# -*- coding: utf-8 -*- # Part of Odoo. See LICENSE file for full copyright and licensing details. from collections import defaultdict from odoo import api, fields, models, tools, _ from odoo.addons import decimal_precision as dp from odoo.addons.stock_landed_costs.models import product from odoo.exceptions import UserError class LandedCost(models.Model): _name = 'stock.landed.cost' _description = 'Stock Landed Cost' _inherit = 'mail.thread' name = fields.Char( 'Name', default=lambda self: _('New'), copy=False, readonly=True, track_visibility='always') date = fields.Date( 'Date', default=fields.Date.context_today, copy=False, required=True, states={'done': [('readonly', True)]}, track_visibility='onchange') picking_ids = fields.Many2many( 'stock.picking', string='Pickings', copy=False, states={'done': [('readonly', True)]}) cost_lines = fields.One2many( 'stock.landed.cost.lines', 'cost_id', 'Cost Lines', copy=True, states={'done': [('readonly', True)]}) valuation_adjustment_lines = fields.One2many( 'stock.valuation.adjustment.lines', 'cost_id', 'Valuation Adjustments', states={'done': [('readonly', True)]}) description = fields.Text( 'Item Description', states={'done': [('readonly', True)]}) amount_total = fields.Float( 'Total', compute='_compute_total_amount', digits=0, store=True, track_visibility='always') state = fields.Selection([ ('draft', 'Draft'), ('done', 'Posted'), ('cancel', 'Cancelled')], 'State', default='draft', copy=False, readonly=True, track_visibility='onchange') account_move_id = fields.Many2one( 'account.move', 'Journal Entry', copy=False, readonly=True) account_journal_id = fields.Many2one( 'account.journal', 'Account Journal', required=True, states={'done': [('readonly', True)]}) @api.one @api.depends('cost_lines.price_unit') def _compute_total_amount(self): self.amount_total = sum(line.price_unit for line in self.cost_lines) @api.model def create(self, vals): if vals.get('name', _('New')) == _('New'): vals['name'] = self.env['ir.sequence'].next_by_code('stock.landed.cost') return super(LandedCost, self).create(vals) @api.multi def unlink(self): self.button_cancel() return super(LandedCost, self).unlink() @api.multi def _track_subtype(self, init_values): if 'state' in init_values and self.state == 'done': return 'stock_landed_costs.mt_stock_landed_cost_open' return super(LandedCost, self)._track_subtype(init_values) @api.multi def button_cancel(self): if any(cost.state == 'done' for cost in self): raise UserError( _('Validated landed costs cannot be cancelled, but you could create negative landed costs to reverse them')) return self.write({'state': 'cancel'}) @api.multi def button_validate(self): if any(cost.state != 'draft' for cost in self): raise UserError(_('Only draft landed costs can be validated')) if any(not cost.valuation_adjustment_lines for cost in self): raise UserError(_('No valuation adjustments lines. You should maybe recompute the landed costs.')) if not self._check_sum(): raise UserError(_('Cost and adjustments lines do not match. You should maybe recompute the landed costs.')) for cost in self: move = self.env['account.move'] move_vals = { 'journal_id': cost.account_journal_id.id, 'date': cost.date, 'ref': cost.name, 'line_ids': [], } for line in cost.valuation_adjustment_lines.filtered(lambda line: line.move_id): per_unit = line.final_cost / line.quantity diff = per_unit - line.former_cost_per_unit # If the precision required for the variable diff is larger than the accounting # precision, inconsistencies between the stock valuation and the accounting entries # may arise. # For example, a landed cost of 15 divided in 13 units. If the products leave the # stock one unit at a time, the amount related to the landed cost will correspond to # round(15/13, 2)*13 = 14.95. To avoid this case, we split the quant in 12 + 1, then # record the difference on the new quant. # We need to make sure to able to extract at least one unit of the product. There is # an arbitrary minimum quantity set to 2.0 from which we consider we can extract a # unit and adapt the cost. curr_rounding = line.move_id.company_id.currency_id.rounding diff_rounded = tools.float_round(diff, precision_rounding=curr_rounding) diff_correct = diff_rounded quants = line.move_id.quant_ids.sorted(key=lambda r: r.qty, reverse=True) quant_correct = False if quants\ and tools.float_compare(quants[0].product_id.uom_id.rounding, 1.0, precision_digits=1) == 0\ and tools.float_compare(line.quantity * diff, line.quantity * diff_rounded, precision_rounding=curr_rounding) != 0\ and tools.float_compare(quants[0].qty, 2.0, precision_rounding=quants[0].product_id.uom_id.rounding) >= 0: # Search for existing quant of quantity = 1.0 to avoid creating a new one quant_correct = quants.filtered(lambda r: tools.float_compare(r.qty, 1.0, precision_rounding=quants[0].product_id.uom_id.rounding) == 0) if not quant_correct: quant_correct = quants[0]._quant_split(quants[0].qty - 1.0) else: quant_correct = quant_correct[0] quants = quants - quant_correct diff_correct += (line.quantity * diff) - (line.quantity * diff_rounded) diff = diff_rounded quant_dict = {} for quant in quants: quant_dict[quant] = quant.cost + diff if quant_correct: quant_dict[quant_correct] = quant_correct.cost + diff_correct for quant, value in quant_dict.items(): quant.sudo().write({'cost': value}) qty_out = 0 for quant in line.move_id.quant_ids: if quant.location_id.usage != 'internal': qty_out += quant.qty move_vals['line_ids'] += line._create_accounting_entries(move, qty_out) move = move.create(move_vals) cost.write({'state': 'done', 'account_move_id': move.id}) move.post() return True def _check_sum(self): """ Check if each cost line its valuation lines sum to the correct amount and if the overall total amount is correct also """ prec_digits = self.env['decimal.precision'].precision_get('Account') for landed_cost in self: total_amount = sum(landed_cost.valuation_adjustment_lines.mapped('additional_landed_cost')) if not tools.float_compare(total_amount, landed_cost.amount_total, precision_digits=prec_digits) == 0: return False val_to_cost_lines = defaultdict(lambda: 0.0) for val_line in landed_cost.valuation_adjustment_lines: val_to_cost_lines[val_line.cost_line_id] += val_line.additional_landed_cost if any(tools.float_compare(cost_line.price_unit, val_amount, precision_digits=prec_digits) != 0 for cost_line, val_amount in val_to_cost_lines.iteritems()): return False return True def get_valuation_lines(self): lines = [] for move in self.mapped('picking_ids').mapped('move_lines'): # it doesn't make sense to make a landed cost for a product that isn't set as being valuated in real time at real cost if move.product_id.valuation != 'real_time' or move.product_id.cost_method != 'real': continue vals = { 'product_id': move.product_id.id, 'move_id': move.id, 'quantity': move.product_qty, 'former_cost': sum(quant.cost * quant.qty for quant in move.quant_ids), 'weight': move.product_id.weight * move.product_qty, 'volume': move.product_id.volume * move.product_qty } lines.append(vals) if not lines and self.mapped('picking_ids'): raise UserError(_('The selected picking does not contain any move that would be impacted by landed costs. Landed costs are only possible for products configured in real time valuation with real price costing method. Please make sure it is the case, or you selected the correct picking')) return lines @api.multi def compute_landed_cost(self): AdjustementLines = self.env['stock.valuation.adjustment.lines'] AdjustementLines.search([('cost_id', 'in', self.ids)]).unlink() digits = dp.get_precision('Product Price')(self._cr) towrite_dict = {} for cost in self.filtered(lambda cost: cost.picking_ids): total_qty = 0.0 total_cost = 0.0 total_weight = 0.0 total_volume = 0.0 total_line = 0.0 all_val_line_values = cost.get_valuation_lines() for val_line_values in all_val_line_values: for cost_line in cost.cost_lines: val_line_values.update({'cost_id': cost.id, 'cost_line_id': cost_line.id}) self.env['stock.valuation.adjustment.lines'].create(val_line_values) total_qty += val_line_values.get('quantity', 0.0) total_weight += val_line_values.get('weight', 0.0) total_volume += val_line_values.get('volume', 0.0) former_cost = val_line_values.get('former_cost', 0.0) # round this because former_cost on the valuation lines is also rounded total_cost += tools.float_round(former_cost, precision_digits=digits[1]) if digits else former_cost total_line += 1 for line in cost.cost_lines: value_split = 0.0 for valuation in cost.valuation_adjustment_lines: value = 0.0 if valuation.cost_line_id and valuation.cost_line_id.id == line.id: if line.split_method == 'by_quantity' and total_qty: per_unit = (line.price_unit / total_qty) value = valuation.quantity * per_unit elif line.split_method == 'by_weight' and total_weight: per_unit = (line.price_unit / total_weight) value = valuation.weight * per_unit elif line.split_method == 'by_volume' and total_volume: per_unit = (line.price_unit / total_volume) value = valuation.volume * per_unit elif line.split_method == 'equal': value = (line.price_unit / total_line) elif line.split_method == 'by_current_cost_price' and total_cost: per_unit = (line.price_unit / total_cost) value = valuation.former_cost * per_unit else: value = (line.price_unit / total_line) if digits: value = tools.float_round(value, precision_digits=digits[1], rounding_method='UP') fnc = min if line.price_unit > 0 else max value = fnc(value, line.price_unit - value_split) value_split += value if valuation.id not in towrite_dict: towrite_dict[valuation.id] = value else: towrite_dict[valuation.id] += value if towrite_dict: for key, value in towrite_dict.items(): AdjustementLines.browse(key).write({'additional_landed_cost': value}) return True class LandedCostLine(models.Model): _name = 'stock.landed.cost.lines' _description = 'Stock Landed Cost Lines' name = fields.Char('Description') cost_id = fields.Many2one( 'stock.landed.cost', 'Landed Cost', required=True, ondelete='cascade') product_id = fields.Many2one('product.product', 'Product', required=True) price_unit = fields.Float('Cost', digits=dp.get_precision('Product Price'), required=True) split_method = fields.Selection(product.SPLIT_METHOD, string='Split Method', required=True) account_id = fields.Many2one('account.account', 'Account', domain=[('deprecated', '=', False)]) @api.onchange('product_id') def onchange_product_id(self): if not self.product_id: self.quantity = 0.0 self.name = self.product_id.name or '' self.split_method = self.product_id.split_method or 'equal' self.price_unit = self.product_id.standard_price or 0.0 self.account_id = self.product_id.property_account_expense_id.id or self.product_id.categ_id.property_account_expense_categ_id.id class AdjustmentLines(models.Model): _name = 'stock.valuation.adjustment.lines' _description = 'Stock Valuation Adjustment Lines' name = fields.Char( 'Description', compute='_compute_name', store=True) cost_id = fields.Many2one( 'stock.landed.cost', 'Landed Cost', ondelete='cascade', required=True) cost_line_id = fields.Many2one( 'stock.landed.cost.lines', 'Cost Line', readonly=True) move_id = fields.Many2one('stock.move', 'Stock Move', readonly=True) product_id = fields.Many2one('product.product', 'Product', required=True) quantity = fields.Float( 'Quantity', default=1.0, digits=0, required=True) weight = fields.Float( 'Weight', default=1.0, digits=dp.get_precision('Stock Weight')) volume = fields.Float( 'Volume', default=1.0) former_cost = fields.Float( 'Former Cost', digits=dp.get_precision('Product Price')) former_cost_per_unit = fields.Float( 'Former Cost(Per Unit)', compute='_compute_former_cost_per_unit', digits=0, store=True) additional_landed_cost = fields.Float( 'Additional Landed Cost', digits=dp.get_precision('Product Price')) final_cost = fields.Float( 'Final Cost', compute='_compute_final_cost', digits=0, store=True) @api.one @api.depends('cost_line_id.name', 'product_id.code', 'product_id.name') def _compute_name(self): name = '%s - ' % (self.cost_line_id.name if self.cost_line_id else '') self.name = name + (self.product_id.code or self.product_id.name or '') @api.one @api.depends('former_cost', 'quantity') def _compute_former_cost_per_unit(self): self.former_cost_per_unit = self.former_cost / (self.quantity or 1.0) @api.one @api.depends('former_cost', 'additional_landed_cost') def _compute_final_cost(self): self.final_cost = self.former_cost + self.additional_landed_cost def _create_accounting_entries(self, move, qty_out): # TDE CLEANME: product chosen for computation ? cost_product = self.cost_line_id.product_id if not cost_product: return False accounts = self.product_id.product_tmpl_id.get_product_accounts() debit_account_id = accounts.get('stock_valuation') and accounts['stock_valuation'].id or False already_out_account_id = accounts['stock_output'].id credit_account_id = self.cost_line_id.account_id.id or cost_product.property_account_expense_id.id or cost_product.categ_id.property_account_expense_categ_id.id if not credit_account_id: raise UserError(_('Please configure Stock Expense Account for product: %s.') % (cost_product.name)) return self._create_account_move_line(move, credit_account_id, debit_account_id, qty_out, already_out_account_id) def _create_account_move_line(self, move, credit_account_id, debit_account_id, qty_out, already_out_account_id): """ Generate the account.move.line values to track the landed cost. Afterwards, for the goods that are already out of stock, we should create the out moves """ AccountMoveLine = [] base_line = { 'name': self.name, 'product_id': self.product_id.id, 'quantity': self.quantity, } debit_line = dict(base_line, account_id=debit_account_id) credit_line = dict(base_line, account_id=credit_account_id) diff = self.additional_landed_cost if diff > 0: debit_line['debit'] = diff credit_line['credit'] = diff else: # negative cost, reverse the entry debit_line['credit'] = -diff credit_line['debit'] = -diff AccountMoveLine.append([0, 0, debit_line]) AccountMoveLine.append([0, 0, credit_line]) # Create account move lines for quants already out of stock if qty_out > 0: debit_line = dict(base_line, name=(self.name + ": " + str(qty_out) + _(' already out')), quantity=qty_out, account_id=already_out_account_id) credit_line = dict(base_line, name=(self.name + ": " + str(qty_out) + _(' already out')), quantity=qty_out, account_id=debit_account_id) diff = diff * qty_out / self.quantity if diff > 0: debit_line['debit'] = diff credit_line['credit'] = diff else: # negative cost, reverse the entry debit_line['credit'] = -diff credit_line['debit'] = -diff AccountMoveLine.append([0, 0, debit_line]) AccountMoveLine.append([0, 0, credit_line]) # TDE FIXME: oh dear if self.env.user.company_id.anglo_saxon_accounting: debit_line = dict(base_line, name=(self.name + ": " + str(qty_out) + _(' already out')), quantity=qty_out, account_id=credit_account_id) credit_line = dict(base_line, name=(self.name + ": " + str(qty_out) + _(' already out')), quantity=qty_out, account_id=already_out_account_id) if diff > 0: debit_line['debit'] = diff credit_line['credit'] = diff else: # negative cost, reverse the entry debit_line['credit'] = -diff credit_line['debit'] = -diff AccountMoveLine.append([0, 0, debit_line]) AccountMoveLine.append([0, 0, credit_line]) return AccountMoveLine