account-closing/account_cutoff_picking/models/account_cutoff.py

# Copyright 2013-2021 Akretion France (http://www.akretion.com/)
# @author: Alexis de Lattre <alexis.delattre@akretion.com>
# License AGPL-3.0 or later (http://www.gnu.org/licenses/agpl).

from datetime import datetime

import pytz
from dateutil.relativedelta import relativedelta

from flectra import _, api, fields, models
from flectra.exceptions import UserError
from flectra.tools import float_compare, float_is_zero
from flectra.tools.misc import format_date, format_datetime, formatLang


class AccountCutoff(models.Model):
    _inherit = "account.cutoff"

    picking_interval_days = fields.Integer(
        string="Analysis Interval",
        default=lambda self: self._default_picking_interval_days(),
        tracking=True,
        help="To generate the cutoffs based on picking "
        "dates vs invoice dates, Flectra will analyse all the pickings/invoices from "
        "N days before the cutoff date up to the cutoff date. "
        "N is the Analysis Interval. If you increase the analysis interval, "
        "Flectra will take more time to generate the cutoff lines.",
    )

    _sql_constraints = [
        (
            "picking_interval_days_positive",
            "CHECK(picking_interval_days > 0)",
            "The value of the field 'Analysis Interval' must be strictly positive.",
        )
    ]

    @api.model
    def _default_picking_interval_days(self):
        return self.env.company.default_cutoff_picking_interval_days

    def picking_prepare_cutoff_line(self, vdict, account_mapping):
        dpo = self.env["decimal.precision"]
        qty_prec = dpo.precision_get("Product Unit of Measure")
        if self.cutoff_type in ("accrued_expense", "accrued_revenue"):
            qty = vdict["precut_delivered_qty"] - vdict["precut_invoiced_qty"]
            qty_label = _("Pre-cutoff delivered quantity minus invoiced quantity:")
        elif self.cutoff_type in ("prepaid_expense", "prepaid_revenue"):
            qty = vdict["precut_invoiced_qty"] - vdict["precut_delivered_qty"]
            qty_label = _("Pre-cutoff invoiced quantity minus delivered quantity:")

        if float_compare(qty, 0, precision_digits=qty_prec) <= 0:
            return False

        company_currency = self.company_currency_id
        currency = vdict["currency"]
        sign = self.cutoff_type in ("accrued_expense", "prepaid_revenue") and -1 or 1
        amount = qty * vdict["price_unit"] * sign
        amount_company_currency = vdict["currency"]._convert(
            amount, company_currency, self.company_id, self.cutoff_date
        )

        # Use account mapping
        account_id = vdict["account_id"]
        if account_id in account_mapping:
            cutoff_account_id = account_mapping[account_id]
        else:
            cutoff_account_id = account_id
        uom_name = vdict["product"].uom_id.name
        notes = vdict["notes"]
        precut_delivered_qty_fl = formatLang(
            self.env, vdict.get("precut_delivered_qty", 0), dp="Product Unit of Measure"
        )
        notes += (
            "\n"
            + _("Pre-cutoff delivered quantity:")
            + f" {precut_delivered_qty_fl} {uom_name}"
        )
        if vdict.get("precut_delivered_logs"):
            param = "\n".join(vdict["precut_delivered_logs"])
            notes += "\n" + _("Pre-cutoff delivered quantity details:") + f"\n{param}"
        precut_invoiced_qty_fl = formatLang(
            self.env, vdict.get("precut_invoiced_qty", 0), dp="Product Unit of Measure"
        )
        notes += (
            "\n"
            + _("Pre-cutoff invoiced quantity:")
            + f" {precut_invoiced_qty_fl} {uom_name}"
        )
        if vdict.get("precut_invoiced_logs"):
            param = "\n".join(vdict["precut_invoiced_logs"])
            notes += "\n" + _("Pre-cutoff invoiced quantity details:") + f"\n{param}"
        qty_fl = formatLang(self.env, qty, dp="Product Unit of Measure")
        notes += f"\n{qty_label} {qty_fl} {uom_name}"

        vals = {
            "parent_id": self.id,
            "partner_id": vdict["partner"].id,
            "name": vdict["name"],
            "account_id": account_id,
            "cutoff_account_id": cutoff_account_id,
            "analytic_distribution": vdict["analytic_distribution"],
            "currency_id": vdict["currency"].id,
            "quantity": qty,
            "price_unit": vdict["price_unit"],
            "amount": amount,
            "cutoff_amount": amount_company_currency,
            "price_origin": vdict.get("price_origin"),
            "notes": notes,
        }

        if (
            self.cutoff_type in ("accrued_expense", "accrued_revenue")
            and vdict["taxes"]
            and self.company_id.accrual_taxes
        ):
            # vdict["price_unit"] is a price without tax,
            # so I set handle_price_include=False
            tax_compute_all_res = vdict["taxes"].compute_all(
                vdict["price_unit"],
                currency=currency,
                quantity=qty * sign,
                product=vdict["product"],
                partner=vdict["partner"],
                handle_price_include=False,
            )
            vals["tax_line_ids"] = self._prepare_tax_lines(
                tax_compute_all_res, self.company_currency_id
            )
        return vals

    def order_line_update_oline_dict(
        self, order_line, order_type, oline_dict, cutoff_datetime
    ):
        assert order_line not in oline_dict
        order = order_line.order_id  # same on PO and SO
        oline_dict[order_line] = {
            "precut_delivered_qty": 0.0,  # in product_uom
            "precut_delivered_logs": [],
            "precut_invoiced_qty": 0.0,  # in product_uom
            "precut_invoiced_logs": [],
            "name": ": ".join([order.name, order_line.name]),
            "product": order_line.product_id,
            "partner": order.partner_id.commercial_partner_id,
            "notes": "",
            "price_unit": 0.0,
            "price_origin": False,
            "currency": False,
            "analytic_distribution": False,
            "account_id": False,
            "taxes": False,
        }
        self.order_line_update_oline_dict_from_stock_moves(
            order_line, order_type, oline_dict, cutoff_datetime
        )
        self.order_line_update_oline_dict_from_invoice_lines(
            order_line, order_type, oline_dict, cutoff_datetime
        )
        if not oline_dict[order_line]["price_origin"]:
            self.order_line_update_oline_dict_price_fallback(
                order_line, order_type, oline_dict
            )

    def order_line_update_oline_dict_from_stock_moves(
        self, order_line, order_type, oline_dict, cutoff_datetime
    ):
        wdict = oline_dict[order_line]
        # These fields/methods have the same name on PO and SO
        order = order_line.order_id
        product = order_line.product_id
        product_uom = product.uom_id
        outgoing_moves, incoming_moves = order_line._get_outgoing_incoming_moves()
        if order_type == "purchase":
            ordered_qty = order_line.product_uom._compute_quantity(
                order_line.product_qty, product_uom
            )
            wdict["notes"] = _(
                "Purchase order %(order)s confirmed on %(confirm_date)s\n"
                "Purchase Order Line: %(order_line)s (ordered qty: %(qty)s %(uom)s)"
            ) % {
                "order": order.name,
                "confirm_date": format_datetime(self.env, order.date_approve),
                "order_line": order_line.name,
                "qty": formatLang(self.env, ordered_qty, dp="Product Unit of Measure"),
                "uom": product_uom.name,
            }
        elif order_type == "sale":
            ordered_qty = order_line.product_uom._compute_quantity(
                order_line.product_uom_qty, product_uom
            )
            wdict["notes"] = _(
                "Sale order %(order)s confirmed on %(confirm_date)s\n"
                "Sale Order Line: %(order_line)s (ordered qty: %(qty)s %(uom)s)"
            ) % {
                "order": order.name,
                "confirm_date": format_datetime(self.env, order.date_order),
                "order_line": order_line.name,
                "qty": formatLang(self.env, ordered_qty, dp="Product Unit of Measure"),
                "uom": product_uom.name,
            }
        move_logs = []
        for out_move in outgoing_moves.filtered(
            lambda m: m.state == "done" and m.date <= cutoff_datetime
        ):
            sign = order_type == "purchase" and -1 or 1
            move_qty = out_move.product_uom._compute_quantity(
                out_move.quantity * sign, product_uom
            )
            move_logs.append((out_move, move_qty))
        for in_move in incoming_moves.filtered(
            lambda m: m.state == "done" and m.date <= cutoff_datetime
        ):
            sign = order_type == "sale" and -1 or 1
            move_qty = in_move.product_uom._compute_quantity(
                in_move.quantity * sign, product_uom
            )
            move_logs.append((in_move, move_qty))
        move_logs_sorted = sorted(move_logs, key=lambda to_sort: to_sort[0].date)
        for move, move_qty_signed in move_logs_sorted:
            wdict["precut_delivered_qty"] += move_qty_signed
            move_qty_signed_formatted = formatLang(
                self.env, move_qty_signed, dp="Product Unit of Measure"
            )
            wdict["precut_delivered_logs"].append(
                _(
                    " • %(qty)s %(uom)s (picking %(picking)s transfered on %(date)s "
                    "from %(src_location)s to %(dest_location)s)"
                )
                % {
                    "qty": move_qty_signed_formatted,
                    "uom": move.product_id.uom_id.name,
                    "picking": move.picking_id.name or "none",
                    "date": format_datetime(self.env, move.date),
                    "src_location": move.location_id.display_name,
                    "dest_location": move.location_dest_id.display_name,
                }
            )

    def order_line_update_oline_dict_from_invoice_lines(
        self, order_line, order_type, oline_dict, cutoff_datetime
    ):
        wdict = oline_dict[order_line]
        dpo = self.env["decimal.precision"]
        qty_prec = dpo.precision_get("Product Unit of Measure")
        move_type2label = dict(
            self.env["account.move"].fields_get("move_type", "selection")["move_type"][
                "selection"
            ]
        )
        # These fields have the same name on PO and SO
        product = order_line.product_id
        product_uom = product.uom_id
        if self.source_move_state == "posted":
            ilines = order_line.invoice_lines.filtered(
                lambda x: x.parent_state == "posted"
            )
        else:
            ilines = order_line.invoice_lines.filtered(
                lambda x: x.parent_state in ("draft", "posted")
            )
        for iline in ilines:
            invoice = iline.move_id
            if not float_is_zero(iline.quantity, precision_digits=qty_prec):
                sign = invoice.move_type in ("out_refund", "in_refund") and -1 or 1
                iline_qty_puom = iline.product_uom_id._compute_quantity(
                    iline.quantity * sign, product_uom
                )
                if invoice.date <= self.cutoff_date:
                    wdict["precut_invoiced_qty"] += iline_qty_puom
                    iline_qty_puom_formatted = formatLang(
                        self.env, iline_qty_puom, dp="Product Unit of Measure"
                    )
                    qty = iline_qty_puom_formatted
                    uom = iline.product_id.uom_id.name
                    move_type = move_type2label[invoice.move_type]
                    move_name = invoice.name
                    date = format_date(self.env, invoice.date)
                    wdict["precut_invoiced_logs"].append(
                        f" • {qty} {uom} ({move_type} {move_name} dated {date})"
                    )
                # Most recent invoice line used for price_unit, account,...
                wdict["price_unit"] = iline.price_subtotal / iline_qty_puom
                wdict["price_origin"] = invoice.name
                wdict["currency"] = invoice.currency_id
                wdict["account_id"] = iline.account_id.id
                wdict["analytic_distribution"] = iline.analytic_distribution
                wdict["taxes"] = iline.tax_ids

    def order_line_update_oline_dict_price_fallback(
        self, order_line, order_type, oline_dict
    ):
        wdict = oline_dict[order_line]
        order = order_line.order_id
        product = order_line.product_id
        if order_type == "purchase":
            oline_qty_puom = order_line.product_uom._compute_quantity(
                order_line.product_qty, product.uom_id
            )
            wdict["price_unit"] = order_line.price_subtotal / oline_qty_puom
            wdict["price_origin"] = order.name
            wdict["currency"] = order.currency_id
            wdict["analytic_distribution"] = order_line.analytic_distribution
            wdict["taxes"] = order_line.taxes_id
            account = product._get_product_accounts()["expense"]
            if not account:
                raise UserError(
                    _(
                        "Missing expense account on product '%(product)s' or on its "
                        "related product category '%(categ)s'."
                    )
                    % {
                        "product": product.display_name,
                        "categ": product.categ_id.display_name,
                    }
                )
            wdict["account_id"] = order.fiscal_position_id.map_account(account).id
        elif order_type == "sale":
            oline_qty_puom = order_line.product_uom._compute_quantity(
                order_line.product_uom_qty, product.uom_id
            )
            wdict["price_unit"] = order_line.price_subtotal / oline_qty_puom
            wdict["price_origin"] = order.name
            wdict["currency"] = order.currency_id
            wdict["analytic_distribution"] = order_line.analytic_distribution
            wdict["taxes"] = order_line.tax_id
            account = product._get_product_accounts()["income"]
            if not account:
                raise UserError(
                    _(
                        "Missing income account on product '%(product)s' or on its "
                        "related product category '%(categ)s'."
                    )
                    % {
                        "product": product.display_name,
                        "categ": product.categ_id.display_name,
                    }
                )
            wdict["account_id"] = order.fiscal_position_id.map_account(account).id

    def stock_move_update_oline_dict(self, move_line, oline_dict, cutoff_datetime):
        dpo = self.env["decimal.precision"]
        qty_prec = dpo.precision_get("Product Unit of Measure")
        if self.cutoff_type == "accrued_expense":
            if (
                move_line.purchase_line_id
                and move_line.purchase_line_id not in oline_dict
                and not float_is_zero(
                    move_line.purchase_line_id.product_qty, precision_digits=qty_prec
                )
            ):
                self.order_line_update_oline_dict(
                    move_line.purchase_line_id, "purchase", oline_dict, cutoff_datetime
                )
        elif self.cutoff_type == "accrued_revenue":
            if (
                move_line.sale_line_id
                and move_line.sale_line_id not in oline_dict
                and not float_is_zero(
                    move_line.sale_line_id.product_uom_qty, precision_digits=qty_prec
                )
            ):
                self.order_line_update_oline_dict(
                    move_line.sale_line_id, "sale", oline_dict, cutoff_datetime
                )

    def invoice_line_update_oline_dict(self, inv_line, oline_dict, cutoff_datetime):
        dpo = self.env["decimal.precision"]
        qty_prec = dpo.precision_get("Product Unit of Measure")
        if self.cutoff_type == "prepaid_expense":
            if (
                inv_line.purchase_line_id
                and inv_line.purchase_line_id not in oline_dict
                and not float_is_zero(
                    inv_line.purchase_line_id.product_qty, precision_digits=qty_prec
                )
            ):
                self.order_line_update_oline_dict(
                    inv_line.purchase_line_id, "purchase", oline_dict, cutoff_datetime
                )
        elif self.cutoff_type == "prepaid_revenue":
            for so_line in inv_line.sale_line_ids:
                if so_line not in oline_dict and not float_is_zero(
                    so_line.product_uom_qty, precision_digits=qty_prec
                ):
                    self.order_line_update_oline_dict(
                        so_line, "sale", oline_dict, cutoff_datetime
                    )

    def get_lines(self):
        res = super().get_lines()
        aclo = self.env["account.cutoff.line"]

        account_mapping = self._get_mapping_dict()
        cutoff_type = self.cutoff_type
        cutoff_datetime = self._get_cutoff_datetime()

        oline_dict = {}  # order line dict
        # key = PO line or SO line recordset
        # value = {
        #   'precut_delivered_qty': 1.0,
        #   'precut_invoiced_qty': 0.0,
        #   'price_unit': 12.42,
        #   }

        # ACCRUAL :
        # starting point : picking
        # then, go to order line. From order line, go to stock moves and invoices lines
        # => gen cutoff line if precut_delivered_qty - precut_invoiced_qty > 0
        # PREPAID :
        # starting point : invoice
        # then, go to order line. From order line, go to stock moves and invoices lines
        # => gen cutoff line if precut_invoiced_qty - precut_delivered_qty > 0

        # ACCURAL
        if cutoff_type in ("accrued_revenue", "accrued_expense"):
            pick_type_map = {
                "accrued_revenue": "outgoing",
                "accrued_expense": "incoming",
            }

            min_date_dt = cutoff_datetime - relativedelta(
                days=self.picking_interval_days
            )

            pickings = self.env["stock.picking"].search(
                [
                    ("picking_type_code", "=", pick_type_map[cutoff_type]),
                    ("state", "=", "done"),
                    ("date_done", "<=", cutoff_datetime),
                    ("date_done", ">=", min_date_dt),
                    ("company_id", "=", self.company_id.id),
                ]
            )

            for p in pickings:
                for move in p.move_ids.filtered(lambda m: m.state == "done"):
                    self.stock_move_update_oline_dict(move, oline_dict, cutoff_datetime)
        elif cutoff_type in ("prepaid_revenue", "prepaid_expense"):
            move_type_map = {
                "prepaid_revenue": ("out_invoice", "out_refund"),
                "prepaid_expense": ("in_invoice", "in_refund"),
            }
            min_date = self.cutoff_date - relativedelta(days=self.picking_interval_days)
            inv_domain = [
                ("move_type", "in", move_type_map[cutoff_type]),
                ("date", "<=", self.cutoff_date),
                ("date", ">=", min_date),
                ("company_id", "=", self.company_id.id),
            ]
            if self.source_move_state == "posted":
                inv_domain.append(("state", "=", "posted"))
            else:
                inv_domain.append(("state", "in", ("draft", "posted")))
            invoices = self.env["account.move"].search(inv_domain)
            for invoice in invoices:
                for iline in invoice.invoice_line_ids.filtered(
                    lambda x: x.display_type == "product"
                    and x.product_id.type in ("product", "consu")
                ):
                    self.invoice_line_update_oline_dict(
                        iline, oline_dict, cutoff_datetime
                    )

        # from pprint import pprint
        # pprint(oline_dict)
        for vdict in oline_dict.values():
            vals = self.picking_prepare_cutoff_line(vdict, account_mapping)
            if vals:
                aclo.create(vals)
        return res

    def _get_cutoff_datetime(self):
        self.ensure_one()
        cutoff_date = datetime.combine(self.cutoff_date, datetime.max.time())
        tz = self.env.user.tz and pytz.timezone(self.env.user.tz) or pytz.utc
        cutoff_datetime_aware = tz.localize(cutoff_date)
        cutoff_datetime_utc = cutoff_datetime_aware.astimezone(pytz.utc)
        cutoff_datetime_utc_naive = cutoff_datetime_utc.replace(tzinfo=None)
        return cutoff_datetime_utc_naive
Automatic Update form OCA2FC Migrator 2024-05-03 08:29:54 +00:00			`# Copyright 2013-2021 Akretion France (http://www.akretion.com/)`
			`# @author: Alexis de Lattre <alexis.delattre@akretion.com>`
			`# License AGPL-3.0 or later (http://www.gnu.org/licenses/agpl).`

			`from datetime import datetime`

			`import pytz`
			`from dateutil.relativedelta import relativedelta`

			`from flectra import _, api, fields, models`
			`from flectra.exceptions import UserError`
			`from flectra.tools import float_compare, float_is_zero`
			`from flectra.tools.misc import format_date, format_datetime, formatLang`


			`class AccountCutoff(models.Model):`
			`_inherit = "account.cutoff"`

			`picking_interval_days = fields.Integer(`
			`string="Analysis Interval",`
			`default=lambda self: self._default_picking_interval_days(),`
			`tracking=True,`
			`help="To generate the cutoffs based on picking "`
			`"dates vs invoice dates, Flectra will analyse all the pickings/invoices from "`
			`"N days before the cutoff date up to the cutoff date. "`
			`"N is the Analysis Interval. If you increase the analysis interval, "`
			`"Flectra will take more time to generate the cutoff lines.",`
			`)`

			`_sql_constraints = [`
			`(`
			`"picking_interval_days_positive",`
			`"CHECK(picking_interval_days > 0)",`
			`"The value of the field 'Analysis Interval' must be strictly positive.",`
			`)`
			`]`

			`@api.model`
			`def _default_picking_interval_days(self):`
			`return self.env.company.default_cutoff_picking_interval_days`

			`def picking_prepare_cutoff_line(self, vdict, account_mapping):`
			`dpo = self.env["decimal.precision"]`
			`qty_prec = dpo.precision_get("Product Unit of Measure")`
			`if self.cutoff_type in ("accrued_expense", "accrued_revenue"):`
			`qty = vdict["precut_delivered_qty"] - vdict["precut_invoiced_qty"]`
			`qty_label = _("Pre-cutoff delivered quantity minus invoiced quantity:")`
			`elif self.cutoff_type in ("prepaid_expense", "prepaid_revenue"):`
			`qty = vdict["precut_invoiced_qty"] - vdict["precut_delivered_qty"]`
			`qty_label = _("Pre-cutoff invoiced quantity minus delivered quantity:")`

			`if float_compare(qty, 0, precision_digits=qty_prec) <= 0:`
			`return False`

			`company_currency = self.company_currency_id`
			`currency = vdict["currency"]`
			`sign = self.cutoff_type in ("accrued_expense", "prepaid_revenue") and -1 or 1`
			`amount = qty * vdict["price_unit"] * sign`
			`amount_company_currency = vdict["currency"]._convert(`
			`amount, company_currency, self.company_id, self.cutoff_date`
			`)`

			`# Use account mapping`
			`account_id = vdict["account_id"]`
			`if account_id in account_mapping:`
			`cutoff_account_id = account_mapping[account_id]`
			`else:`
			`cutoff_account_id = account_id`
			`uom_name = vdict["product"].uom_id.name`
			`notes = vdict["notes"]`
			`precut_delivered_qty_fl = formatLang(`
			`self.env, vdict.get("precut_delivered_qty", 0), dp="Product Unit of Measure"`
			`)`
			`notes += (`
			`"\n"`
			`+ _("Pre-cutoff delivered quantity:")`
			`+ f" {precut_delivered_qty_fl} {uom_name}"`
			`)`
			`if vdict.get("precut_delivered_logs"):`
			`param = "\n".join(vdict["precut_delivered_logs"])`
			`notes += "\n" + _("Pre-cutoff delivered quantity details:") + f"\n{param}"`
			`precut_invoiced_qty_fl = formatLang(`
			`self.env, vdict.get("precut_invoiced_qty", 0), dp="Product Unit of Measure"`
			`)`
			`notes += (`
			`"\n"`
			`+ _("Pre-cutoff invoiced quantity:")`
			`+ f" {precut_invoiced_qty_fl} {uom_name}"`
			`)`
			`if vdict.get("precut_invoiced_logs"):`
			`param = "\n".join(vdict["precut_invoiced_logs"])`
			`notes += "\n" + _("Pre-cutoff invoiced quantity details:") + f"\n{param}"`
			`qty_fl = formatLang(self.env, qty, dp="Product Unit of Measure")`
			`notes += f"\n{qty_label} {qty_fl} {uom_name}"`

			`vals = {`
			`"parent_id": self.id,`
			`"partner_id": vdict["partner"].id,`
			`"name": vdict["name"],`
			`"account_id": account_id,`
			`"cutoff_account_id": cutoff_account_id,`
			`"analytic_distribution": vdict["analytic_distribution"],`
			`"currency_id": vdict["currency"].id,`
			`"quantity": qty,`
			`"price_unit": vdict["price_unit"],`
			`"amount": amount,`
			`"cutoff_amount": amount_company_currency,`
			`"price_origin": vdict.get("price_origin"),`
			`"notes": notes,`
			`}`

			`if (`
			`self.cutoff_type in ("accrued_expense", "accrued_revenue")`
			`and vdict["taxes"]`
			`and self.company_id.accrual_taxes`
			`):`
			`# vdict["price_unit"] is a price without tax,`
			`# so I set handle_price_include=False`
			`tax_compute_all_res = vdict["taxes"].compute_all(`
			`vdict["price_unit"],`
			`currency=currency,`
			`quantity=qty * sign,`
			`product=vdict["product"],`
			`partner=vdict["partner"],`
			`handle_price_include=False,`
			`)`
			`vals["tax_line_ids"] = self._prepare_tax_lines(`
			`tax_compute_all_res, self.company_currency_id`
			`)`
			`return vals`

			`def order_line_update_oline_dict(`
			`self, order_line, order_type, oline_dict, cutoff_datetime`
			`):`
			`assert order_line not in oline_dict`
			`order = order_line.order_id # same on PO and SO`
			`oline_dict[order_line] = {`
			`"precut_delivered_qty": 0.0, # in product_uom`
			`"precut_delivered_logs": [],`
			`"precut_invoiced_qty": 0.0, # in product_uom`
			`"precut_invoiced_logs": [],`
			`"name": ": ".join([order.name, order_line.name]),`
			`"product": order_line.product_id,`
			`"partner": order.partner_id.commercial_partner_id,`
			`"notes": "",`
			`"price_unit": 0.0,`
			`"price_origin": False,`
			`"currency": False,`
			`"analytic_distribution": False,`
			`"account_id": False,`
			`"taxes": False,`
			`}`
			`self.order_line_update_oline_dict_from_stock_moves(`
			`order_line, order_type, oline_dict, cutoff_datetime`
			`)`
			`self.order_line_update_oline_dict_from_invoice_lines(`
			`order_line, order_type, oline_dict, cutoff_datetime`
			`)`
			`if not oline_dict[order_line]["price_origin"]:`
			`self.order_line_update_oline_dict_price_fallback(`
			`order_line, order_type, oline_dict`
			`)`

			`def order_line_update_oline_dict_from_stock_moves(`
			`self, order_line, order_type, oline_dict, cutoff_datetime`
			`):`
			`wdict = oline_dict[order_line]`
			`# These fields/methods have the same name on PO and SO`
			`order = order_line.order_id`
			`product = order_line.product_id`
			`product_uom = product.uom_id`
			`outgoing_moves, incoming_moves = order_line._get_outgoing_incoming_moves()`
			`if order_type == "purchase":`
			`ordered_qty = order_line.product_uom._compute_quantity(`
			`order_line.product_qty, product_uom`
			`)`
			`wdict["notes"] = _(`
			`"Purchase order %(order)s confirmed on %(confirm_date)s\n"`
			`"Purchase Order Line: %(order_line)s (ordered qty: %(qty)s %(uom)s)"`
			`) % {`
			`"order": order.name,`
			`"confirm_date": format_datetime(self.env, order.date_approve),`
			`"order_line": order_line.name,`
			`"qty": formatLang(self.env, ordered_qty, dp="Product Unit of Measure"),`
			`"uom": product_uom.name,`
			`}`
			`elif order_type == "sale":`
			`ordered_qty = order_line.product_uom._compute_quantity(`
			`order_line.product_uom_qty, product_uom`
			`)`
			`wdict["notes"] = _(`
			`"Sale order %(order)s confirmed on %(confirm_date)s\n"`
			`"Sale Order Line: %(order_line)s (ordered qty: %(qty)s %(uom)s)"`
			`) % {`
			`"order": order.name,`
			`"confirm_date": format_datetime(self.env, order.date_order),`
			`"order_line": order_line.name,`
			`"qty": formatLang(self.env, ordered_qty, dp="Product Unit of Measure"),`
			`"uom": product_uom.name,`
			`}`
			`move_logs = []`
			`for out_move in outgoing_moves.filtered(`
			`lambda m: m.state == "done" and m.date <= cutoff_datetime`
			`):`
			`sign = order_type == "purchase" and -1 or 1`
			`move_qty = out_move.product_uom._compute_quantity(`
			`out_move.quantity * sign, product_uom`
			`)`
			`move_logs.append((out_move, move_qty))`
			`for in_move in incoming_moves.filtered(`
			`lambda m: m.state == "done" and m.date <= cutoff_datetime`
			`):`
			`sign = order_type == "sale" and -1 or 1`
			`move_qty = in_move.product_uom._compute_quantity(`
			`in_move.quantity * sign, product_uom`
			`)`
			`move_logs.append((in_move, move_qty))`
			`move_logs_sorted = sorted(move_logs, key=lambda to_sort: to_sort[0].date)`
			`for move, move_qty_signed in move_logs_sorted:`
			`wdict["precut_delivered_qty"] += move_qty_signed`
			`move_qty_signed_formatted = formatLang(`
			`self.env, move_qty_signed, dp="Product Unit of Measure"`
			`)`
			`wdict["precut_delivered_logs"].append(`
			`_(`
			`" • %(qty)s %(uom)s (picking %(picking)s transfered on %(date)s "`
			`"from %(src_location)s to %(dest_location)s)"`
			`)`
			`% {`
			`"qty": move_qty_signed_formatted,`
			`"uom": move.product_id.uom_id.name,`
			`"picking": move.picking_id.name or "none",`
			`"date": format_datetime(self.env, move.date),`
			`"src_location": move.location_id.display_name,`
			`"dest_location": move.location_dest_id.display_name,`
			`}`
			`)`

			`def order_line_update_oline_dict_from_invoice_lines(`
			`self, order_line, order_type, oline_dict, cutoff_datetime`
			`):`
			`wdict = oline_dict[order_line]`
			`dpo = self.env["decimal.precision"]`
			`qty_prec = dpo.precision_get("Product Unit of Measure")`
			`move_type2label = dict(`
			`self.env["account.move"].fields_get("move_type", "selection")["move_type"][`
			`"selection"`
			`]`
			`)`
			`# These fields have the same name on PO and SO`
			`product = order_line.product_id`
			`product_uom = product.uom_id`
			`if self.source_move_state == "posted":`
			`ilines = order_line.invoice_lines.filtered(`
			`lambda x: x.parent_state == "posted"`
			`)`
			`else:`
			`ilines = order_line.invoice_lines.filtered(`
			`lambda x: x.parent_state in ("draft", "posted")`
			`)`
			`for iline in ilines:`
			`invoice = iline.move_id`
			`if not float_is_zero(iline.quantity, precision_digits=qty_prec):`
			`sign = invoice.move_type in ("out_refund", "in_refund") and -1 or 1`
			`iline_qty_puom = iline.product_uom_id._compute_quantity(`
			`iline.quantity * sign, product_uom`
			`)`
			`if invoice.date <= self.cutoff_date:`
			`wdict["precut_invoiced_qty"] += iline_qty_puom`
			`iline_qty_puom_formatted = formatLang(`
			`self.env, iline_qty_puom, dp="Product Unit of Measure"`
			`)`
			`qty = iline_qty_puom_formatted`
			`uom = iline.product_id.uom_id.name`
			`move_type = move_type2label[invoice.move_type]`
			`move_name = invoice.name`
			`date = format_date(self.env, invoice.date)`
			`wdict["precut_invoiced_logs"].append(`
			`f" • {qty} {uom} ({move_type} {move_name} dated {date})"`
			`)`
			`# Most recent invoice line used for price_unit, account,...`
			`wdict["price_unit"] = iline.price_subtotal / iline_qty_puom`
			`wdict["price_origin"] = invoice.name`
			`wdict["currency"] = invoice.currency_id`
			`wdict["account_id"] = iline.account_id.id`
			`wdict["analytic_distribution"] = iline.analytic_distribution`
			`wdict["taxes"] = iline.tax_ids`

			`def order_line_update_oline_dict_price_fallback(`
			`self, order_line, order_type, oline_dict`
			`):`
			`wdict = oline_dict[order_line]`
			`order = order_line.order_id`
			`product = order_line.product_id`
			`if order_type == "purchase":`
			`oline_qty_puom = order_line.product_uom._compute_quantity(`
			`order_line.product_qty, product.uom_id`
			`)`
			`wdict["price_unit"] = order_line.price_subtotal / oline_qty_puom`
			`wdict["price_origin"] = order.name`
			`wdict["currency"] = order.currency_id`
			`wdict["analytic_distribution"] = order_line.analytic_distribution`
			`wdict["taxes"] = order_line.taxes_id`
			`account = product._get_product_accounts()["expense"]`
			`if not account:`
			`raise UserError(`
			`_(`
			`"Missing expense account on product '%(product)s' or on its "`
			`"related product category '%(categ)s'."`
			`)`
			`% {`
			`"product": product.display_name,`
			`"categ": product.categ_id.display_name,`
			`}`
			`)`
			`wdict["account_id"] = order.fiscal_position_id.map_account(account).id`
			`elif order_type == "sale":`
			`oline_qty_puom = order_line.product_uom._compute_quantity(`
			`order_line.product_uom_qty, product.uom_id`
			`)`
			`wdict["price_unit"] = order_line.price_subtotal / oline_qty_puom`
			`wdict["price_origin"] = order.name`
			`wdict["currency"] = order.currency_id`
			`wdict["analytic_distribution"] = order_line.analytic_distribution`
			`wdict["taxes"] = order_line.tax_id`
			`account = product._get_product_accounts()["income"]`
			`if not account:`
			`raise UserError(`
			`_(`
			`"Missing income account on product '%(product)s' or on its "`
			`"related product category '%(categ)s'."`
			`)`
			`% {`
			`"product": product.display_name,`
			`"categ": product.categ_id.display_name,`
			`}`
			`)`
			`wdict["account_id"] = order.fiscal_position_id.map_account(account).id`

			`def stock_move_update_oline_dict(self, move_line, oline_dict, cutoff_datetime):`
			`dpo = self.env["decimal.precision"]`
			`qty_prec = dpo.precision_get("Product Unit of Measure")`
			`if self.cutoff_type == "accrued_expense":`
			`if (`
			`move_line.purchase_line_id`
			`and move_line.purchase_line_id not in oline_dict`
			`and not float_is_zero(`
			`move_line.purchase_line_id.product_qty, precision_digits=qty_prec`
			`)`
			`):`
			`self.order_line_update_oline_dict(`
			`move_line.purchase_line_id, "purchase", oline_dict, cutoff_datetime`
			`)`
			`elif self.cutoff_type == "accrued_revenue":`
			`if (`
			`move_line.sale_line_id`
			`and move_line.sale_line_id not in oline_dict`
			`and not float_is_zero(`
			`move_line.sale_line_id.product_uom_qty, precision_digits=qty_prec`
			`)`
			`):`
			`self.order_line_update_oline_dict(`
			`move_line.sale_line_id, "sale", oline_dict, cutoff_datetime`
			`)`

			`def invoice_line_update_oline_dict(self, inv_line, oline_dict, cutoff_datetime):`
			`dpo = self.env["decimal.precision"]`
			`qty_prec = dpo.precision_get("Product Unit of Measure")`
			`if self.cutoff_type == "prepaid_expense":`
			`if (`
			`inv_line.purchase_line_id`
			`and inv_line.purchase_line_id not in oline_dict`
			`and not float_is_zero(`
			`inv_line.purchase_line_id.product_qty, precision_digits=qty_prec`
			`)`
			`):`
			`self.order_line_update_oline_dict(`
			`inv_line.purchase_line_id, "purchase", oline_dict, cutoff_datetime`
			`)`
			`elif self.cutoff_type == "prepaid_revenue":`
			`for so_line in inv_line.sale_line_ids:`
			`if so_line not in oline_dict and not float_is_zero(`
			`so_line.product_uom_qty, precision_digits=qty_prec`
			`):`
			`self.order_line_update_oline_dict(`
			`so_line, "sale", oline_dict, cutoff_datetime`
			`)`

			`def get_lines(self):`
			`res = super().get_lines()`
			`aclo = self.env["account.cutoff.line"]`

			`account_mapping = self._get_mapping_dict()`
			`cutoff_type = self.cutoff_type`
			`cutoff_datetime = self._get_cutoff_datetime()`

			`oline_dict = {} # order line dict`
			`# key = PO line or SO line recordset`
			`# value = {`
			`# 'precut_delivered_qty': 1.0,`
			`# 'precut_invoiced_qty': 0.0,`
			`# 'price_unit': 12.42,`
			`# }`

			`# ACCRUAL :`
			`# starting point : picking`
			`# then, go to order line. From order line, go to stock moves and invoices lines`
			`# => gen cutoff line if precut_delivered_qty - precut_invoiced_qty > 0`
			`# PREPAID :`
			`# starting point : invoice`
			`# then, go to order line. From order line, go to stock moves and invoices lines`
			`# => gen cutoff line if precut_invoiced_qty - precut_delivered_qty > 0`

			`# ACCURAL`
			`if cutoff_type in ("accrued_revenue", "accrued_expense"):`
			`pick_type_map = {`
			`"accrued_revenue": "outgoing",`
			`"accrued_expense": "incoming",`
			`}`

			`min_date_dt = cutoff_datetime - relativedelta(`
			`days=self.picking_interval_days`
			`)`

			`pickings = self.env["stock.picking"].search(`
			`[`
			`("picking_type_code", "=", pick_type_map[cutoff_type]),`
			`("state", "=", "done"),`
			`("date_done", "<=", cutoff_datetime),`
			`("date_done", ">=", min_date_dt),`
			`("company_id", "=", self.company_id.id),`
			`]`
			`)`

			`for p in pickings:`
			`for move in p.move_ids.filtered(lambda m: m.state == "done"):`
			`self.stock_move_update_oline_dict(move, oline_dict, cutoff_datetime)`
			`elif cutoff_type in ("prepaid_revenue", "prepaid_expense"):`
			`move_type_map = {`
			`"prepaid_revenue": ("out_invoice", "out_refund"),`
			`"prepaid_expense": ("in_invoice", "in_refund"),`
			`}`
			`min_date = self.cutoff_date - relativedelta(days=self.picking_interval_days)`
			`inv_domain = [`
			`("move_type", "in", move_type_map[cutoff_type]),`
			`("date", "<=", self.cutoff_date),`
			`("date", ">=", min_date),`
			`("company_id", "=", self.company_id.id),`
			`]`
			`if self.source_move_state == "posted":`
			`inv_domain.append(("state", "=", "posted"))`
			`else:`
			`inv_domain.append(("state", "in", ("draft", "posted")))`
			`invoices = self.env["account.move"].search(inv_domain)`
			`for invoice in invoices:`
			`for iline in invoice.invoice_line_ids.filtered(`
			`lambda x: x.display_type == "product"`
			`and x.product_id.type in ("product", "consu")`
			`):`
			`self.invoice_line_update_oline_dict(`
			`iline, oline_dict, cutoff_datetime`
			`)`

			`# from pprint import pprint`
			`# pprint(oline_dict)`
			`for vdict in oline_dict.values():`
			`vals = self.picking_prepare_cutoff_line(vdict, account_mapping)`
			`if vals:`
			`aclo.create(vals)`
			`return res`

			`def _get_cutoff_datetime(self):`
			`self.ensure_one()`
			`cutoff_date = datetime.combine(self.cutoff_date, datetime.max.time())`
			`tz = self.env.user.tz and pytz.timezone(self.env.user.tz) or pytz.utc`
			`cutoff_datetime_aware = tz.localize(cutoff_date)`
			`cutoff_datetime_utc = cutoff_datetime_aware.astimezone(pytz.utc)`
			`cutoff_datetime_utc_naive = cutoff_datetime_utc.replace(tzinfo=None)`
			`return cutoff_datetime_utc_naive`