB.id), ('picking_id', '=', picking_in.id)])
self.assertEqual(moves.product_uom_qty, 5.0, 'Wrong move quantity for product B.')
# Check product C done quantity must be 7
c_done_qty = self.MoveObj.search([('product_id', '=', self.productC.id), ('picking_id', '=', picking_in.id)], limit=1).product_uom_qty
self.assertEqual(c_done_qty, 7.0, 'Wrong move quantity of product C (%s found instead of 7)' % (c_done_qty))
# Check product D done quantity must be 7
d_done_qty = self.MoveObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', picking_in.id)], limit=1).product_uom_qty
self.assertEqual(d_done_qty, 7.0, 'Wrong move quantity of product D (%s found instead of 7)' % (d_done_qty))
# ----------------------------------------------------------------------
# Check Back order of Incoming shipment.
# ----------------------------------------------------------------------
# Check back order created or not.
back_order_in = self.PickingObj.search([('backorder_id', '=', picking_in.id)])
self.assertEqual(len(back_order_in), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(back_order_in.move_lines), 2, 'Wrong number of move lines.')
# Check back order should be created with 3 quantity of product C.
moves = self.MoveObj.search([('product_id', '=', self.productC.id), ('picking_id', '=', back_order_in.id)])
product_c_qty = [move.product_uom_qty for move in moves]
self.assertEqual(sum(product_c_qty), 3.0, 'Wrong move quantity of product C (%s found instead of 3)' % (product_c_qty))
# Check back order should be created with 8 quantity of product D.
moves = self.MoveObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', back_order_in.id)])
product_d_qty = [move.product_uom_qty for move in moves]
self.assertEqual(sum(product_d_qty), 8.0, 'Wrong move quantity of product D (%s found instead of 8)' % (product_d_qty))
# ======================================================================
# Create Outgoing shipment with ...
# product A ( 10 Unit ) , product B ( 5 Unit )
# product C ( 3 unit ) , product D ( 10 Unit )
# ======================================================================
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_cust_a = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 10,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_cust_b = self.MoveObj.create({
'name': self.productB.name,
'product_id': self.productB.id,
'product_uom_qty': 5,
'product_uom': self.productB.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_cust_c = self.MoveObj.create({
'name': self.productC.name,
'product_id': self.productC.id,
'product_uom_qty': 3,
'product_uom': self.productC.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_cust_d = self.MoveObj.create({
'name': self.productD.name,
'product_id': self.productD.id,
'product_uom_qty': 10,
'product_uom': self.productD.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# Confirm outgoing shipment.
picking_out.action_confirm()
for move in picking_out.move_lines:
self.assertEqual(move.state, 'confirmed', 'Wrong state of move line.')
# Product assign to outgoing shipments
picking_out.action_assign()
self.assertEqual(move_cust_a.state, 'partially_available', 'Wrong state of move line.')
self.assertEqual(move_cust_b.state, 'assigned', 'Wrong state of move line.')
self.assertEqual(move_cust_c.state, 'assigned', 'Wrong state of move line.')
self.assertEqual(move_cust_d.state, 'partially_available', 'Wrong state of move line.')
# Check availability for product A
aval_a_qty = self.MoveObj.search([('product_id', '=', self.productA.id), ('picking_id', '=', picking_out.id)], limit=1).reserved_availability
self.assertEqual(aval_a_qty, 4.0, 'Wrong move quantity availability of product A (%s found instead of 4)' % (aval_a_qty))
# Check availability for product B
aval_b_qty = self.MoveObj.search([('product_id', '=', self.productB.id), ('picking_id', '=', picking_out.id)], limit=1).reserved_availability
self.assertEqual(aval_b_qty, 5.0, 'Wrong move quantity availability of product B (%s found instead of 5)' % (aval_b_qty))
# Check availability for product C
aval_c_qty = self.MoveObj.search([('product_id', '=', self.productC.id), ('picking_id', '=', picking_out.id)], limit=1).reserved_availability
self.assertEqual(aval_c_qty, 3.0, 'Wrong move quantity availability of product C (%s found instead of 3)' % (aval_c_qty))
# Check availability for product D
aval_d_qty = self.MoveObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', picking_out.id)], limit=1).reserved_availability
self.assertEqual(aval_d_qty, 7.0, 'Wrong move quantity availability of product D (%s found instead of 7)' % (aval_d_qty))
# ----------------------------------------------------------------------
# Replace pack operation of outgoing shipment.
# ----------------------------------------------------------------------
move_cust_a.move_line_ids.qty_done = 2.0
move_cust_b.move_line_ids.qty_done = 3.0
self.StockPackObj.create({
'product_id': self.productB.id,
'qty_done': 2,
'product_uom_id': self.productB.uom_id.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location,
'move_id': move_cust_b.id})
# TODO care if product_qty and lot_id are set at the same times the system do 2 unreserve.
move_cust_c.move_line_ids[0].write({
'qty_done': 2.0,
'lot_id': lot2_productC.id,
})
self.StockPackObj.create({
'product_id': self.productC.id,
'qty_done': 3.0,
'product_uom_id': self.productC.uom_id.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location,
'move_id': move_cust_c.id})
move_cust_d.move_line_ids.qty_done = 6.0
# Transfer picking.
picking_out.action_done()
# ----------------------------------------------------------------------
# Check state, quantity and total moves of outgoing shipment.
# ----------------------------------------------------------------------
# check outgoing shipment status.
self.assertEqual(picking_out.state, 'done', 'Wrong state of outgoing shipment.')
# check outgoing shipment total moves and and its state.
self.assertEqual(len(picking_out.move_lines), 4, 'Wrong number of move lines')
for move in picking_out.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
back_order_out = self.PickingObj.search([('backorder_id', '=', picking_out.id)])
# ------------------
# Check back order.
# -----------------
self.assertEqual(len(back_order_out), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(back_order_out.move_lines), 2, 'Wrong number of move lines')
# Check back order should be created with 8 quantity of product A.
product_a_qty = self.MoveObj.search([('product_id', '=', self.productA.id), ('picking_id', '=', back_order_out.id)], limit=1).product_uom_qty
self.assertEqual(product_a_qty, 8.0, 'Wrong move quantity of product A (%s found instead of 8)' % (product_a_qty))
# Check back order should be created with 4 quantity of product D.
product_d_qty = self.MoveObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', back_order_out.id)], limit=1).product_uom_qty
self.assertEqual(product_d_qty, 4.0, 'Wrong move quantity of product D (%s found instead of 4)' % (product_d_qty))
# -----------------------------------------------------------------------
# Check stock location quant quantity and quantity available
# of product A, B, C, D
# -----------------------------------------------------------------------
# Check quants and available quantity for product A
quants = self.StockQuantObj.search([('product_id', '=', self.productA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 2.0, 'Expecting 2.0 Unit , got %.4f Unit on location stock!' % (sum(total_qty)))
self.assertEqual(self.productA.qty_available, 2.0, 'Wrong quantity available (%s found instead of 2.0)' % (self.productA.qty_available))
# Check quants and available quantity for product B
quants = self.StockQuantObj.search([('product_id', '=', self.productB.id), ('location_id', '=', self.stock_location)])
self.assertFalse(quants, 'No quant should found as outgoing shipment took everything out of stock.')
self.assertEqual(self.productB.qty_available, 0.0, 'Product B should have zero quantity available.')
# Check quants and available quantity for product C
quants = self.StockQuantObj.search([('product_id', '=', self.productC.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 2.0, 'Expecting 2.0 Unit, got %.4f Unit on location stock!' % (sum(total_qty)))
self.assertEqual(self.productC.qty_available, 2.0, 'Wrong quantity available (%s found instead of 2.0)' % (self.productC.qty_available))
# Check quants and available quantity for product D
quant = self.StockQuantObj.search([('product_id', '=', self.productD.id), ('location_id', '=', self.stock_location)], limit=1)
self.assertEqual(quant.quantity, 1.0, 'Expecting 1.0 Unit , got %.4f Unit on location stock!' % (quant.quantity))
self.assertEqual(self.productD.qty_available, 1.0, 'Wrong quantity available (%s found instead of 1.0)' % (self.productD.qty_available))
# -----------------------------------------------------------------------
# Back Order of Incoming shipment
# -----------------------------------------------------------------------
lot3_productC = LotObj.create({'name': 'Lot 3', 'product_id': self.productC.id})
lot4_productC = LotObj.create({'name': 'Lot 4', 'product_id': self.productC.id})
lot5_productC = LotObj.create({'name': 'Lot 5', 'product_id': self.productC.id})
lot6_productC = LotObj.create({'name': 'Lot 6', 'product_id': self.productC.id})
lot1_productD = LotObj.create({'name': 'Lot 1', 'product_id': self.productD.id})
LotObj.create({'name': 'Lot 2', 'product_id': self.productD.id})
# Confirm back order of incoming shipment.
back_order_in.action_confirm()
self.assertEqual(back_order_in.state, 'assigned', 'Wrong state of incoming shipment back order: %s instead of %s' % (back_order_in.state, 'assigned'))
for move in back_order_in.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# ----------------------------------------------------------------------
# Replace pack operation (Back order of Incoming shipment)
# ----------------------------------------------------------------------
packD = self.StockPackObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', back_order_in.id)], order='product_qty')
self.assertEqual(len(packD), 1, 'Wrong number of pack operation.')
packD[0].write({
'qty_done': 8,
'lot_id': lot1_productD.id,
})
packCs = self.StockPackObj.search([('product_id', '=', self.productC.id), ('picking_id', '=', back_order_in.id)], limit=1)
packCs.write({
'qty_done': 1,
'lot_id': lot3_productC.id,
})
self.StockPackObj.create({
'product_id': self.productC.id,
'qty_done': 1,
'product_uom_id': self.productC.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'picking_id': back_order_in.id,
'lot_id': lot4_productC.id,
})
self.StockPackObj.create({
'product_id': self.productC.id,
'qty_done': 2,
'product_uom_id': self.productC.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'picking_id': back_order_in.id,
'lot_id': lot5_productC.id,
})
self.StockPackObj.create({
'product_id': self.productC.id,
'qty_done': 2,
'product_uom_id': self.productC.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'picking_id': back_order_in.id,
'lot_id': lot6_productC.id,
})
self.StockPackObj.create({
'product_id': self.productA.id,
'qty_done': 10,
'product_uom_id': self.productA.uom_id.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'picking_id': back_order_in.id
})
back_order_in.action_done()
# ----------------------------------------------------------------------
# Check state, quantity and total moves (Back order of Incoming shipment).
# ----------------------------------------------------------------------
# Check total no of move lines.
self.assertEqual(len(back_order_in.move_lines), 3, 'Wrong number of move lines')
# Check incoming shipment state must be 'Done'.
self.assertEqual(back_order_in.state, 'done', 'Wrong state of picking.')
# Check incoming shipment move lines state must be 'Done'.
for move in back_order_in.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move lines.')
# Check product A done quantity must be 10
movesA = self.MoveObj.search([('product_id', '=', self.productA.id), ('picking_id', '=', back_order_in.id)])
self.assertEqual(movesA.product_uom_qty, 10, "Wrong move quantity of product A (%s found instead of 10)" % (movesA.product_uom_qty))
# Check product C done quantity must be 3.0, 1.0, 2.0
movesC = self.MoveObj.search([('product_id', '=', self.productC.id), ('picking_id', '=', back_order_in.id)])
self.assertEqual(movesC.product_uom_qty, 6.0, 'Wrong quantity of moves product C.')
# Check product D done quantity must be 5.0 and 3.0
movesD = self.MoveObj.search([('product_id', '=', self.productD.id), ('picking_id', '=', back_order_in.id)])
d_done_qty = [move.product_uom_qty for move in movesD]
self.assertEqual(set(d_done_qty), set([8.0]), 'Wrong quantity of moves product D.')
# Check no back order is created.
self.assertFalse(self.PickingObj.search([('backorder_id', '=', back_order_in.id)]), "Should not create any back order.")
# -----------------------------------------------------------------------
# Check stock location quant quantity and quantity available
# of product A, B, C, D
# -----------------------------------------------------------------------
# Check quants and available quantity for product A.
quants = self.StockQuantObj.search([('product_id', '=', self.productA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 12.0, 'Wrong total stock location quantity (%s found instead of 12)' % (sum(total_qty)))
self.assertEqual(self.productA.qty_available, 12.0, 'Wrong quantity available (%s found instead of 12)' % (self.productA.qty_available))
# Check quants and available quantity for product B.
quants = self.StockQuantObj.search([('product_id', '=', self.productB.id), ('location_id', '=', self.stock_location)])
self.assertFalse(quants, 'No quant should found as outgoing shipment took everything out of stock')
self.assertEqual(self.productB.qty_available, 0.0, 'Total quantity in stock should be 0 as the backorder took everything out of stock')
# Check quants and available quantity for product C.
quants = self.StockQuantObj.search([('product_id', '=', self.productC.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 8.0, 'Wrong total stock location quantity (%s found instead of 8)' % (sum(total_qty)))
self.assertEqual(self.productC.qty_available, 8.0, 'Wrong quantity available (%s found instead of 8)' % (self.productC.qty_available))
# Check quants and available quantity for product D.
quants = self.StockQuantObj.search([('product_id', '=', self.productD.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 9.0, 'Wrong total stock location quantity (%s found instead of 9)' % (sum(total_qty)))
self.assertEqual(self.productD.qty_available, 9.0, 'Wrong quantity available (%s found instead of 9)' % (self.productD.qty_available))
# -----------------------------------------------------------------------
# Back order of Outgoing shipment
# ----------------------------------------------------------------------
back_order_out.do_transfer()
# Check stock location quants and available quantity for product A.
quants = self.StockQuantObj.search([('product_id', '=', self.productA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertGreaterEqual(float_round(sum(total_qty), precision_rounding=0.0001), 1, 'Total stock location quantity for product A should not be nagative.')
def test_10_pickings_transfer_with_different_uom(self):
""" Picking transfer with diffrent unit of meassure. """
# ----------------------------------------------------------------------
# Create incoming shipment of products DozA, SDozA, SDozARound, kgB, gB
# ----------------------------------------------------------------------
# DozA ( 10 Dozen ) , SDozA ( 10.5 SuperDozen )
# SDozARound ( 10.5 10.5 SuperDozenRound ) , kgB ( 0.020 kg )
# gB ( 525.3 g )
# ----------------------------------------------------------------------
picking_in_A = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.DozA.name,
'product_id': self.DozA.id,
'product_uom_qty': 10,
'product_uom': self.DozA.uom_id.id,
'picking_id': picking_in_A.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.SDozA.name,
'product_id': self.SDozA.id,
'product_uom_qty': 10.5,
'product_uom': self.SDozA.uom_id.id,
'picking_id': picking_in_A.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.SDozARound.name,
'product_id': self.SDozARound.id,
'product_uom_qty': 10.5,
'product_uom': self.SDozARound.uom_id.id,
'picking_id': picking_in_A.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.kgB.name,
'product_id': self.kgB.id,
'product_uom_qty': 0.020,
'product_uom': self.kgB.uom_id.id,
'picking_id': picking_in_A.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.gB.name,
'product_id': self.gB.id,
'product_uom_qty': 525.3,
'product_uom': self.gB.uom_id.id,
'picking_id': picking_in_A.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
# Check incoming shipment move lines state.
for move in picking_in_A.move_lines:
self.assertEqual(move.state, 'draft', 'Move state must be draft.')
# Confirm incoming shipment.
picking_in_A.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in_A.move_lines:
self.assertEqual(move.state, 'assigned', 'Move state must be draft.')
# ----------------------------------------------------
# Check pack operation quantity of incoming shipments.
# ----------------------------------------------------
PackSdozAround = self.StockPackObj.search([('product_id', '=', self.SDozARound.id), ('picking_id', '=', picking_in_A.id)], limit=1)
self.assertEqual(PackSdozAround.product_qty, 11, 'Wrong quantity in pack operation (%s found instead of 11)' % (PackSdozAround.product_qty))
res_dict = picking_in_A.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
# -----------------------------------------------------------------------
# Check stock location quant quantity and quantity available
# -----------------------------------------------------------------------
# Check quants and available quantity for product DozA
quants = self.StockQuantObj.search([('product_id', '=', self.DozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 10, 'Expecting 10 Dozen , got %.4f Dozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.DozA.qty_available, 10, 'Wrong quantity available (%s found instead of 10)' % (self.DozA.qty_available))
# Check quants and available quantity for product SDozA
quants = self.StockQuantObj.search([('product_id', '=', self.SDozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 10.5, 'Expecting 10.5 SDozen , got %.4f SDozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozA.qty_available, 10.5, 'Wrong quantity available (%s found instead of 10.5)' % (self.SDozA.qty_available))
# Check quants and available quantity for product SDozARound
quants = self.StockQuantObj.search([('product_id', '=', self.SDozARound.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 11, 'Expecting 11 SDozenRound , got %.4f SDozenRound on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozARound.qty_available, 11, 'Wrong quantity available (%s found instead of 11)' % (self.SDozARound.qty_available))
# Check quants and available quantity for product gB
quants = self.StockQuantObj.search([('product_id', '=', self.gB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 525.3, 'Expecting 525.3 gram , got %.4f gram on location stock!' % (sum(total_qty)))
self.assertEqual(self.gB.qty_available, 525.3, 'Wrong quantity available (%s found instead of 525.3' % (self.gB.qty_available))
# Check quants and available quantity for product kgB
quants = self.StockQuantObj.search([('product_id', '=', self.kgB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 0.020, 'Expecting 0.020 kg , got %.4f kg on location stock!' % (sum(total_qty)))
self.assertEqual(self.kgB.qty_available, 0.020, 'Wrong quantity available (%s found instead of 0.020)' % (self.kgB.qty_available))
# ----------------------------------------------------------------------
# Create Incoming Shipment B
# ----------------------------------------------------------------------
picking_in_B = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_in_a = self.MoveObj.create({
'name': self.DozA.name,
'product_id': self.DozA.id,
'product_uom_qty': 120,
'product_uom': self.uom_unit.id,
'picking_id': picking_in_B.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.SDozA.name,
'product_id': self.SDozA.id,
'product_uom_qty': 1512,
'product_uom': self.uom_unit.id,
'picking_id': picking_in_B.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.SDozARound.name,
'product_id': self.SDozARound.id,
'product_uom_qty': 1584,
'product_uom': self.uom_unit.id,
'picking_id': picking_in_B.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.kgB.name,
'product_id': self.kgB.id,
'product_uom_qty': 20.0,
'product_uom': self.uom_gm.id,
'picking_id': picking_in_B.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.gB.name,
'product_id': self.gB.id,
'product_uom_qty': 0.525,
'product_uom': self.uom_kg.id,
'picking_id': picking_in_B.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
# Check incoming shipment move lines state.
for move in picking_in_B.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_in_B.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in_B.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# ----------------------------------------------------------------------
# Check product quantity and unit of measure of pack operaation.
# ----------------------------------------------------------------------
# Check pack operation quantity and unit of measure for product DozA.
PackdozA = self.StockPackObj.search([('product_id', '=', self.DozA.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(PackdozA.product_uom_qty, 120, 'Wrong quantity in pack operation (%s found instead of 120)' % (PackdozA.product_uom_qty))
self.assertEqual(PackdozA.product_qty, 10, 'Wrong real quantity in pack operation (%s found instead of 10)' % (PackdozA.product_qty))
self.assertEqual(PackdozA.product_uom_id.id, self.uom_unit.id, 'Wrong uom in pack operation for product DozA.')
# Check pack operation quantity and unit of measure for product SDozA.
PackSdozA = self.StockPackObj.search([('product_id', '=', self.SDozA.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(PackSdozA.product_uom_qty, 1512, 'Wrong quantity in pack operation (%s found instead of 1512)' % (PackSdozA.product_uom_qty))
self.assertEqual(PackSdozA.product_uom_id.id, self.uom_unit.id, 'Wrong uom in pack operation for product SDozA.')
# Check pack operation quantity and unit of measure for product SDozARound.
PackSdozAround = self.StockPackObj.search([('product_id', '=', self.SDozARound.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(PackSdozAround.product_uom_qty, 1584, 'Wrong quantity in pack operation (%s found instead of 1584)' % (PackSdozAround.product_uom_qty))
self.assertEqual(PackSdozAround.product_uom_id.id, self.uom_unit.id, 'Wrong uom in pack operation for product SDozARound.')
# Check pack operation quantity and unit of measure for product gB.
packgB = self.StockPackObj.search([('product_id', '=', self.gB.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(packgB.product_uom_qty, 0.525, 'Wrong quantity in pack operation (%s found instead of 0.525)' % (packgB.product_uom_qty))
self.assertEqual(packgB.product_qty, 525, 'Wrong real quantity in pack operation (%s found instead of 525)' % (packgB.product_qty))
self.assertEqual(packgB.product_uom_id.id, packgB.move_id.product_uom.id, 'Wrong uom in pack operation for product kgB.')
# Check pack operation quantity and unit of measure for product kgB.
packkgB = self.StockPackObj.search([('product_id', '=', self.kgB.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(packkgB.product_uom_qty, 20.0, 'Wrong quantity in pack operation (%s found instead of 20)' % (packkgB.product_uom_qty))
self.assertEqual(packkgB.product_uom_id.id, self.uom_gm.id, 'Wrong uom in pack operation for product kgB')
# ----------------------------------------------------------------------
# Replace pack operation of incoming shipment.
# ----------------------------------------------------------------------
self.StockPackObj.search([('product_id', '=', self.kgB.id), ('picking_id', '=', picking_in_B.id)]).write({
'product_uom_qty': 0.020, 'product_uom_id': self.uom_kg.id})
self.StockPackObj.search([('product_id', '=', self.gB.id), ('picking_id', '=', picking_in_B.id)]).write({
'product_uom_qty': 526, 'product_uom_id': self.uom_gm.id})
self.StockPackObj.search([('product_id', '=', self.DozA.id), ('picking_id', '=', picking_in_B.id)]).write({
'product_uom_qty': 4, 'product_uom_id': self.uom_dozen.id})
self.StockPackObj.create({
'product_id': self.DozA.id,
'product_uom_qty': 48,
'product_uom_id': self.uom_unit.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'move_id': move_in_a.id
})
# -----------------
# Transfer product.
# -----------------
res_dict = picking_in_B.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
res_dict_for_back_order = wizard.process()
backorder_wizard = self.env[(res_dict_for_back_order.get('res_model'))].browse(res_dict_for_back_order.get('res_id'))
backorder_wizard.process()
# -----------------------------------------------------------------------
# Check incoming shipment
# -----------------------------------------------------------------------
# Check incoming shipment state.
self.assertEqual(picking_in_B.state, 'done', 'Incoming shipment state should be done.')
# Check incoming shipment move lines state.
for move in picking_in_B.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
# Check total done move lines for incoming shipment.
self.assertEqual(len(picking_in_B.move_lines), 5, 'Wrong number of move lines')
# Check product DozA done quantity.
moves_DozA = self.MoveObj.search([('product_id', '=', self.DozA.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(moves_DozA.product_uom_qty, 96, 'Wrong move quantity (%s found instead of 96)' % (moves_DozA.product_uom_qty))
self.assertEqual(moves_DozA.product_uom.id, self.uom_unit.id, 'Wrong uom in move for product DozA.')
# Check product SDozA done quantity.
moves_SDozA = self.MoveObj.search([('product_id', '=', self.SDozA.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(moves_SDozA.product_uom_qty, 1512, 'Wrong move quantity (%s found instead of 1512)' % (moves_SDozA.product_uom_qty))
self.assertEqual(moves_SDozA.product_uom.id, self.uom_unit.id, 'Wrong uom in move for product SDozA.')
# Check product SDozARound done quantity.
moves_SDozARound = self.MoveObj.search([('product_id', '=', self.SDozARound.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(moves_SDozARound.product_uom_qty, 1584, 'Wrong move quantity (%s found instead of 1584)' % (moves_SDozARound.product_uom_qty))
self.assertEqual(moves_SDozARound.product_uom.id, self.uom_unit.id, 'Wrong uom in move for product SDozARound.')
# Check product kgB done quantity.
moves_kgB = self.MoveObj.search([('product_id', '=', self.kgB.id), ('picking_id', '=', picking_in_B.id)], limit=1)
self.assertEqual(moves_kgB.product_uom_qty, 20, 'Wrong quantity in move (%s found instead of 20)' % (moves_kgB.product_uom_qty))
self.assertEqual(moves_kgB.product_uom.id, self.uom_gm.id, 'Wrong uom in move for product kgB.')
# Check two moves created for product gB with quantity (0.525 kg and 0.3 g)
moves_gB_kg = self.MoveObj.search([('product_id', '=', self.gB.id), ('picking_id', '=', picking_in_B.id), ('product_uom', '=', self.uom_kg.id)], limit=1)
self.assertEqual(moves_gB_kg.product_uom_qty, 0.526, 'Wrong move quantity (%s found instead of 0.526)' % (moves_gB_kg.product_uom_qty))
self.assertEqual(moves_gB_kg.product_uom.id, self.uom_kg.id, 'Wrong uom in move for product gB.')
# TODO Test extra move once the uom is editable in the move_lines
# ----------------------------------------------------------------------
# Check Back order of Incoming shipment.
# ----------------------------------------------------------------------
# Check back order created or not.
bo_in_B = self.PickingObj.search([('backorder_id', '=', picking_in_B.id)])
self.assertEqual(len(bo_in_B), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(bo_in_B.move_lines), 1, 'Wrong number of move lines')
# Check back order created with correct quantity and uom or not.
moves_DozA = self.MoveObj.search([('product_id', '=', self.DozA.id), ('picking_id', '=', bo_in_B.id)], limit=1)
self.assertEqual(moves_DozA.product_uom_qty, 24.0, 'Wrong move quantity (%s found instead of 0.525)' % (moves_DozA.product_uom_qty))
self.assertEqual(moves_DozA.product_uom.id, self.uom_unit.id, 'Wrong uom in move for product DozA.')
# ----------------------------------------------------------------------
# Check product stock location quantity and quantity available.
# ----------------------------------------------------------------------
# Check quants and available quantity for product DozA
quants = self.StockQuantObj.search([('product_id', '=', self.DozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 18, 'Expecting 18 Dozen , got %.4f Dozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.DozA.qty_available, 18, 'Wrong quantity available (%s found instead of 18)' % (self.DozA.qty_available))
# Check quants and available quantity for product SDozA
quants = self.StockQuantObj.search([('product_id', '=', self.SDozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 21, 'Expecting 21 SDozen , got %.4f SDozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozA.qty_available, 21, 'Wrong quantity available (%s found instead of 21)' % (self.SDozA.qty_available))
# Check quants and available quantity for product SDozARound
quants = self.StockQuantObj.search([('product_id', '=', self.SDozARound.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 22, 'Expecting 22 SDozenRound , got %.4f SDozenRound on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozARound.qty_available, 22, 'Wrong quantity available (%s found instead of 22)' % (self.SDozARound.qty_available))
# Check quants and available quantity for product gB.
quants = self.StockQuantObj.search([('product_id', '=', self.gB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(round(sum(total_qty), 1), 1051.3, 'Expecting 1051 Gram , got %.4f Gram on location stock!' % (sum(total_qty)))
self.assertEqual(round(self.gB.qty_available, 1), 1051.3, 'Wrong quantity available (%s found instead of 1051)' % (self.gB.qty_available))
# Check quants and available quantity for product kgB.
quants = self.StockQuantObj.search([('product_id', '=', self.kgB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 0.040, 'Expecting 0.040 kg , got %.4f kg on location stock!' % (sum(total_qty)))
self.assertEqual(self.kgB.qty_available, 0.040, 'Wrong quantity available (%s found instead of 0.040)' % (self.kgB.qty_available))
# ----------------------------------------------------------------------
# Create outgoing shipment.
# ----------------------------------------------------------------------
before_out_quantity = self.kgB.qty_available
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.kgB.name,
'product_id': self.kgB.id,
'product_uom_qty': 0.966,
'product_uom': self.uom_gm.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.kgB.name,
'product_id': self.kgB.id,
'product_uom_qty': 0.034,
'product_uom': self.uom_gm.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.action_confirm()
picking_out.action_assign()
res_dict = picking_out.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
# Check quantity difference after stock transfer.
quantity_diff = before_out_quantity - self.kgB.qty_available
self.assertEqual(float_round(quantity_diff, precision_rounding=0.0001), 0.001, 'Wrong quantity diffrence.')
self.assertEqual(self.kgB.qty_available, 0.039, 'Wrong quantity available (%s found instead of 0.039)' % (self.kgB.qty_available))
# ======================================================================
# Outgoing shipments.
# ======================================================================
# Create Outgoing shipment with ...
# product DozA ( 54 Unit ) , SDozA ( 288 Unit )
# product SDozRound ( 360 unit ) , product gB ( 0.503 kg )
# product kgB ( 19 g )
# ======================================================================
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.DozA.name,
'product_id': self.DozA.id,
'product_uom_qty': 54,
'product_uom': self.uom_unit.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.SDozA.name,
'product_id': self.SDozA.id,
'product_uom_qty': 288,
'product_uom': self.uom_unit.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.SDozARound.name,
'product_id': self.SDozARound.id,
'product_uom_qty': 361,
'product_uom': self.uom_unit.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.gB.name,
'product_id': self.gB.id,
'product_uom_qty': 0.503,
'product_uom': self.uom_kg.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.kgB.name,
'product_id': self.kgB.id,
'product_uom_qty': 20,
'product_uom': self.uom_gm.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# Confirm outgoing shipment.
picking_out.action_confirm()
for move in picking_out.move_lines:
self.assertEqual(move.state, 'confirmed', 'Wrong state of move line.')
# Assing product to outgoing shipments
picking_out.action_assign()
for move in picking_out.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# Check product A available quantity
DozA_qty = self.MoveObj.search([('product_id', '=', self.DozA.id), ('picking_id', '=', picking_out.id)], limit=1).product_qty
self.assertEqual(DozA_qty, 4.5, 'Wrong move quantity availability (%s found instead of 4.5)' % (DozA_qty))
# Check product B available quantity
SDozA_qty = self.MoveObj.search([('product_id', '=', self.SDozA.id), ('picking_id', '=', picking_out.id)], limit=1).product_qty
self.assertEqual(SDozA_qty, 2, 'Wrong move quantity availability (%s found instead of 2)' % (SDozA_qty))
# Check product C available quantity
SDozARound_qty = self.MoveObj.search([('product_id', '=', self.SDozARound.id), ('picking_id', '=', picking_out.id)], limit=1).product_qty
self.assertEqual(SDozARound_qty, 3, 'Wrong move quantity availability (%s found instead of 3)' % (SDozARound_qty))
# Check product D available quantity
gB_qty = self.MoveObj.search([('product_id', '=', self.gB.id), ('picking_id', '=', picking_out.id)], limit=1).product_qty
self.assertEqual(gB_qty, 503, 'Wrong move quantity availability (%s found instead of 503)' % (gB_qty))
# Check product D available quantity
kgB_qty = self.MoveObj.search([('product_id', '=', self.kgB.id), ('picking_id', '=', picking_out.id)], limit=1).product_qty
self.assertEqual(kgB_qty, 0.020, 'Wrong move quantity availability (%s found instead of 0.020)' % (kgB_qty))
res_dict = picking_out.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
# ----------------------------------------------------------------------
# Check product stock location quantity and quantity available.
# ----------------------------------------------------------------------
# Check quants and available quantity for product DozA
quants = self.StockQuantObj.search([('product_id', '=', self.DozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 13.5, 'Expecting 13.5 Dozen , got %.4f Dozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.DozA.qty_available, 13.5, 'Wrong quantity available (%s found instead of 13.5)' % (self.DozA.qty_available))
# Check quants and available quantity for product SDozA
quants = self.StockQuantObj.search([('product_id', '=', self.SDozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 19, 'Expecting 19 SDozen , got %.4f SDozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozA.qty_available, 19, 'Wrong quantity available (%s found instead of 19)' % (self.SDozA.qty_available))
# Check quants and available quantity for product SDozARound
quants = self.StockQuantObj.search([('product_id', '=', self.SDozARound.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 19, 'Expecting 19 SDozRound , got %.4f SDozRound on location stock!' % (sum(total_qty)))
self.assertEqual(self.SDozARound.qty_available, 19, 'Wrong quantity available (%s found instead of 19)' % (self.SDozARound.qty_available))
# Check quants and available quantity for product gB.
quants = self.StockQuantObj.search([('product_id', '=', self.gB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(round(sum(total_qty), 1), 548.3, 'Expecting 547.6 g , got %.4f g on location stock!' % (sum(total_qty)))
self.assertEqual(round(self.gB.qty_available, 1), 548.3, 'Wrong quantity available (%s found instead of 547.6)' % (self.gB.qty_available))
# Check quants and available quantity for product kgB.
quants = self.StockQuantObj.search([('product_id', '=', self.kgB.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 0.019, 'Expecting 0.019 kg , got %.4f kg on location stock!' % (sum(total_qty)))
self.assertEqual(self.kgB.qty_available, 0.019, 'Wrong quantity available (%s found instead of 0.019)' % (self.kgB.qty_available))
# ----------------------------------------------------------------------
# Receipt back order of incoming shipment.
# ----------------------------------------------------------------------
res_dict = bo_in_B.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
# Check quants and available quantity for product kgB.
quants = self.StockQuantObj.search([('product_id', '=', self.DozA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 15.5, 'Expecting 15.5 Dozen , got %.4f Dozen on location stock!' % (sum(total_qty)))
self.assertEqual(self.DozA.qty_available, 15.5, 'Wrong quantity available (%s found instead of 15.5)' % (self.DozA.qty_available))
# -----------------------------------------
# Create product in kg and receive in ton.
# -----------------------------------------
productKG = self.ProductObj.create({'name': 'Product KG', 'uom_id': self.uom_kg.id, 'uom_po_id': self.uom_kg.id, 'type': 'product'})
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': productKG.name,
'product_id': productKG.id,
'product_uom_qty': 1.0,
'product_uom': self.uom_tone.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
# Check incoming shipment state.
self.assertEqual(picking_in.state, 'draft', 'Incoming shipment state should be draft.')
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_in.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# Check pack operation quantity.
packKG = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', picking_in.id)], limit=1)
self.assertEqual(packKG.product_qty, 1000, 'Wrong product real quantity in pack operation (%s found instead of 1000)' % (packKG.product_qty))
self.assertEqual(packKG.product_uom_qty, 1, 'Wrong product quantity in pack operation (%s found instead of 1)' % (packKG.product_uom_qty))
self.assertEqual(packKG.product_uom_id.id, self.uom_tone.id, 'Wrong product uom in pack operation.')
# Transfer Incoming shipment.
res_dict = picking_in.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
# -----------------------------------------------------------------------
# Check incoming shipment after transfer.
# -----------------------------------------------------------------------
# Check incoming shipment state.
self.assertEqual(picking_in.state, 'done', 'Incoming shipment state: %s instead of %s' % (picking_in.state, 'done'))
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move lines.')
# Check total done move lines for incoming shipment.
self.assertEqual(len(picking_in.move_lines), 1, 'Wrong number of move lines')
# Check product DozA done quantity.
move = self.MoveObj.search([('product_id', '=', productKG.id), ('picking_id', '=', picking_in.id)], limit=1)
self.assertEqual(move.product_uom_qty, 1, 'Wrong product quantity in done move.')
self.assertEqual(move.product_uom.id, self.uom_tone.id, 'Wrong unit of measure in done move.')
self.assertEqual(productKG.qty_available, 1000, 'Wrong quantity available of product (%s found instead of 1000)' % (productKG.qty_available))
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': productKG.name,
'product_id': productKG.id,
'product_uom_qty': 2.5,
'product_uom': self.uom_gm.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.action_confirm()
picking_out.action_assign()
pack_opt = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', picking_out.id)], limit=1)
pack_opt.write({'product_uom_qty': 0.5})
res_dict = picking_out.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
res_dict_for_back_order = wizard.process()
backorder_wizard = self.env[(res_dict_for_back_order.get('res_model'))].browse(res_dict_for_back_order.get('res_id'))
backorder_wizard.process()
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
# Check total quantity stock location.
self.assertEqual(sum(total_qty), 999.9995, 'Expecting 999.9995 kg , got %.4f kg on location stock!' % (sum(total_qty)))
# ---------------------------------
# Check Back order created or not.
# ---------------------------------
bo_out_1 = self.PickingObj.search([('backorder_id', '=', picking_out.id)])
self.assertEqual(len(bo_out_1), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(bo_out_1.move_lines), 1, 'Wrong number of move lines')
moves_KG = self.MoveObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_1.id)], limit=1)
# Check back order created with correct quantity and uom or not.
self.assertEqual(moves_KG.product_uom_qty, 2.0, 'Wrong move quantity (%s found instead of 2.0)' % (moves_KG.product_uom_qty))
self.assertEqual(moves_KG.product_uom.id, self.uom_gm.id, 'Wrong uom in move for product KG.')
bo_out_1.action_assign()
pack_opt = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_1.id)], limit=1)
pack_opt.write({'product_uom_qty': 0.5})
res_dict = bo_out_1.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
res_dict_for_back_order = wizard.process()
backorder_wizard = self.env[(res_dict_for_back_order.get('res_model'))].browse(res_dict_for_back_order.get('res_id'))
backorder_wizard.process()
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
# Check total quantity stock location.
self.assertEqual(sum(total_qty), 999.9990, 'Expecting 999.9990 kg , got %.4f kg on location stock!' % (sum(total_qty)))
# Check Back order created or not.
# ---------------------------------
bo_out_2 = self.PickingObj.search([('backorder_id', '=', bo_out_1.id)])
self.assertEqual(len(bo_out_2), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(bo_out_2.move_lines), 1, 'Wrong number of move lines')
# Check back order created with correct move quantity and uom or not.
moves_KG = self.MoveObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_2.id)], limit=1)
self.assertEqual(moves_KG.product_uom_qty, 1.5, 'Wrong move quantity (%s found instead of 1.5)' % (moves_KG.product_uom_qty))
self.assertEqual(moves_KG.product_uom.id, self.uom_gm.id, 'Wrong uom in move for product KG.')
bo_out_2.action_assign()
pack_opt = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_2.id)], limit=1)
pack_opt.write({'product_uom_qty': 0.5})
res_dict = bo_out_2.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
res_dict_for_back_order = wizard.process()
backorder_wizard = self.env[(res_dict_for_back_order.get('res_model'))].browse(res_dict_for_back_order.get('res_id'))
backorder_wizard.process()
# Check total quantity stock location of product KG.
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 999.9985, 'Expecting 999.9985 kg , got %.4f kg on location stock!' % (sum(total_qty)))
# Check Back order created or not.
# ---------------------------------
bo_out_3 = self.PickingObj.search([('backorder_id', '=', bo_out_2.id)])
self.assertEqual(len(bo_out_3), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(bo_out_3.move_lines), 1, 'Wrong number of move lines')
# Check back order created with correct quantity and uom or not.
moves_KG = self.MoveObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_3.id)], limit=1)
self.assertEqual(moves_KG.product_uom_qty, 1, 'Wrong move quantity (%s found instead of 1.0)' % (moves_KG.product_uom_qty))
self.assertEqual(moves_KG.product_uom.id, self.uom_gm.id, 'Wrong uom in move for product KG.')
bo_out_3.action_assign()
pack_opt = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_3.id)], limit=1)
pack_opt.write({'product_uom_qty': 0.5})
res_dict = bo_out_3.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
res_dict_for_back_order = wizard.process()
backorder_wizard = self.env[(res_dict_for_back_order.get('res_model'))].browse(res_dict_for_back_order.get('res_id'))
backorder_wizard.process()
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 999.9980, 'Expecting 999.9980 kg , got %.4f kg on location stock!' % (sum(total_qty)))
# Check Back order created or not.
# ---------------------------------
bo_out_4 = self.PickingObj.search([('backorder_id', '=', bo_out_3.id)])
self.assertEqual(len(bo_out_4), 1, 'Back order should be created.')
# Check total move lines of back order.
self.assertEqual(len(bo_out_4.move_lines), 1, 'Wrong number of move lines')
# Check back order created with correct quantity and uom or not.
moves_KG = self.MoveObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_4.id)], limit=1)
self.assertEqual(moves_KG.product_uom_qty, 0.5, 'Wrong move quantity (%s found instead of 0.5)' % (moves_KG.product_uom_qty))
self.assertEqual(moves_KG.product_uom.id, self.uom_gm.id, 'Wrong uom in move for product KG.')
bo_out_4.action_assign()
pack_opt = self.StockPackObj.search([('product_id', '=', productKG.id), ('picking_id', '=', bo_out_4.id)], limit=1)
pack_opt.write({'product_uom_qty': 0.5})
res_dict = bo_out_4.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 999.9975, 'Expecting 999.9975 kg , got %.4f kg on location stock!' % (sum(total_qty)))
def test_20_create_inventory_with_different_uom(self):
"""Create inventory with different unit of measure."""
# ------------------------------------------------
# Test inventory with product A(Unit).
# ------------------------------------------------
inventory = self.InvObj.create({'name': 'Test',
'product_id': self.UnitA.id,
'filter': 'product'})
inventory.action_start()
self.assertFalse(inventory.line_ids, "Inventory line should not created.")
inventory_line = self.InvLineObj.create({
'inventory_id': inventory.id,
'product_id': self.UnitA.id,
'product_uom_id': self.uom_dozen.id,
'product_qty': 10,
'location_id': self.stock_location})
inventory.action_done()
# Check quantity available of product UnitA.
quants = self.StockQuantObj.search([('product_id', '=', self.UnitA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 120, 'Expecting 120 Units , got %.4f Units on location stock!' % (sum(total_qty)))
self.assertEqual(self.UnitA.qty_available, 120, 'Expecting 120 Units , got %.4f Units of quantity available!' % (self.UnitA.qty_available))
# Create Inventory again for product UnitA.
inventory = self.InvObj.create({'name': 'Test',
'product_id': self.UnitA.id,
'filter': 'product'})
inventory.action_start()
self.assertEqual(len(inventory.line_ids), 1, "One inventory line should be created.")
inventory_line = self.InvLineObj.search([('product_id', '=', self.UnitA.id), ('inventory_id', '=', inventory.id)], limit=1)
self.assertEqual(inventory_line.product_qty, 120, "Wrong product quantity in inventory line.")
# Modify the inventory line and set the quantity to 144 product on this new inventory.
inventory_line.write({'product_qty': 144})
inventory.action_done()
move = self.MoveObj.search([('product_id', '=', self.UnitA.id), ('inventory_id', '=', inventory.id)], limit=1)
self.assertEqual(move.product_uom_qty, 24, "Wrong move quantity of product UnitA.")
# Check quantity available of product UnitA.
quants = self.StockQuantObj.search([('product_id', '=', self.UnitA.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 144, 'Expecting 144 Units , got %.4f Units on location stock!' % (sum(total_qty)))
self.UnitA._compute_quantities()
self.assertEqual(self.UnitA.qty_available, 144, 'Expecting 144 Units , got %.4f Units of quantity available!' % (self.UnitA.qty_available))
# ------------------------------------------------
# Test inventory with product KG.
# ------------------------------------------------
productKG = self.ProductObj.create({'name': 'Product KG', 'uom_id': self.uom_kg.id, 'uom_po_id': self.uom_kg.id, 'type': 'product'})
inventory = self.InvObj.create({'name': 'Inventory Product KG',
'product_id': productKG.id,
'filter': 'product'})
inventory.action_start()
self.assertFalse(inventory.line_ids, "Inventory line should not created.")
inventory_line = self.InvLineObj.create({
'inventory_id': inventory.id,
'product_id': productKG.id,
'product_uom_id': self.uom_tone.id,
'product_qty': 5,
'location_id': self.stock_location})
inventory.action_done()
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 5000, 'Expecting 5000 kg , got %.4f kg on location stock!' % (sum(total_qty)))
self.assertEqual(productKG.qty_available, 5000, 'Expecting 5000 kg , got %.4f kg of quantity available!' % (productKG.qty_available))
# Create Inventory again.
inventory = self.InvObj.create({'name': 'Test',
'product_id': productKG.id,
'filter': 'product'})
inventory.action_start()
self.assertEqual(len(inventory.line_ids), 1, "One inventory line should be created.")
inventory_line = self.InvLineObj.search([('product_id', '=', productKG.id), ('inventory_id', '=', inventory.id)], limit=1)
self.assertEqual(inventory_line.product_qty, 5000, "Wrong product quantity in inventory line.")
# Modify the inventory line and set the quantity to 4000 product on this new inventory.
inventory_line.write({'product_qty': 4000})
inventory.action_done()
# Check inventory move quantity of product KG.
move = self.MoveObj.search([('product_id', '=', productKG.id), ('inventory_id', '=', inventory.id)], limit=1)
self.assertEqual(move.product_uom_qty, 1000, "Wrong move quantity of product KG.")
# Check quantity available of product KG.
quants = self.StockQuantObj.search([('product_id', '=', productKG.id), ('location_id', '=', self.stock_location)])
total_qty = [quant.quantity for quant in quants]
self.assertEqual(sum(total_qty), 4000, 'Expecting 4000 kg , got %.4f on location stock!' % (sum(total_qty)))
productKG._compute_quantities()
self.assertEqual(productKG.qty_available, 4000, 'Expecting 4000 kg , got %.4f of quantity available!' % (productKG.qty_available))
# --------------------------------------------------------
# TEST PARTIAL INVENTORY WITH PACKS and LOTS
# ---------------------------------------------------------
packproduct = self.ProductObj.create({'name': 'Pack Product', 'uom_id': self.uom_unit.id, 'uom_po_id': self.uom_unit.id, 'type': 'product'})
lotproduct = self.ProductObj.create({'name': 'Lot Product', 'uom_id': self.uom_unit.id, 'uom_po_id': self.uom_unit.id, 'type': 'product'})
inventory = self.InvObj.create({'name': 'Test Partial and Pack',
'filter': 'partial',
'location_id': self.stock_location})
inventory.action_start()
pack_obj = self.env['stock.quant.package']
lot_obj = self.env['stock.production.lot']
pack1 = pack_obj.create({'name': 'PACK00TEST1'})
pack_obj.create({'name': 'PACK00TEST2'})
lot1 = lot_obj.create({'name': 'Lot001', 'product_id': lotproduct.id})
move = self.MoveObj.search([('product_id', '=', productKG.id), ('inventory_id', '=', inventory.id)], limit=1)
self.assertEqual(len(move), 0, "Partial filter should not create a lines upon prepare")
line_vals = []
line_vals += [{'location_id': self.stock_location, 'product_id': packproduct.id, 'product_qty': 10, 'product_uom_id': packproduct.uom_id.id}]
line_vals += [{'location_id': self.stock_location, 'product_id': packproduct.id, 'product_qty': 20, 'product_uom_id': packproduct.uom_id.id, 'package_id': pack1.id}]
line_vals += [{'location_id': self.stock_location, 'product_id': lotproduct.id, 'product_qty': 30, 'product_uom_id': lotproduct.uom_id.id, 'prod_lot_id': lot1.id}]
line_vals += [{'location_id': self.stock_location, 'product_id': lotproduct.id, 'product_qty': 25, 'product_uom_id': lotproduct.uom_id.id, 'prod_lot_id': False}]
inventory.write({'line_ids': [(0, 0, x) for x in line_vals]})
inventory.action_done()
self.assertEqual(packproduct.qty_available, 30, "Wrong qty available for packproduct")
self.assertEqual(lotproduct.qty_available, 55, "Wrong qty available for lotproduct")
quants = self.StockQuantObj.search([('product_id', '=', packproduct.id), ('location_id', '=', self.stock_location), ('package_id', '=', pack1.id)])
total_qty = sum([quant.quantity for quant in quants])
self.assertEqual(total_qty, 20, 'Expecting 20 units on package 1 of packproduct, but we got %.4f on location stock!' % (total_qty))
# Create an inventory that will put the lots without lot to 0 and check that taking without pack will not take it from the pack
inventory2 = self.InvObj.create({'name': 'Test Partial Lot and Pack2',
'filter': 'partial',
'location_id': self.stock_location})
inventory2.action_start()
line_vals = []
line_vals += [{'location_id': self.stock_location, 'product_id': packproduct.id, 'product_qty': 20, 'product_uom_id': packproduct.uom_id.id}]
line_vals += [{'location_id': self.stock_location, 'product_id': lotproduct.id, 'product_qty': 0, 'product_uom_id': lotproduct.uom_id.id, 'prod_lot_id': False}]
line_vals += [{'location_id': self.stock_location, 'product_id': lotproduct.id, 'product_qty': 10, 'product_uom_id': lotproduct.uom_id.id, 'prod_lot_id': lot1.id}]
inventory2.write({'line_ids': [(0, 0, x) for x in line_vals]})
inventory2.action_done()
self.assertEqual(packproduct.qty_available, 40, "Wrong qty available for packproduct")
self.assertEqual(lotproduct.qty_available, 10, "Wrong qty available for lotproduct")
quants = self.StockQuantObj.search([('product_id', '=', lotproduct.id), ('location_id', '=', self.stock_location), ('lot_id', '=', lot1.id)])
total_qty = sum([quant.quantity for quant in quants])
self.assertEqual(total_qty, 10, 'Expecting 0 units lot of lotproduct, but we got %.4f on location stock!' % (total_qty))
quants = self.StockQuantObj.search([('product_id', '=', lotproduct.id), ('location_id', '=', self.stock_location), ('lot_id', '=', False)])
total_qty = sum([quant.quantity for quant in quants])
self.assertEqual(total_qty, 0, 'Expecting 0 units lot of lotproduct, but we got %.4f on location stock!' % (total_qty))
# check product available of saleable category in stock location
category_id = self.ref('product.product_category_5')
inventory3 = self.InvObj.create({
'name': 'Test Category',
'filter': 'category',
'location_id': self.stock_location,
'category_id': category_id
})
# Start Inventory
inventory3.action_start()
# check all products have given category id
products_category = inventory3.line_ids.mapped('product_id.categ_id')
self.assertEqual(len(products_category), 1, "Inventory line should have only one category")
inventory3.action_done()
# check category with exhausted in stock location
inventory4 = self.InvObj.create({
'name': 'Test Exhausted Product',
'filter': 'category',
'location_id': self.stock_location,
'category_id': category_id,
'exhausted': True,
})
inventory4.action_start()
inventory4._get_inventory_lines_values()
inventory4_lines_count = len(inventory4.line_ids)
inventory4.action_done()
# Add one product in this product category
product = self.ProductObj.create({'name': 'Product A', 'type': 'product', 'categ_id': category_id})
# Check that this exhausted product is in the product category inventory adjustment
inventory5 = self.InvObj.create({
'name': 'Test Exhausted Product',
'filter': 'category',
'location_id': self.stock_location,
'category_id': category_id,
'exhausted': True,
})
inventory5.action_start()
inventory5._get_inventory_lines_values()
inventory5_lines_count = len(inventory5.line_ids)
inventory5.action_done()
self.assertEqual(inventory5_lines_count, inventory4_lines_count + 1, "The new product is not taken into account in the inventory valuation.")
self.assertTrue(product.id in inventory5.line_ids.mapped('product_id').ids, "The new product is not take into account in the inventory valuation.")
def test_30_check_with_no_incoming_lot(self):
""" Picking in without lots and picking out with"""
# Change basic operation type not to get lots
# Create product with lot tracking
picking_in = self.env['stock.picking.type'].browse(self.picking_type_in)
picking_in.use_create_lots = False
self.productA.tracking = 'lot'
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 4,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_in.id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_in.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
res_dict = picking_in.button_validate()
wizard = self.env[(res_dict.get('res_model'))].browse(res_dict.get('res_id'))
wizard.process()
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'name': 'testpicking',
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_out = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 3,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.action_confirm()
picking_out.action_assign()
pack_opt = self.StockPackObj.search([('picking_id', '=', picking_out.id)], limit=1)
lot1 = self.LotObj.create({'product_id': self.productA.id, 'name': 'LOT1'})
lot2 = self.LotObj.create({'product_id': self.productA.id, 'name': 'LOT2'})
lot3 = self.LotObj.create({'product_id': self.productA.id, 'name': 'LOT3'})
pack_opt.write({'lot_id': lot1.id, 'qty_done': 1.0})
self.StockPackObj.create({'product_id': self.productA.id, 'move_id': move_out.id, 'product_uom_id': move_out.product_uom.id, 'lot_id': lot2.id, 'qty_done': 1.0, 'location_id': self.stock_location, 'location_dest_id': self.customer_location})
self.StockPackObj.create({'product_id': self.productA.id, 'move_id': move_out.id, 'product_uom_id': move_out.product_uom.id, 'lot_id': lot3.id, 'qty_done': 2.0, 'location_id': self.stock_location, 'location_dest_id': self.customer_location})
picking_out.action_done()
quants = self.StockQuantObj.search([('product_id', '=', self.productA.id), ('location_id', '=', self.stock_location)])
# TODO wait sle fix
# self.assertFalse(quants, 'Should not have any quants in stock anymore')
def test_40_pack_in_pack(self):
""" Put a pack in pack"""
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.pack_location,
'location_dest_id': self.customer_location})
move_out = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 3,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.pack_location,
'location_dest_id': self.customer_location})
picking_pack = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.pack_location})
move_pack = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 3,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_pack.id,
'location_id': self.stock_location,
'location_dest_id': self.pack_location,
'move_dest_ids': [(4, move_out.id, 0)]})
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
move_in = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 3,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location,
'move_dest_ids': [(4, move_pack.id, 0)]})
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_in.action_confirm()
# Check incoming shipment move lines state.
for move in picking_in.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# Check incoming shipment move lines state.
for move in picking_pack.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_pack.action_confirm()
# Check incoming shipment move lines state.
for move in picking_pack.move_lines:
self.assertEqual(move.state, 'waiting', 'Wrong state of move line.')
# Check incoming shipment move lines state.
for move in picking_out.move_lines:
self.assertEqual(move.state, 'draft', 'Wrong state of move line.')
# Confirm incoming shipment.
picking_out.action_confirm()
# Check incoming shipment move lines state.
for move in picking_out.move_lines:
self.assertEqual(move.state, 'waiting', 'Wrong state of move line.')
# Set the quantity done on the pack operation
move_in.move_line_ids.qty_done = 3.0
# Put in a pack
picking_in.put_in_pack()
# Get the new package
picking_in_package = move_in.move_line_ids.result_package_id
# Validate picking
picking_in.action_done()
# Check first picking state changed to done
for move in picking_in.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
# Check next picking state changed to 'assigned'
for move in picking_pack.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# Set the quantity done on the pack operation
move_pack.move_line_ids.qty_done = 3.0
# Get the new package
picking_pack_package = move_pack.move_line_ids.result_package_id
# Validate picking
picking_pack.action_done()
# Check second picking state changed to done
for move in picking_pack.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
# Check next picking state changed to 'assigned'
for move in picking_out.move_lines:
self.assertEqual(move.state, 'assigned', 'Wrong state of move line.')
# Validate picking
picking_out.move_line_ids.qty_done = 3.0
picking_out_package = move_out.move_line_ids.result_package_id
picking_out.action_done()
# check all pickings are done
for move in picking_in.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
for move in picking_pack.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
for move in picking_out.move_lines:
self.assertEqual(move.state, 'done', 'Wrong state of move line.')
# Check picking_in_package is in picking_pack_package
self.assertEqual(picking_in_package.id, picking_pack_package.id, 'The package created in the picking in is not in the one created in picking pack')
self.assertEqual(picking_pack_package.id, picking_out_package.id, 'The package created in the picking in is not in the one created in picking pack')
# Check that we have one quant in customer location.
quant = self.StockQuantObj.search([('product_id', '=', self.productA.id), ('location_id', '=', self.customer_location)])
self.assertEqual(len(quant), 1, 'There should be one quant with package for customer location')
# Check that the parent package of the quant is the picking_in_package
def test_50_create_in_out_with_product_pack_lines(self):
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.productE.name,
'product_id': self.productE.id,
'product_uom_qty': 10,
'product_uom': self.productE.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
picking_in.action_confirm()
pack_obj = self.env['stock.quant.package']
pack1 = pack_obj.create({'name': 'PACKINOUTTEST1'})
pack2 = pack_obj.create({'name': 'PACKINOUTTEST2'})
picking_in.move_line_ids[0].result_package_id = pack1
picking_in.move_line_ids[0].qty_done = 4
packop2 = picking_in.move_line_ids[0].with_context(bypass_reservation_update=True).copy({'product_uom_qty': 0})
packop2.qty_done = 6
packop2.result_package_id = pack2
picking_in.action_done()
quants = self.env['stock.quant']._gather(self.productE, self.env['stock.location'].browse(self.stock_location))
self.assertEqual(sum([x.quantity for x in quants]), 10.0, 'Expecting 10 pieces in stock')
# Check the quants are in the package
self.assertEqual(sum(x.quantity for x in pack1.quant_ids), 4.0, 'Pack 1 should have 4 pieces')
self.assertEqual(sum(x.quantity for x in pack2.quant_ids), 6.0, 'Pack 2 should have 6 pieces')
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.productE.name,
'product_id': self.productE.id,
'product_uom_qty': 3,
'product_uom': self.productE.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.action_confirm()
picking_out.action_assign()
packout1 = picking_out.move_line_ids[0]
packout2 = picking_out.move_line_ids[0].with_context(bypass_reservation_update=True).copy({'product_uom_qty': 0})
packout1.qty_done = 2
packout1.package_id = pack1
packout2.package_id = pack2
packout2.qty_done = 1
picking_out.action_done()
# Should be only 1 negative quant in supplier location
neg_quants = self.env['stock.quant'].search([('product_id', '=', self.productE.id), ('quantity', '<', 0.0)])
self.assertEqual(len(neg_quants), 1, 'There should be 1 negative quants for supplier!')
self.assertEqual(neg_quants.location_id.id, self.supplier_location, 'There shoud be 1 negative quants for supplier!')
quants = self.env['stock.quant']._gather(self.productE, self.env['stock.location'].browse(self.stock_location))
self.assertEqual(len(quants), 2, 'We should have exactly 2 quants in the end')
def test_60_create_in_out_with_product_pack_lines(self):
picking_in = self.PickingObj.create({
'partner_id': self.partner_delta_id,
'picking_type_id': self.picking_type_in,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
self.MoveObj.create({
'name': self.productE.name,
'product_id': self.productE.id,
'product_uom_qty': 200,
'product_uom': self.productE.uom_id.id,
'picking_id': picking_in.id,
'location_id': self.supplier_location,
'location_dest_id': self.stock_location})
picking_in.action_confirm()
pack_obj = self.env['stock.quant.package']
pack1 = pack_obj.create({'name': 'PACKINOUTTEST1'})
pack2 = pack_obj.create({'name': 'PACKINOUTTEST2'})
picking_in.move_line_ids[0].result_package_id = pack1
picking_in.move_line_ids[0].qty_done = 120
packop2 = picking_in.move_line_ids[0].with_context(bypass_reservation_update=True).copy({'product_uom_qty': 0})
packop2.qty_done = 80
packop2.result_package_id = pack2
picking_in.action_done()
quants = self.env['stock.quant']._gather(self.productE, self.env['stock.location'].browse(self.stock_location))
self.assertEqual(sum([x.quantity for x in quants]), 200.0, 'Expecting 200 pieces in stock')
# Check the quants are in the package
self.assertEqual(sum(x.quantity for x in pack1.quant_ids), 120, 'Pack 1 should have 120 pieces')
self.assertEqual(sum(x.quantity for x in pack2.quant_ids), 80, 'Pack 2 should have 80 pieces')
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.productE.name,
'product_id': self.productE.id,
'product_uom_qty': 200,
'product_uom': self.productE.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.action_confirm()
picking_out.action_assign()
# Convert entire packs into taking out of packs
packout0 = picking_out.move_line_ids[0]
packout1 = picking_out.move_line_ids[1]
packout0.write({
'package_id': pack1.id,
'product_id': self.productE.id,
'qty_done': 120.0,
'product_uom_id': self.productE.uom_id.id,
})
packout1.write({
'package_id': pack2.id,
'product_id': self.productE.id,
'qty_done': 80.0,
'product_uom_id': self.productE.uom_id.id,
})
picking_out.action_done()
# Should be only 1 negative quant in supplier location
neg_quants = self.env['stock.quant'].search([('product_id', '=', self.productE.id), ('quantity', '<', 0.0)])
self.assertEqual(len(neg_quants), 1, 'There should be 1 negative quants for supplier!')
self.assertEqual(neg_quants.location_id.id, self.supplier_location, 'There shoud be 1 negative quants for supplier!')
# We should also make sure that when matching stock moves with pack operations, it takes the correct
quants = self.env['stock.quant']._gather(self.productE, self.env['stock.location'].browse(self.stock_location))
self.assertEqual(len(quants), 0, 'We should have no quants in the end')
def test_70_picking_state_all_at_once_reserve(self):
""" This test will check that the state of the picking is correctly computed according
to the state of its move lines and its move type.
"""
# move_type: direct == partial, one == all at once
# picking: confirmed == waiting availability
# -----------------------------------------------------------
# "all at once" and "reserve" scenario
# -----------------------------------------------------------
# get one product in stock
inventory = self.env['stock.inventory'].create({
'name': 'Inventory Product Table',
'filter': 'partial',
'line_ids': [(0, 0, {
'product_id': self.productA.id,
'product_uom_id': self.productA.uom_id.id,
'product_qty': 1,
'location_id': self.stock_location
})]
})
inventory.action_done()
# create a "all at once" delivery order for two products
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.move_type = 'one'
self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 2,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# validate this delivery order, it should be in the waiting state
picking_out.action_assign()
self.assertEquals(picking_out.state, "confirmed")
# receive one product in stock
inventory = self.env['stock.inventory'].create({
'name': 'Inventory Product Table',
'filter': 'partial',
'line_ids': [(0, 0, {
'product_id': self.productA.id,
'product_uom_id': self.productA.uom_id.id,
'product_qty': 2,
'location_id': self.stock_location
})]
})
inventory.action_done()
# recheck availability of the delivery order, it should be assigned
picking_out.action_assign()
self.assertEquals(len(picking_out.move_lines), 1.0)
self.assertEquals(picking_out.move_lines.product_qty, 2.0)
self.assertEquals(picking_out.state, "assigned")
def test_71_picking_state_all_at_once_force_assign(self):
""" This test will check that the state of the picking is correctly computed according
to the state of its move lines and its move type.
"""
# move_type: direct == partial, one == all at once
# picking: confirmed == waiting availability, partially_available = partially available
# -----------------------------------------------------------
# "all at once" and "force assign" scenario
# -----------------------------------------------------------
# create a "all at once" delivery order for two products
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.move_type = 'direct'
self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 2,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# validate this delivery order, it should be in the waiting state
picking_out.action_assign()
self.assertEquals(picking_out.state, "confirmed")
# force assign on the delivery order, it should be assigned
picking_out.force_assign()
self.assertEquals(picking_out.state, "assigned")
def test_72_picking_state_partial_reserve(self):
""" This test will check that the state of the picking is correctly computed according
to the state of its move lines and its move type.
"""
# move_type: direct == partial, one == all at once
# picking: confirmed == waiting availability, partially_available = partially available
# -----------------------------------------------------------
# "partial" and "reserve" scenario
# -----------------------------------------------------------
# get one product in stock
inventory = self.env['stock.inventory'].create({
'name': 'Inventory Product Table',
'filter': 'partial',
'line_ids': [(0, 0, {
'product_id': self.productA.id,
'product_uom_id': self.productA.uom_id.id,
'product_qty': 1,
'location_id': self.stock_location
})]
})
inventory.action_done()
# create a "partial" delivery order for two products
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.move_type = 'direct'
self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 2,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# validate this delivery order, it should be in partially available
picking_out.action_assign()
self.assertEquals(picking_out.state, "assigned")
# receive one product in stock
inventory = self.env['stock.inventory'].create({
'name': 'Inventory Product Table',
'filter': 'partial',
'line_ids': [(0, 0, {
'product_id': self.productA.id,
'product_uom_id': self.productA.uom_id.id,
'product_qty': 2,
'location_id': self.stock_location
})]
})
inventory.action_done()
# recheck availability of the delivery order, it should be assigned
picking_out.action_assign()
self.assertEquals(picking_out.state, "assigned")
def test_73_picking_state_partial_force_assign(self):
""" This test will check that the state of the picking is correctly computed according
to the state of its move lines and its move type.
"""
# move_type: direct == partial, one == all at once
# picking: confirmed == waiting availability, partially_available = partially available
# -----------------------------------------------------------
# "partial" and "force assign" scenario
# -----------------------------------------------------------
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
picking_out.move_type = 'direct'
self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 2,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
# validate this delivery order, it should be in the waiting state
picking_out.action_assign()
self.assertEquals(picking_out.state, "confirmed")
# force assign on the delivery order, it should be assigned
picking_out.force_assign()
self.assertEquals(picking_out.state, "assigned")
def test_74_move_state_waiting_mto(self):
""" This test will check that when a move is unreserved, its state changes to 'waiting' if
it has ancestors or if it has a 'procure_method' equal to 'make_to_order' else the state
changes to 'confirmed'.
"""
picking_out = self.PickingObj.create({
'partner_id': self.partner_agrolite_id,
'picking_type_id': self.picking_type_out,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
move_mto_alone = self.MoveObj.create({
'name': self.productA.name,
'product_id': self.productA.id,
'product_uom_qty': 2,
'product_uom': self.productA.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location,
'procure_method': 'make_to_order'})
move_with_ancestors = self.MoveObj.create({
'name': self.productB.name,
'product_id': self.productB.id,
'product_uom_qty': 2,
'product_uom': self.productB.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
self.MoveObj.create({
'name': self.productB.name,
'product_id': self.productB.id,
'product_uom_qty': 2,
'product_uom': self.productB.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location,
'move_dest_ids': [(4, move_with_ancestors.id, 0)]})
other_move = self.MoveObj.create({
'name': self.productC.name,
'product_id': self.productC.id,
'product_uom_qty': 2,
'product_uom': self.productC.uom_id.id,
'picking_id': picking_out.id,
'location_id': self.stock_location,
'location_dest_id': self.customer_location})
with self.assertRaises(UserError):
move_mto_alone._action_confirm()
move_with_ancestors._action_confirm()
other_move._action_confirm()
move_mto_alone._do_unreserve()
move_with_ancestors._do_unreserve()
other_move._do_unreserve()
self.assertEquals(move_mto_alone.state, "draft")
self.assertEquals(move_with_ancestors.state, "waiting")
self.assertEquals(other_move.state, "confirmed")
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