# -*- coding: utf-8 -*- # Part of Odoo. See LICENSE file for full copyright and licensing details. from odoo import api, fields, models, _ from odoo.exceptions import UserError from odoo.tools import float_is_zero class ChangeProductionQty(models.TransientModel): _name = 'change.production.qty' _description = 'Change Production Qty' mo_id = fields.Many2one('mrp.production', 'Manufacturing Order', required=True, ondelete='cascade') product_qty = fields.Float( 'Quantity To Produce', digits='Product Unit of Measure', required=True) @api.model def default_get(self, fields): res = super(ChangeProductionQty, self).default_get(fields) if 'mo_id' in fields and not res.get('mo_id') and self._context.get('active_model') == 'mrp.production' and self._context.get('active_id'): res['mo_id'] = self._context['active_id'] if 'product_qty' in fields and not res.get('product_qty') and res.get('mo_id'): res['product_qty'] = self.env['mrp.production'].browse(res['mo_id']).product_qty return res @api.model def _update_finished_moves(self, production, new_qty, old_qty): """ Update finished product and its byproducts. This method only update the finished moves not done or cancel and just increase or decrease their quantity according the unit_ratio. It does not use the BoM, BoM modification during production would not be taken into consideration. """ modification = {} push_moves = self.env['stock.move'] for move in production.move_finished_ids: if move.state in ('done', 'cancel'): continue qty = (new_qty - old_qty) * move.unit_factor modification[move] = (move.product_uom_qty + qty, move.product_uom_qty) if self._need_quantity_propagation(move, qty): push_moves |= move.copy({'product_uom_qty': qty}) else: self._update_product_qty(move, qty) if push_moves: push_moves._action_confirm()._action_assign() return modification @api.model def _need_quantity_propagation(self, move, qty): return move.move_dest_ids and not float_is_zero(qty, precision_rounding=move.product_uom.rounding) @api.model def _update_product_qty(self, move, qty): move.write({'product_uom_qty': move.product_uom_qty + qty}) def change_prod_qty(self): precision = self.env['decimal.precision'].precision_get('Product Unit of Measure') for wizard in self: production = wizard.mo_id produced = sum(production.move_finished_ids.filtered(lambda m: m.product_id == production.product_id).mapped('quantity_done')) if wizard.product_qty < produced: format_qty = '%.{precision}f'.format(precision=precision) raise UserError(_( "You have already processed %(quantity)s. Please input a quantity higher than %(minimum)s ", quantity=format_qty % produced, minimum=format_qty % produced )) old_production_qty = production.product_qty new_production_qty = wizard.product_qty factor = new_production_qty / old_production_qty update_info = production._update_raw_moves(factor) documents = {} for move, old_qty, new_qty in update_info: iterate_key = production._get_document_iterate_key(move) if iterate_key: document = self.env['stock.picking']._log_activity_get_documents({move: (new_qty, old_qty)}, iterate_key, 'UP') for key, value in document.items(): if documents.get(key): documents[key] += [value] else: documents[key] = [value] production._log_manufacture_exception(documents) self._update_finished_moves(production, new_production_qty, old_production_qty) production.write({'product_qty': new_production_qty}) if not float_is_zero(production.qty_producing, precision_rounding=production.product_uom_id.rounding) and\ not production.workorder_ids: production.qty_producing = new_production_qty production._set_qty_producing() for wo in production.workorder_ids: operation = wo.operation_id wo.duration_expected = wo._get_duration_expected(ratio=new_production_qty / old_production_qty) quantity = wo.qty_production - wo.qty_produced if production.product_id.tracking == 'serial': quantity = 1.0 if not float_is_zero(quantity, precision_digits=precision) else 0.0 else: quantity = quantity if (quantity > 0 and not float_is_zero(quantity, precision_digits=precision)) else 0 wo._update_qty_producing(quantity) if wo.qty_produced < wo.qty_production and wo.state == 'done': wo.state = 'progress' if wo.qty_produced == wo.qty_production and wo.state == 'progress': wo.state = 'done' # assign moves; last operation receive all unassigned moves # TODO: following could be put in a function as it is similar as code in _workorders_create # TODO: only needed when creating new moves moves_raw = production.move_raw_ids.filtered(lambda move: move.operation_id == operation and move.state not in ('done', 'cancel')) if wo == production.workorder_ids[-1]: moves_raw |= production.move_raw_ids.filtered(lambda move: not move.operation_id) moves_finished = production.move_finished_ids.filtered(lambda move: move.operation_id == operation) #TODO: code does nothing, unless maybe by_products? moves_raw.mapped('move_line_ids').write({'workorder_id': wo.id}) (moves_finished + moves_raw).write({'workorder_id': wo.id}) # run scheduler for moves forecasted to not have enough in stock self.mo_id.filtered(lambda mo: mo.state in ['confirmed', 'progress']).move_raw_ids._trigger_scheduler() return {}