# -*- coding: utf-8 -*- from odoo import api, models class AccountMoveLine(models.Model): _inherit = 'account.move.line' @api.model def _get_query_tax_details_from_domain(self, domain, fallback=True): """ Create the tax details sub-query based on the orm domain passed as parameter. :param domain: An orm domain on account.move.line. :param fallback: Fallback on an approximated mapping if the mapping failed. :return: A tuple . """ self.env['account.move.line'].check_access_rights('read') query = self.env['account.move.line']._where_calc(domain) # Wrap the query with 'company_id IN (...)' to avoid bypassing company access rights. self.env['account.move.line']._apply_ir_rules(query) tables, where_clause, where_params = query.get_sql() return self._get_query_tax_details(tables, where_clause, where_params, fallback=fallback) @api.model def _get_extra_query_base_tax_line_mapping(self): #TO OVERRIDE return '' @api.model def _get_query_tax_details(self, tables, where_clause, where_params, fallback=True): """ Create the tax details sub-query based on the orm domain passed as parameter. :param tables: The 'tables' query to inject after the FROM. :param where_clause: The 'where_clause' query computed based on an orm domain. :param where_params: The params to fill the 'where_clause' query. :param fallback: Fallback on an approximated mapping if the mapping failed. :return: A tuple . """ group_taxes = self.env['account.tax'].search([('amount_type', '=', 'group')]) group_taxes_query_list = [] group_taxes_params = [] for group_tax in group_taxes: children_taxes = group_tax.children_tax_ids if not children_taxes: continue children_taxes_in_query = ','.join('%s' for dummy in children_taxes) group_taxes_query_list.append(f'WHEN tax.id = %s THEN ARRAY[{children_taxes_in_query}]') group_taxes_params.append(group_tax.id) group_taxes_params.extend(children_taxes.ids) if group_taxes_query_list: group_taxes_query = f'''UNNEST(CASE {' '.join(group_taxes_query_list)} ELSE ARRAY[tax.id] END)''' else: group_taxes_query = 'tax.id' if fallback: fallback_query = f''' UNION ALL SELECT account_move_line.id AS tax_line_id, base_line.id AS base_line_id, base_line.id AS src_line_id, base_line.balance AS base_amount, base_line.amount_currency AS base_amount_currency FROM {tables} LEFT JOIN base_tax_line_mapping ON base_tax_line_mapping.tax_line_id = account_move_line.id JOIN account_move_line_account_tax_rel tax_rel ON tax_rel.account_tax_id = COALESCE(account_move_line.group_tax_id, account_move_line.tax_line_id) JOIN account_move_line base_line ON base_line.id = tax_rel.account_move_line_id AND base_line.tax_repartition_line_id IS NULL AND base_line.move_id = account_move_line.move_id AND base_line.currency_id = account_move_line.currency_id WHERE base_tax_line_mapping.tax_line_id IS NULL AND {where_clause} ''' fallback_params = where_params else: fallback_query = '' fallback_params = [] extra_query_base_tax_line_mapping = self._get_extra_query_base_tax_line_mapping() return f''' /* As example to explain the different parts of the query, we'll consider a move with the following lines: Name Tax_line_id Tax_ids Debit Credit Base lines --------------------------------------------------------------------------------------------------- base_line_1 10_affect_base, 20 1000 base_line_2 10_affect_base, 5 2000 base_line_3 10_affect_base, 5 3000 tax_line_1 10_affect_base 20 100 base_line_1 tax_line_2 20 220 base_line_1 tax_line_3 10_affect_base 5 500 base_line_2/3 tax_line_4 5 275 base_line_2/3 */ WITH affecting_base_tax_ids AS ( /* This CTE builds a reference table based on the tax_ids field, with the following changes: - flatten the group of taxes - exclude the taxes having 'is_base_affected' set to False. Those allow to match only base_line_1 when finding the base lines of tax_line_1, as we need to find base lines having a 'affecting_base_tax_ids' ending with [10_affect_base, 20], not only containing '10_affect_base'. Otherwise, base_line_2/3 would also be matched. In our example, as all the taxes are set to be affected by previous ones affecting the base, the result is similar to the table 'account_move_line_account_tax_rel': Id Tax_ids ------------------------------------------- base_line_1 [10_affect_base, 20] base_line_2 [10_affect_base, 5] base_line_3 [10_affect_base, 5] */ SELECT sub.line_id AS id, ARRAY_AGG(sub.tax_id ORDER BY sub.sequence, sub.tax_id) AS tax_ids FROM ( SELECT tax_rel.account_move_line_id AS line_id, {group_taxes_query} AS tax_id, tax.sequence FROM {tables} JOIN account_move_line_account_tax_rel tax_rel ON account_move_line.id = tax_rel.account_move_line_id JOIN account_tax tax ON tax.id = tax_rel.account_tax_id WHERE tax.is_base_affected AND {where_clause} ) AS sub GROUP BY sub.line_id ), base_tax_line_mapping AS ( /* Create the mapping of each tax lines with their corresponding base lines. In the example, it will give the following values: base_line_id tax_line_id base_amount ------------------------------------------- base_line_1 tax_line_1 1000 base_line_1 tax_line_2 1000 base_line_2 tax_line_3 2000 base_line_2 tax_line_4 2000 base_line_3 tax_line_3 3000 base_line_3 tax_line_4 3000 */ SELECT account_move_line.id AS tax_line_id, base_line.id AS base_line_id, base_line.balance AS base_amount, base_line.amount_currency AS base_amount_currency FROM {tables} JOIN account_tax_repartition_line tax_rep ON tax_rep.id = account_move_line.tax_repartition_line_id JOIN account_tax tax ON tax.id = account_move_line.tax_line_id JOIN res_currency curr ON curr.id = account_move_line.currency_id JOIN res_currency comp_curr ON comp_curr.id = account_move_line.company_currency_id JOIN account_move_line_account_tax_rel tax_rel ON tax_rel.account_tax_id = COALESCE(account_move_line.group_tax_id, account_move_line.tax_line_id) JOIN account_move move ON move.id = account_move_line.move_id JOIN account_move_line base_line ON base_line.id = tax_rel.account_move_line_id AND base_line.tax_repartition_line_id IS NULL AND base_line.move_id = account_move_line.move_id AND ( move.move_type != 'entry' OR sign(account_move_line.balance) = sign(base_line.balance * tax.amount * tax_rep.factor_percent) ) AND COALESCE(base_line.partner_id, 0) = COALESCE(account_move_line.partner_id, 0) AND base_line.currency_id = account_move_line.currency_id AND ( COALESCE(tax_rep.account_id, base_line.account_id) = account_move_line.account_id OR (tax.tax_exigibility = 'on_payment' AND tax.cash_basis_transition_account_id IS NOT NULL) ) AND ( NOT tax.analytic OR (base_line.analytic_distribution IS NULL AND account_move_line.analytic_distribution IS NULL) OR base_line.analytic_distribution = account_move_line.analytic_distribution ) {extra_query_base_tax_line_mapping} LEFT JOIN affecting_base_tax_ids tax_line_tax_ids ON tax_line_tax_ids.id = account_move_line.id JOIN affecting_base_tax_ids base_line_tax_ids ON base_line_tax_ids.id = base_line.id WHERE account_move_line.tax_repartition_line_id IS NOT NULL AND {where_clause} AND ( -- keeping only the rows from affecting_base_tax_lines that end with the same taxes applied (see comment in affecting_base_tax_ids) NOT tax.include_base_amount OR base_line_tax_ids.tax_ids[ARRAY_LENGTH(base_line_tax_ids.tax_ids, 1) - COALESCE(ARRAY_LENGTH(tax_line_tax_ids.tax_ids, 1), 0):ARRAY_LENGTH(base_line_tax_ids.tax_ids, 1)] = ARRAY[account_move_line.tax_line_id] || COALESCE(tax_line_tax_ids.tax_ids, ARRAY[]::INTEGER[]) ) ), tax_amount_affecting_base_to_dispatch AS ( /* Computes the total amount to dispatch in case of tax lines affecting the base of subsequent taxes. Such tax lines are an additional base amount for others lines, that will be truly dispatch in next CTE. In the example: - tax_line_1 is an additional base of 100.0 from base_line_1 for tax_line_2. - tax_line_3 is an additional base of 2/5 * 500.0 = 200.0 from base_line_2 for tax_line_4. - tax_line_3 is an additional base of 3/5 * 500.0 = 300.0 from base_line_3 for tax_line_4. src_line_id base_line_id tax_line_id total_base_amount ------------------------------------------------------------- tax_line_1 base_line_1 tax_line_2 1000 tax_line_3 base_line_2 tax_line_4 5000 tax_line_3 base_line_3 tax_line_4 5000 */ SELECT tax_line.id AS tax_line_id, base_line.id AS base_line_id, account_move_line.id AS src_line_id, tax_line.company_id, comp_curr.id AS company_currency_id, comp_curr.decimal_places AS comp_curr_prec, curr.id AS currency_id, curr.decimal_places AS curr_prec, tax_line.tax_line_id AS tax_id, base_line.balance AS base_amount, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.balance < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE base_line.balance END ) OVER (PARTITION BY tax_line.id, account_move_line.id ORDER BY tax_line.tax_line_id, base_line.id) AS cumulated_base_amount, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.balance < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE base_line.balance END ) OVER (PARTITION BY tax_line.id, account_move_line.id) AS total_base_amount, account_move_line.balance AS total_tax_amount, base_line.amount_currency AS base_amount_currency, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.amount_currency < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE base_line.amount_currency END ) OVER (PARTITION BY tax_line.id, account_move_line.id ORDER BY tax_line.tax_line_id, base_line.id) AS cumulated_base_amount_currency, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.amount_currency < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE base_line.amount_currency END ) OVER (PARTITION BY tax_line.id, account_move_line.id) AS total_base_amount_currency, account_move_line.amount_currency AS total_tax_amount_currency FROM {tables} JOIN account_tax tax_include_base_amount ON tax_include_base_amount.include_base_amount AND tax_include_base_amount.id = account_move_line.tax_line_id JOIN base_tax_line_mapping base_tax_line_mapping ON base_tax_line_mapping.tax_line_id = account_move_line.id JOIN account_move_line_account_tax_rel tax_rel ON tax_rel.account_move_line_id = base_tax_line_mapping.tax_line_id JOIN account_tax tax ON tax.id = tax_rel.account_tax_id JOIN base_tax_line_mapping tax_line_matching ON tax_line_matching.base_line_id = base_tax_line_mapping.base_line_id JOIN account_move_line tax_line ON tax_line.id = tax_line_matching.tax_line_id AND tax_line.tax_line_id = tax_rel.account_tax_id JOIN res_currency curr ON curr.id = tax_line.currency_id JOIN res_currency comp_curr ON comp_curr.id = tax_line.company_currency_id JOIN account_move_line base_line ON base_line.id = base_tax_line_mapping.base_line_id WHERE {where_clause} ), base_tax_matching_base_amounts AS ( /* Build here the full mapping tax lines <=> base lines containing the final base amounts. This is done in a 3-parts union. Note: src_line_id is used only to build a unique ID. */ /* PART 1: raw mapping computed in base_tax_line_mapping. */ SELECT tax_line_id, base_line_id, base_line_id AS src_line_id, base_amount, base_amount_currency FROM base_tax_line_mapping UNION ALL /* PART 2: Dispatch the tax amount of tax lines affecting the base of subsequent ones, using tax_amount_affecting_base_to_dispatch. This will effectively add the following rows: base_line_id tax_line_id src_line_id base_amount ------------------------------------------------------------- base_line_1 tax_line_2 tax_line_1 100 base_line_2 tax_line_4 tax_line_3 200 base_line_3 tax_line_4 tax_line_3 300 */ SELECT sub.tax_line_id, sub.base_line_id, sub.src_line_id, ROUND( COALESCE(SIGN(sub.cumulated_base_amount) * sub.total_tax_amount * ABS(sub.cumulated_base_amount) / NULLIF(sub.total_base_amount, 0.0), 0.0), sub.comp_curr_prec ) - LAG(ROUND( COALESCE(SIGN(sub.cumulated_base_amount) * sub.total_tax_amount * ABS(sub.cumulated_base_amount) / NULLIF(sub.total_base_amount, 0.0), 0.0), sub.comp_curr_prec ), 1, 0.0) OVER ( PARTITION BY sub.tax_line_id, sub.src_line_id ORDER BY sub.tax_id, sub.base_line_id ) AS base_amount, ROUND( COALESCE(SIGN(sub.cumulated_base_amount_currency) * sub.total_tax_amount_currency * ABS(sub.cumulated_base_amount_currency) / NULLIF(sub.total_base_amount_currency, 0.0), 0.0), sub.curr_prec ) - LAG(ROUND( COALESCE(SIGN(sub.cumulated_base_amount_currency) * sub.total_tax_amount_currency * ABS(sub.cumulated_base_amount_currency) / NULLIF(sub.total_base_amount_currency, 0.0), 0.0), sub.curr_prec ), 1, 0.0) OVER ( PARTITION BY sub.tax_line_id, sub.src_line_id ORDER BY sub.tax_id, sub.base_line_id ) AS base_amount_currency FROM tax_amount_affecting_base_to_dispatch sub JOIN account_move_line tax_line ON tax_line.id = sub.tax_line_id /* PART 3: In case of the matching failed because the configuration changed or some journal entries have been imported, construct a simple mapping as a fallback. This mapping is super naive and only build based on the 'tax_ids' and 'tax_line_id' fields, nothing else. Hence, the mapping will not be exact but will give an acceptable approximation. Skipped if the 'fallback' method parameter is False. */ {fallback_query} ), base_tax_matching_all_amounts AS ( /* Complete base_tax_matching_base_amounts with the tax amounts (prorata): base_line_id tax_line_id src_line_id base_amount tax_amount -------------------------------------------------------------------------- base_line_1 tax_line_1 base_line_1 1000 100 base_line_1 tax_line_2 base_line_1 1000 (1000 / 1100) * 220 = 200 base_line_1 tax_line_2 tax_line_1 100 (100 / 1100) * 220 = 20 base_line_2 tax_line_3 base_line_2 2000 (2000 / 5000) * 500 = 200 base_line_2 tax_line_4 base_line_2 2000 (2000 / 5500) * 275 = 100 base_line_2 tax_line_4 tax_line_3 200 (200 / 5500) * 275 = 10 base_line_3 tax_line_3 base_line_3 3000 (3000 / 5000) * 500 = 300 base_line_3 tax_line_4 base_line_3 3000 (3000 / 5500) * 275 = 150 base_line_3 tax_line_4 tax_line_3 300 (300 / 5500) * 275 = 15 */ SELECT sub.tax_line_id, sub.base_line_id, sub.src_line_id, tax_line.tax_line_id AS tax_id, tax_line.group_tax_id, tax_line.tax_repartition_line_id, tax_line.company_id, tax_line.display_type AS display_type, comp_curr.id AS company_currency_id, comp_curr.decimal_places AS comp_curr_prec, curr.id AS currency_id, curr.decimal_places AS curr_prec, ( tax.tax_exigibility != 'on_payment' OR tax_move.tax_cash_basis_rec_id IS NOT NULL OR tax_move.always_tax_exigible ) AS tax_exigible, base_line.account_id AS base_account_id, sub.base_amount, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.balance < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE sub.base_amount END ) OVER (PARTITION BY tax_line.id ORDER BY tax_line.tax_line_id, sub.base_line_id, sub.src_line_id) AS cumulated_base_amount, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.balance < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE sub.base_amount END ) OVER (PARTITION BY tax_line.id) AS total_base_amount, tax_line.balance AS total_tax_amount, sub.base_amount_currency, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.amount_currency < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE sub.base_amount_currency END ) OVER (PARTITION BY tax_line.id ORDER BY tax_line.tax_line_id, sub.base_line_id, sub.src_line_id) AS cumulated_base_amount_currency, SUM( CASE WHEN tax.amount_type = 'fixed' THEN CASE WHEN base_line.amount_currency < 0 THEN -1 ELSE 1 END * ABS(COALESCE(base_line.quantity, 1.0)) ELSE sub.base_amount_currency END ) OVER (PARTITION BY tax_line.id) AS total_base_amount_currency, tax_line.amount_currency AS total_tax_amount_currency FROM base_tax_matching_base_amounts sub JOIN account_move_line tax_line ON tax_line.id = sub.tax_line_id JOIN account_move tax_move ON tax_move.id = tax_line.move_id JOIN account_move_line base_line ON base_line.id = sub.base_line_id JOIN account_tax tax ON tax.id = tax_line.tax_line_id JOIN res_currency curr ON curr.id = tax_line.currency_id JOIN res_currency comp_curr ON comp_curr.id = tax_line.company_currency_id ) /* Final select that makes sure to deal with rounding errors, using LAG to dispatch the last cents. */ SELECT sub.tax_line_id || '-' || sub.base_line_id || '-' || sub.src_line_id AS id, sub.base_line_id, sub.tax_line_id, sub.display_type, sub.src_line_id, sub.tax_id, sub.group_tax_id, sub.tax_exigible, sub.base_account_id, sub.tax_repartition_line_id, sub.base_amount, COALESCE( ROUND( COALESCE(SIGN(sub.cumulated_base_amount) * sub.total_tax_amount * ABS(sub.cumulated_base_amount) / NULLIF(sub.total_base_amount, 0.0), 0.0), sub.comp_curr_prec ) - LAG(ROUND( COALESCE(SIGN(sub.cumulated_base_amount) * sub.total_tax_amount * ABS(sub.cumulated_base_amount) / NULLIF(sub.total_base_amount, 0.0), 0.0), sub.comp_curr_prec ), 1, 0.0) OVER ( PARTITION BY sub.tax_line_id ORDER BY sub.tax_id, sub.base_line_id ), 0.0 ) AS tax_amount, sub.base_amount_currency, COALESCE( ROUND( COALESCE(SIGN(sub.cumulated_base_amount_currency) * sub.total_tax_amount_currency * ABS(sub.cumulated_base_amount_currency) / NULLIF(sub.total_base_amount_currency, 0.0), 0.0), sub.curr_prec ) - LAG(ROUND( COALESCE(SIGN(sub.cumulated_base_amount_currency) * sub.total_tax_amount_currency * ABS(sub.cumulated_base_amount_currency) / NULLIF(sub.total_base_amount_currency, 0.0), 0.0), sub.curr_prec ), 1, 0.0) OVER ( PARTITION BY sub.tax_line_id ORDER BY sub.tax_id, sub.base_line_id ), 0.0 ) AS tax_amount_currency FROM base_tax_matching_all_amounts sub ''', group_taxes_params + where_params + where_params + where_params + fallback_params