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oca-ocb-mrp/odoo-bringout-oca-ocb-mrp/mrp/models/mrp_workorder.py
Ernad Husremovic 6e65e8c877 19.0 vanilla
2026-03-09 09:31:47 +01:00

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# Part of Odoo. See LICENSE file for full copyright and licensing details.
from datetime import datetime, timedelta
from dateutil.relativedelta import relativedelta
from collections import defaultdict
import json
from odoo import Command, _, api, fields, models
from odoo.exceptions import UserError, ValidationError
from odoo.tools import format_datetime, float_round
from odoo.tools.date_utils import sum_intervals
from odoo.tools.intervals import Intervals
class MrpWorkorder(models.Model):
_name = 'mrp.workorder'
_description = 'Work Order'
_order = 'sequence, leave_id, date_start, id'
def _default_sequence(self):
return self.operation_id.sequence or 100
def _read_group_workcenter_id(self, workcenters, domain):
workcenter_ids = self.env.context.get('default_workcenter_id')
if not workcenter_ids:
# bypass ir.model.access checks, but search with ir.rules
search_domain = self.env['ir.rule']._compute_domain(workcenters._name)
workcenter_ids = workcenters.sudo()._search(search_domain, order=workcenters._order)
return workcenters.browse(workcenter_ids)
name = fields.Char(
'Work Order', required=True)
sequence = fields.Integer("Sequence", default=_default_sequence)
barcode = fields.Char(compute='_compute_barcode', store=True)
workcenter_id = fields.Many2one(
'mrp.workcenter', 'Work Center', required=True, index=True,
group_expand='_read_group_workcenter_id', check_company=True)
working_state = fields.Selection(
string='Workcenter Status', related='workcenter_id.working_state') # technical: used in views only
product_id = fields.Many2one(related='production_id.product_id')
product_tracking = fields.Selection(related="product_id.tracking")
product_uom_id = fields.Many2one(related='production_id.product_uom_id')
product_variant_attributes = fields.Many2many('product.template.attribute.value', related='product_id.product_template_attribute_value_ids')
production_id = fields.Many2one('mrp.production', 'Manufacturing Order', required=True, check_company=True, readonly=True, index='btree')
production_availability = fields.Selection(
string='Stock Availability', readonly=True,
related='production_id.reservation_state', store=True) # Technical: used in views and domains only
production_state = fields.Selection(
string='Production State', readonly=True,
related='production_id.state') # Technical: used in views only
production_bom_id = fields.Many2one('mrp.bom', related='production_id.bom_id')
qty_production = fields.Float('Original Production Quantity', readonly=True, related='production_id.product_qty')
company_id = fields.Many2one(related='production_id.company_id')
qty_producing = fields.Float(
compute='_compute_qty_producing', inverse='_set_qty_producing',
string='Currently Produced Quantity', digits='Product Unit')
qty_remaining = fields.Float('Quantity To Be Produced', compute='_compute_qty_remaining', digits='Product Unit')
qty_produced = fields.Float(
'Quantity Done', default=0.0,
digits='Product Unit',
copy=False,
help="The number of products already handled by this work order")
qty_ready = fields.Float('Quantity Ready', compute='_compute_qty_ready', digits='Product Unit')
is_produced = fields.Boolean(string="Has Been Produced",
compute='_compute_is_produced')
state = fields.Selection([
('blocked', 'Blocked'),
('ready', 'To Do'),
('progress', 'In Progress'),
('done', 'Finished'),
('cancel', 'Cancelled')], string='Status',
compute='_compute_state', store=True,
default='ready', copy=False, index=True)
leave_id = fields.Many2one(
'resource.calendar.leaves',
help='Slot into workcenter calendar once planned',
check_company=True, copy=False)
date_start = fields.Datetime(
'Start',
compute='_compute_dates',
inverse='_set_dates',
store=True, copy=False)
date_finished = fields.Datetime(
'End',
compute='_compute_dates',
inverse='_set_dates',
store=True, copy=False)
duration_expected = fields.Float(
'Expected Duration', digits=(16, 2), compute='_compute_duration_expected',
readonly=False, store=True) # in minutes
duration = fields.Float(
'Real Duration', compute='_compute_duration', inverse='_set_duration',
readonly=False, store=True, copy=False)
duration_unit = fields.Float(
'Duration Per Unit', compute='_compute_duration',
aggregator="avg", readonly=True, store=True)
duration_percent = fields.Integer(
'Duration Deviation (%)', compute='_compute_duration',
aggregator="avg", readonly=True, store=True)
progress = fields.Float('Progress Done (%)', digits=(16, 2), compute='_compute_progress')
operation_id = fields.Many2one(
'mrp.routing.workcenter', 'Operation', check_company=True, index='btree_not_null')
# Should be used differently as BoM can change in the meantime
move_raw_ids = fields.One2many(
'stock.move', 'workorder_id', 'Raw Moves',
domain=[('raw_material_production_id', '!=', False), ('production_id', '=', False)])
move_finished_ids = fields.One2many(
'stock.move', 'workorder_id', 'Finished Moves',
domain=[('raw_material_production_id', '=', False), ('production_id', '!=', False)])
move_line_ids = fields.One2many(
'stock.move.line', 'workorder_id', 'Moves to Track',
help="Inventory moves for which you must scan a lot number at this work order")
finished_lot_ids = fields.Many2many(
'stock.lot', string='Lot/Serial Numbers', related='production_id.lot_producing_ids',
domain="[('product_id', '=', product_id), ('company_id', '=', company_id)]",
readonly=False, check_company=True)
time_ids = fields.One2many(
'mrp.workcenter.productivity', 'workorder_id', copy=False)
is_user_working = fields.Boolean(
'Is the Current User Working', compute='_compute_working_users') # technical: is the current user working
working_user_ids = fields.One2many('res.users', string='Working user on this work order.', compute='_compute_working_users')
last_working_user_id = fields.Many2one('res.users', string='Last user that worked on this work order.', compute='_compute_working_users')
costs_hour = fields.Float(
string='Cost per hour',
default=0.0, aggregator="avg")
# Technical field to store the hourly cost of workcenter at time of work order completion (i.e. to keep a consistent cost).',
cost_mode = fields.Selection([('actual', 'Actual'), ('estimated', 'Estimated')], default='actual')
# Technical field to store the cost_mode of a workorder in case it is changed on the operation_id later on.
# This field should only be changed once at MO confirmation and should reflect the cost_mode of the operation_id.
scrap_ids = fields.One2many('stock.scrap', 'workorder_id')
scrap_count = fields.Integer(compute='_compute_scrap_move_count', string='Scrap Move')
production_date = fields.Datetime('Production Date', compute='_compute_production_date', store=True)
json_popover = fields.Char('Popover Data JSON', compute='_compute_json_popover')
show_json_popover = fields.Boolean('Show Popover?', compute='_compute_json_popover')
consumption = fields.Selection(related='production_id.consumption')
qty_reported_from_previous_wo = fields.Float('Carried Quantity', digits='Product Unit', copy=False,
help="The quantity already produced awaiting allocation in the backorders chain.")
is_planned = fields.Boolean(related='production_id.is_planned')
allow_workorder_dependencies = fields.Boolean(related='production_id.allow_workorder_dependencies')
blocked_by_workorder_ids = fields.Many2many('mrp.workorder', relation="mrp_workorder_dependencies_rel",
column1="workorder_id", column2="blocked_by_id", string="Blocked By",
domain="[('allow_workorder_dependencies', '=', True), ('id', '!=', id), ('production_id', '=', production_id)]",
copy=False)
needed_by_workorder_ids = fields.Many2many('mrp.workorder', relation="mrp_workorder_dependencies_rel",
column1="blocked_by_id", column2="workorder_id", string="Blocks",
domain="[('allow_workorder_dependencies', '=', True), ('id', '!=', id), ('production_id', '=', production_id)]",
copy=False)
@api.depends('qty_ready')
def _compute_state(self):
for workorder in self:
if not workorder.product_uom_id or workorder.state not in ('blocked', 'ready'):
continue
has_qty_ready = workorder.product_uom_id.compare(workorder.qty_ready, 0) > 0
if has_qty_ready:
workorder.write({'state': 'ready'})
else:
workorder.write({'state': 'blocked'})
def set_state(self, state):
ids_to_update = []
for wo in self:
if wo.state == state or 'done' in (wo.state, wo.production_state):
continue
if wo.state == 'progress':
wo.button_pending()
elif wo.state in ('done', 'cancel') and state == 'progress':
wo.write({'state': 'ready'}) # Middle step to solve further conflict
ids_to_update.append(wo.id)
wo_to_update = self.browse(ids_to_update)
if state == 'cancel':
wo_to_update.action_cancel()
elif state == 'done':
wo_to_update.action_mark_as_done()
elif state == 'progress':
wo_to_update.button_start()
else:
wo_to_update.write({'state': state})
@api.depends('production_id.date_start', 'date_start')
def _compute_production_date(self):
for workorder in self:
workorder.production_date = workorder.date_start or workorder.production_id.date_start
@api.depends('production_state', 'date_start', 'date_finished')
def _compute_json_popover(self):
if self.ids:
conflicted_dict = self._get_conflicted_workorder_ids()
for wo in self:
infos = []
if not wo.date_start or not wo.date_finished or not wo.ids:
wo.show_json_popover = False
wo.json_popover = False
continue
if wo.state in ('blocked', 'ready'):
previous_wos = wo.blocked_by_workorder_ids
previous_starts = previous_wos.filtered('date_start').mapped('date_start')
previous_finished = previous_wos.filtered('date_finished').mapped('date_finished')
prev_start = min(previous_starts) if previous_starts else False
prev_finished = max(previous_finished) if previous_finished else False
if wo.state == 'blocked' and prev_start and not (prev_start > wo.date_start):
infos.append({
'color': 'text-primary',
'msg': _("Waiting the previous work order, planned from %(start)s to %(end)s",
start=format_datetime(self.env, prev_start, dt_format=False),
end=format_datetime(self.env, prev_finished, dt_format=False))
})
if wo.date_finished < fields.Datetime.now():
infos.append({
'color': 'text-warning',
'msg': _("The work order should have already been processed.")
})
if prev_start and prev_start > wo.date_start:
infos.append({
'color': 'text-danger',
'msg': _("Scheduled before the previous work order, planned from %(start)s to %(end)s",
start=format_datetime(self.env, prev_start, dt_format=False),
end=format_datetime(self.env, prev_finished, dt_format=False))
})
if conflicted_dict.get(wo.id):
infos.append({
'color': 'text-danger',
'msg': _("Planned at the same time as other workorder(s) at %s", wo.workcenter_id.display_name)
})
color_icon = infos and infos[-1]['color'] or False
wo.show_json_popover = bool(color_icon)
wo.json_popover = json.dumps({
'popoverTemplate': 'mrp.workorderPopover',
'infos': infos,
'color': color_icon,
'icon': 'fa-exclamation-triangle' if color_icon in ['text-warning', 'text-danger'] else 'fa-info-circle',
'replan': color_icon not in [False, 'text-primary']
})
@api.depends('production_id.qty_producing')
def _compute_qty_producing(self):
for workorder in self:
workorder.qty_producing = workorder.production_id.qty_producing
def _set_qty_producing(self):
for workorder in self:
if workorder.qty_producing != 0 and workorder.production_id.qty_producing != workorder.qty_producing:
workorder.production_id.qty_producing = workorder.qty_producing
workorder.production_id._set_qty_producing(False)
@api.depends('blocked_by_workorder_ids.qty_produced', 'blocked_by_workorder_ids.state')
def _compute_qty_ready(self):
for workorder in self:
if workorder.state in ('cancel', 'done'):
workorder.qty_ready = 0
continue
if not workorder.blocked_by_workorder_ids or all(wo.state == 'cancel' for wo in workorder.blocked_by_workorder_ids):
workorder.qty_ready = workorder.qty_remaining
continue
workorder_qty_ready = workorder.qty_remaining + workorder.qty_produced
for wo in workorder.blocked_by_workorder_ids:
if wo.state != 'cancel':
workorder_qty_ready = min(workorder_qty_ready, wo.qty_produced + wo.qty_reported_from_previous_wo)
workorder.qty_ready = workorder_qty_ready - workorder.qty_produced - workorder.qty_reported_from_previous_wo
# Both `date_start` and `date_finished` are related fields on `leave_id`. Let's say
# we slide a workorder on a gantt view, a single call to write is made with both
# fields Changes. As the ORM doesn't batch the write on related fields and instead
# makes multiple call, the constraint check_dates() is raised.
# That's why the compute and set methods are needed. to ensure the dates are updated
# in the same time.
@api.depends('leave_id')
def _compute_dates(self):
for workorder in self:
workorder.date_start = workorder.leave_id.date_from
workorder.date_finished = workorder.leave_id.date_to
def _set_dates(self):
for wo in self.sudo():
if wo.leave_id:
if (not wo.date_start or not wo.date_finished):
raise UserError(_("It is not possible to unplan one single Work Order. "
"You should unplan the Manufacturing Order instead in order to unplan all the linked operations."))
wo.leave_id.write({
'date_from': wo.date_start,
'date_to': wo.date_finished,
})
elif wo.date_start:
if not wo.date_finished:
wo.date_finished = wo._calculate_date_finished()
wo.leave_id = wo.env['resource.calendar.leaves'].create({
'name': wo.display_name,
'calendar_id': wo.workcenter_id.resource_calendar_id.id,
'date_from': wo.date_start,
'date_to': wo.date_finished,
'resource_id': wo.workcenter_id.resource_id.id,
'time_type': 'other',
})
@api.constrains('blocked_by_workorder_ids')
def _check_no_cyclic_dependencies(self):
if self._has_cycle('blocked_by_workorder_ids'):
raise ValidationError(_("You cannot create cyclic dependency."))
@api.depends('production_id.name')
def _compute_barcode(self):
for wo in self:
wo.barcode = f"{wo.production_id.name}/{wo.id}"
@api.depends('production_id', 'product_id')
@api.depends_context('prefix_product')
def _compute_display_name(self):
for wo in self:
wo.display_name = f"{wo.production_id.name} - {wo.name}"
if self.env.context.get('prefix_product'):
wo.display_name = f"{wo.product_id.name} - {wo.production_id.name} - {wo.name}"
def unlink(self):
# Removes references to workorder to avoid Validation Error
(self.mapped('move_raw_ids') | self.mapped('move_finished_ids')).write({'workorder_id': False})
self.mapped('leave_id').unlink()
mo_dirty = self.production_id.filtered(lambda mo: mo.state in ("confirmed", "progress", "to_close"))
for workorder in self:
workorder.blocked_by_workorder_ids.needed_by_workorder_ids = workorder.needed_by_workorder_ids
self.end_all()
res = super().unlink()
# We need to go through `_action_confirm` for all workorders of the current productions to
# make sure the links between them are correct (`next_work_order_id` could be obsolete now).
mo_dirty.workorder_ids._action_confirm()
return res
@api.depends('production_id.product_qty', 'qty_produced', 'production_id.product_uom_id')
def _compute_is_produced(self):
self.is_produced = False
for order in self.filtered(lambda p: p.production_id and p.production_id.product_uom_id):
order.is_produced = order.production_id.product_uom_id.compare(order.qty_produced, order.qty_production) >= 0
@api.depends('operation_id', 'workcenter_id', 'qty_producing', 'qty_production')
def _compute_duration_expected(self):
for workorder in self:
# Recompute the duration expected if the qty_producing has been changed:
# compare with the origin record if it happens during an onchange
if workorder.state not in ['done', 'cancel'] and (workorder.qty_producing != workorder.qty_production
or (workorder._origin != workorder and workorder._origin.qty_producing and workorder.qty_producing != workorder._origin.qty_producing)):
workorder.duration_expected = workorder._get_duration_expected()
@api.depends('time_ids.duration', 'qty_produced')
def _compute_duration(self):
for order in self:
order.duration = order.get_duration()
order.duration_unit = round(order.duration / max(order.qty_produced, 1), 2) # rounding 2 because it is a time
if order.duration_expected:
order.duration_percent = max(-2147483648, min(2147483647, 100 * (order.duration_expected - order.duration) / order.duration_expected))
else:
order.duration_percent = 0
def _set_duration(self):
def _float_duration_to_second(duration):
minutes = duration // 1
seconds = (duration % 1) * 60
return minutes * 60 + seconds
for order in self:
old_order_duration = order.get_duration()
new_order_duration = order.duration
if new_order_duration == old_order_duration:
continue
delta_duration = new_order_duration - old_order_duration
if delta_duration > 0:
if order.state not in ('progress', 'done', 'cancel'):
order.state = 'progress'
enddate = fields.Datetime.now()
date_start = enddate - timedelta(seconds=_float_duration_to_second(delta_duration))
if order.duration_expected >= new_order_duration or old_order_duration >= order.duration_expected:
# either only productive or only performance (i.e. reduced speed) time respectively
self.env['mrp.workcenter.productivity'].create(
order._prepare_timeline_vals(new_order_duration, date_start, enddate)
)
else:
# split between productive and performance (i.e. reduced speed) times
maxdate = fields.Datetime.from_string(enddate) - relativedelta(minutes=new_order_duration - order.duration_expected)
self.env['mrp.workcenter.productivity'].create([
order._prepare_timeline_vals(order.duration_expected, date_start, maxdate),
order._prepare_timeline_vals(new_order_duration, maxdate, enddate)
])
else:
duration_to_remove = abs(delta_duration)
timelines_to_unlink = self.env['mrp.workcenter.productivity']
for timeline in order.time_ids.sorted():
if duration_to_remove <= 0.0:
break
if timeline.duration <= duration_to_remove:
duration_to_remove -= timeline.duration
timelines_to_unlink |= timeline
else:
new_time_line_duration = timeline.duration - duration_to_remove
timeline.date_start = timeline.date_end - timedelta(seconds=_float_duration_to_second(new_time_line_duration))
break
timelines_to_unlink.unlink()
@api.depends('duration', 'duration_expected', 'state')
def _compute_progress(self):
for order in self:
if order.state == 'done':
order.progress = 100
elif order.duration_expected:
order.progress = order.duration * 100 / order.duration_expected
else:
order.progress = 0
def _compute_working_users(self):
""" Checks whether the current user is working, all the users currently working and the last user that worked. """
for order in self:
no_date_end_times = order.time_ids.filtered(lambda time: not time.date_end).sorted('date_start')
order.working_user_ids = [Command.link(user.id) for user in no_date_end_times.user_id]
if order.working_user_ids:
order.last_working_user_id = order.working_user_ids[-1]
elif order.time_ids:
times_with_date_end = order.time_ids.filtered('date_end').sorted('date_end')
order.last_working_user_id = times_with_date_end[-1].user_id if times_with_date_end else order.time_ids[-1].user_id
else:
order.last_working_user_id = False
if no_date_end_times.filtered(lambda x: (x.user_id.id == self.env.user.id) and (x.loss_type in ('productive', 'performance'))):
order.is_user_working = True
else:
order.is_user_working = False
def _compute_scrap_move_count(self):
data = self.env['stock.scrap']._read_group([('workorder_id', 'in', self.ids)], ['workorder_id'], ['__count'])
count_data = {workorder.id: count for workorder, count in data}
for workorder in self:
workorder.scrap_count = count_data.get(workorder.id, 0)
@api.onchange('operation_id')
def _onchange_operation_id(self):
if self.operation_id:
self.name = self.operation_id.name
self.workcenter_id = self.operation_id.workcenter_id.id
@api.onchange('date_start', 'duration_expected', 'workcenter_id')
def _onchange_date_start(self):
if self.date_start and self.workcenter_id:
self.date_finished = self._calculate_date_finished()
def _calculate_date_finished(self, date_start=False, new_workcenter=False):
workcenter = new_workcenter or self.workcenter_id
if not workcenter.resource_calendar_id:
duration_in_seconds = self.duration_expected * 60
return (date_start or self.date_start) + timedelta(seconds=duration_in_seconds)
return workcenter.resource_calendar_id.plan_hours(
self.duration_expected / 60.0, date_start or self.date_start,
compute_leaves=True, domain=[('time_type', 'in', ['leave', 'other'])]
)
@api.onchange('date_finished')
def _onchange_date_finished(self):
if self.date_start and self.date_finished and self.workcenter_id:
self.duration_expected = self._calculate_duration_expected()
if not self.date_finished and self.date_start:
raise UserError(_("It is not possible to unplan one single Work Order. "
"You should unplan the Manufacturing Order instead in order to unplan all the linked operations."))
def _calculate_duration_expected(self, date_start=False, date_finished=False):
if not self.workcenter_id.resource_calendar_id:
return ((date_finished or self.date_finished) - (date_start or self.date_start)).total_seconds() / 60
interval = self.workcenter_id.resource_calendar_id.get_work_duration_data(
date_start or self.date_start, date_finished or self.date_finished,
domain=[('time_type', 'in', ['leave', 'other'])]
)
return interval['hours'] * 60
@api.onchange('finished_lot_ids')
def _onchange_finished_lot_ids(self):
if self.production_id:
res = self.production_id._can_produce_serial_numbers(sns=self.finished_lot_ids)
if res is not True:
return res
def write(self, vals):
values = vals
new_workcenter = False
if 'qty_produced' in values:
for wo in self:
if wo.state in ['done', 'cancel']:
raise UserError(_('You cannot change the quantity produced of a work order that is in done or cancel state.'))
elif wo.product_uom_id.compare(values['qty_produced'], 0) < 0:
raise UserError(_('The quantity produced must be positive.'))
workorders_with_new_wc = self.env['mrp.workorder']
if 'production_id' in values and any(values['production_id'] != w.production_id.id for w in self):
raise UserError(_('You cannot link this work order to another manufacturing order.'))
if 'workcenter_id' in values:
new_workcenter = self.env['mrp.workcenter'].browse(values['workcenter_id'])
for workorder in self:
if workorder.workcenter_id.id != values['workcenter_id']:
if workorder.state in ('done', 'cancel'):
raise UserError(_('You cannot change the workcenter of a work order that is done.'))
workorder.leave_id.resource_id = new_workcenter.resource_id
if workorder.state == 'progress':
continue
workorders_with_new_wc |= workorder
if 'date_start' in values or 'date_finished' in values:
for workorder in self:
date_start = fields.Datetime.to_datetime(values.get('date_start', workorder.date_start))
date_finished = fields.Datetime.to_datetime(values.get('date_finished', workorder.date_finished))
if date_start and date_finished and date_start > date_finished:
raise UserError(_('The planned end date of the work order cannot be prior to the planned start date, please correct this to save the work order.'))
if 'duration_expected' not in values and not self.env.context.get('bypass_duration_calculation'):
if values.get('date_start') and values.get('date_finished'):
computed_finished_time = workorder._calculate_date_finished(date_start=date_start, new_workcenter=new_workcenter)
values['date_finished'] = computed_finished_time
elif date_start and date_finished:
computed_duration = workorder._calculate_duration_expected(date_start=date_start, date_finished=date_finished)
values['duration_expected'] = computed_duration
# Update MO dates if the start date of the first WO or the
# finished date of the last WO is update.
if workorder == workorder.production_id.workorder_ids[0] and 'date_start' in values:
if values['date_start']:
workorder.production_id.with_context(force_date=True).write({
'date_start': fields.Datetime.to_datetime(values['date_start'])
})
if workorder == workorder.production_id.workorder_ids[-1] and 'date_finished' in values:
if values['date_finished']:
workorder.production_id.with_context(force_date=True).write({
'date_finished': fields.Datetime.to_datetime(values['date_finished'])
})
res = super().write(values)
productions = self.production_id.filtered(
lambda p: p.product_uom_id.compare(values.get('qty_produced', 0), 0) > 0
)
if 'qty_produced' in values and productions:
for production in productions:
min_wo_qty = min(production.workorder_ids.mapped('qty_produced'))
if production.product_uom_id.compare(min_wo_qty, 0) > 0:
production.workorder_ids.filtered(lambda w: w.state != 'done').qty_producing = min_wo_qty
self._set_qty_producing()
for workorder in workorders_with_new_wc:
workorder.duration_expected = workorder._get_duration_expected()
if workorder.date_start:
workorder.date_finished = workorder._calculate_date_finished(new_workcenter=new_workcenter)
return res
@api.model_create_multi
def create(self, vals_list):
res = super().create(vals_list)
# resequence the workorders if necessary
for mo in res.mapped('production_id'):
if len(set(mo.workorder_ids.mapped('sequence'))) != len(mo.workorder_ids):
mo._resequence_workorders()
# Auto-confirm manually added workorders.
# We need to go through `_action_confirm` for all workorders of the current productions to
# make sure the links between them are correct.
if self.env.context.get('skip_confirm'):
return res
to_confirm = res.filtered(lambda wo: wo.production_id.state in ("confirmed", "progress", "to_close"))
to_confirm = to_confirm.production_id.workorder_ids
to_confirm._action_confirm()
return res
def _action_confirm(self):
for production in self.mapped("production_id"):
production._link_workorders_and_moves()
def _get_byproduct_move_to_update(self):
return self.production_id.move_finished_ids.filtered(lambda x: (x.product_id.id != self.production_id.product_id.id) and (x.state not in ('done', 'cancel')))
def _plan_workorder(self, replan=False):
self.ensure_one()
# Plan workorder after its predecessors
date_start = max(self.production_id.date_start, datetime.now())
for workorder in self.blocked_by_workorder_ids:
workorder._plan_workorder(replan)
if workorder.date_finished and workorder.date_finished > date_start:
date_start = workorder.date_finished
# Plan only suitable workorders
if self.state not in ['blocked', 'ready']:
return
if self.leave_id:
if replan:
self.leave_id.unlink()
else:
return
# Consider workcenter and alternatives
workcenters = self.workcenter_id | self.workcenter_id.alternative_workcenter_ids
best_date_finished = datetime.max
vals = {}
for workcenter in workcenters:
if not workcenter.resource_calendar_id:
raise UserError(_('There is no defined calendar on workcenter %s.', workcenter.name))
# Compute theoretical duration
if self.workcenter_id == workcenter:
duration_expected = self.duration_expected
else:
duration_expected = self._get_duration_expected(alternative_workcenter=workcenter)
from_date, to_date = workcenter._get_first_available_slot(date_start, duration_expected)
# If the workcenter is unavailable, try planning on the next one
if not from_date:
continue
# Check if this workcenter is better than the previous ones
if to_date and to_date < best_date_finished:
best_date_start = from_date
best_date_finished = to_date
best_workcenter = workcenter
vals = {
'workcenter_id': workcenter.id,
'duration_expected': duration_expected,
}
# If none of the workcenter are available, raise
if best_date_finished == datetime.max:
raise UserError(_('Impossible to plan the workorder. Please check the workcenter availabilities.'))
# Create leave on chosen workcenter calendar
leave = self.env['resource.calendar.leaves'].create({
'name': self.display_name,
'calendar_id': best_workcenter.resource_calendar_id.id,
'date_from': best_date_start,
'date_to': best_date_finished,
'resource_id': best_workcenter.resource_id.id,
'time_type': 'other'
})
vals['leave_id'] = leave.id
self.write(vals)
def _cal_cost(self, date=False):
"""Returns total cost of time spent on workorder.
:param datetime date: Only calculate for time_ids that ended before this date
"""
total = 0
for workorder in self:
if workorder._should_estimate_cost():
duration = workorder.duration_expected / 60
else:
intervals = Intervals([
[t.date_start, t.date_end, t]
for t in workorder.time_ids if t.date_end and (not date or t.date_end < date)
])
duration = sum_intervals(intervals)
total += duration * (workorder.costs_hour or workorder.workcenter_id.costs_hour)
return total
def button_start(self, raise_on_invalid_state=False):
if any(wo.working_state == 'blocked' for wo in self):
raise UserError(_('Please unblock the work center to start the work order.'))
for wo in self:
if any(not time.date_end for time in wo.time_ids.filtered(lambda t: t.user_id.id == self.env.user.id)):
continue
if wo.state in ('done', 'cancel'):
if raise_on_invalid_state:
continue
raise UserError(_('You cannot start a work order that is already done or cancelled'))
if wo.qty_producing == 0:
wo.qty_producing = wo.qty_remaining
if wo._should_start_timer():
self.env['mrp.workcenter.productivity'].create(
wo._prepare_timeline_vals(wo.duration, fields.Datetime.now())
)
if wo.production_id.state != 'progress':
wo.production_id.write({
'date_start': fields.Datetime.now()
})
if wo.state == 'progress':
continue
date_start = fields.Datetime.now()
vals = {
'state': 'progress',
'date_start': date_start,
}
if not wo.leave_id:
leave = self.env['resource.calendar.leaves'].create({
'name': wo.display_name,
'calendar_id': wo.workcenter_id.resource_calendar_id.id,
'date_from': date_start,
'date_to': date_start + relativedelta(minutes=wo.duration_expected),
'resource_id': wo.workcenter_id.resource_id.id,
'time_type': 'other'
})
vals['date_finished'] = leave.date_to
vals['leave_id'] = leave.id
wo.write(vals)
else:
if not wo.date_start or wo.date_start > date_start:
vals['date_finished'] = wo._calculate_date_finished(date_start)
if wo.date_finished and wo.date_finished < date_start:
vals['date_finished'] = date_start
wo.with_context(bypass_duration_calculation=True).write(vals)
def button_finish(self):
date_finished = fields.Datetime.now()
all_vals_dict = defaultdict(lambda: self.env['mrp.workorder'])
workorders_to_end = self.filtered(lambda workorder: workorder.state not in ('done', 'cancel'))
operations = workorders_to_end.operation_id
moves_to_pick = workorders_to_end.move_raw_ids.filtered(lambda move: not move.picked)
moves_to_pick += workorders_to_end.production_id.move_byproduct_ids.filtered(lambda move: not move.picked and move.operation_id in operations)
for move in moves_to_pick:
production_id = move.raw_material_production_id or move.production_id
if production_id.product_uom_id.is_zero(production_id.qty_producing):
qty_available = production_id.product_qty
else:
qty_available = production_id.qty_producing
new_qty = move.product_uom.round(qty_available * move.unit_factor)
move._set_quantity_done(new_qty)
moves_to_pick.picked = True
workorders_to_end.end_all()
for workorder in workorders_to_end:
vals = {
'qty_produced': workorder.qty_produced or workorder.qty_producing or workorder.qty_production,
'state': 'done',
'date_finished': date_finished,
'costs_hour': workorder.workcenter_id.costs_hour
}
if not workorder.date_start or date_finished < workorder.date_start:
vals['date_start'] = date_finished
all_vals_dict[frozenset(vals.items())] |= workorder
for frozen_vals, workorders in all_vals_dict.items():
workorders.with_context(bypass_duration_calculation=True).write(dict(frozen_vals))
return True
def end_previous(self, doall=False):
"""
@param: doall: This will close all open time lines on the open work orders when doall = True, otherwise
only the one of the current user
"""
# TDE CLEANME
domain = [('workorder_id', 'in', self.ids), ('date_end', '=', False)]
if not doall:
domain.append(('user_id', '=', self.env.user.id))
self.env['mrp.workcenter.productivity'].search(domain, limit=None if doall else 1)._close()
return True
def end_all(self):
return self.end_previous(doall=True)
def button_pending(self):
self.end_previous()
def button_unblock(self):
for order in self:
order.workcenter_id.unblock()
return True
def action_cancel(self):
self.leave_id.unlink()
self.end_all()
return self.filtered(lambda wo: wo.state != 'cancel').write({'state': 'cancel'})
def action_replan(self):
"""Replan a work order.
It actually replans every "ready" or "blocked"
work orders of the linked manufacturing orders.
"""
for production in self.production_id:
production._plan_workorders(replan=True)
return True
def button_scrap(self):
self.ensure_one()
return {
'name': _('Scrap Products'),
'view_mode': 'form',
'res_model': 'stock.scrap',
'views': [(self.env.ref('stock.stock_scrap_form_view2').id, 'form')],
'type': 'ir.actions.act_window',
'context': {'default_company_id': self.production_id.company_id.id,
'default_workorder_id': self.id,
'default_production_id': self.production_id.id,
'product_ids': (self.production_id.move_raw_ids.filtered(lambda x: x.state not in ('done', 'cancel')) | self.production_id.move_finished_ids.filtered(lambda x: x.state == 'done')).mapped('product_id').ids},
'target': 'new',
}
def action_see_move_scrap(self):
self.ensure_one()
action = self.env["ir.actions.actions"]._for_xml_id("stock.action_stock_scrap")
action['domain'] = [('workorder_id', '=', self.id)]
return action
def action_open_wizard(self):
self.ensure_one()
action = self.env["ir.actions.actions"]._for_xml_id("mrp.mrp_workorder_mrp_production_form")
action['res_id'] = self.id
return action
@api.depends('qty_production', 'qty_reported_from_previous_wo', 'qty_produced', 'production_id.product_uom_id')
def _compute_qty_remaining(self):
for wo in self:
if wo.production_id.product_uom_id:
wo.qty_remaining = max(wo.production_id.product_uom_id.round(wo.qty_production - wo.qty_reported_from_previous_wo - wo.qty_produced), 0)
else:
wo.qty_remaining = 0
def _get_duration_expected(self, alternative_workcenter=False, ratio=1):
self.ensure_one()
if not self.workcenter_id:
return self.duration_expected
capacity, setup, cleanup = self.workcenter_id._get_capacity(self.product_id, self.product_uom_id, self.production_bom_id.product_qty or 1)
if not self.operation_id:
duration_expected_working = (self.duration_expected - setup - cleanup) * self.workcenter_id.time_efficiency / 100.0
if duration_expected_working < 0:
duration_expected_working = 0
if self.qty_producing not in (0, self.qty_production, self._origin.qty_producing):
qty_ratio = self.qty_producing / (self._origin.qty_producing or self.qty_production)
else:
qty_ratio = 1
return setup + cleanup + duration_expected_working * qty_ratio * ratio * 100.0 / self.workcenter_id.time_efficiency
qty_production = self.qty_producing or self.qty_production
cycle_number = float_round(qty_production / capacity, precision_digits=0, rounding_method='UP')
if alternative_workcenter:
# TODO : find a better alternative : the settings of workcenter can change
duration_expected_working = (self.duration_expected - setup - cleanup) * self.workcenter_id.time_efficiency / (100.0 * cycle_number)
if duration_expected_working < 0:
duration_expected_working = 0
capacity, setup, cleanup = alternative_workcenter._get_capacity(self.product_id, self.product_uom_id, self.production_bom_id.product_qty or 1)
cycle_number = float_round(qty_production / capacity, precision_digits=0, rounding_method='UP')
return setup + cleanup + cycle_number * duration_expected_working * 100.0 / alternative_workcenter.time_efficiency
time_cycle = self.operation_id.time_cycle
return setup + cleanup + cycle_number * time_cycle * 100.0 / self.workcenter_id.time_efficiency
def _get_conflicted_workorder_ids(self):
"""Get conlicted workorder(s) with self.
Conflict means having two workorders in the same time in the same workcenter.
:return: defaultdict with key as workorder id of self and value as related conflicted workorder
"""
self.flush_model(['state', 'date_start', 'date_finished', 'workcenter_id'])
sql = """
SELECT wo1.id, wo2.id
FROM mrp_workorder wo1, mrp_workorder wo2
WHERE
wo1.id IN %s
AND wo1.state IN ('blocked', 'ready')
AND wo2.state IN ('blocked', 'ready')
AND wo1.id != wo2.id
AND wo1.workcenter_id = wo2.workcenter_id
AND (DATE_TRUNC('second', wo2.date_start), DATE_TRUNC('second', wo2.date_finished))
OVERLAPS (DATE_TRUNC('second', wo1.date_start), DATE_TRUNC('second', wo1.date_finished))
"""
self.env.cr.execute(sql, [tuple(self.ids)])
res = defaultdict(list)
for wo1, wo2 in self.env.cr.fetchall():
res[wo1].append(wo2)
return res
def _get_operation_values(self):
self.ensure_one()
ratio = 1 / self.qty_production
if self.operation_id.bom_id:
ratio = self.production_id._get_ratio_between_mo_and_bom_quantities(self.operation_id.bom_id)
return {
'company_id': self.company_id.id,
'name': self.name,
'time_cycle_manual': self.duration_expected * ratio,
'workcenter_id': self.workcenter_id.id,
}
def _prepare_timeline_vals(self, duration, date_start, date_end=False):
# Need a loss in case of the real time exceeding the expected
if not self.duration_expected or duration <= self.duration_expected:
loss_id = self.env['mrp.workcenter.productivity.loss'].search([('loss_type', '=', 'productive')], limit=1)
if not len(loss_id):
raise UserError(_("You need to define at least one productivity loss in the category 'Productivity'. Create one from the Manufacturing app, menu: Configuration / Productivity Losses."))
else:
loss_id = self.env['mrp.workcenter.productivity.loss'].search([('loss_type', '=', 'performance')], limit=1)
if not len(loss_id):
raise UserError(_("You need to define at least one productivity loss in the category 'Performance'. Create one from the Manufacturing app, menu: Configuration / Productivity Losses."))
return {
'workorder_id': self.id,
'workcenter_id': self.workcenter_id.id,
'description': _('Time Tracking: %(user)s', user=self.env.user.name),
'loss_id': loss_id[0].id,
'date_start': date_start.replace(microsecond=0),
'date_end': date_end.replace(microsecond=0) if date_end else date_end,
'user_id': self.env.user.id, # FIXME sle: can be inconsistent with company_id
'company_id': self.company_id.id,
}
def _should_start_timer(self):
return True
def _should_estimate_cost(self):
self.ensure_one()
return self.state in ('progress', 'done') and self.duration_expected and self.cost_mode == 'estimated'
def _update_qty_producing(self, quantity):
self.ensure_one()
if self.qty_producing:
self.qty_producing = quantity
def get_working_duration(self):
"""Get the additional duration for 'open times' i.e. productivity lines with no date_end."""
self.ensure_one()
duration = 0
now = self.env.cr.now()
for time in self.time_ids.filtered(lambda time: not time.date_end):
duration += (now - time.date_start).total_seconds() / 60
return duration
def get_duration(self):
self.ensure_one()
return sum(self.time_ids.mapped('duration')) + self.get_working_duration()
def action_mark_as_done(self):
for wo in self:
if wo.working_state == 'blocked':
raise UserError(_('Please unblock the work center to validate the work order'))
wo.button_finish()
if wo.duration == 0.0:
wo.duration = wo.duration_expected
wo.duration_percent = 100
def _compute_expected_operation_cost(self, without_employee_cost=False):
return (self.duration_expected / 60.0) * (self.costs_hour or self.workcenter_id.costs_hour)
def _compute_current_operation_cost(self):
return (self.get_duration() / 60.0) * (self.costs_hour or self.workcenter_id.costs_hour)
def _get_current_theorical_operation_cost(self, without_employee_cost=False):
return (self.get_duration() / 60.0) * (self.costs_hour or self.workcenter_id.costs_hour)
def _set_cost_mode(self):
""" This should only be called once when the MO is confirmed. """
for workorder in self:
workorder.cost_mode = workorder.operation_id.cost_mode or 'actual'
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