# -*- coding: utf-8 -*- ############################################################################# # # Cybrosys Technologies Pvt. Ltd. # # Copyright (C) 2022-TODAY Cybrosys Technologies() # Author: Midilaj () # # You can modify it under the terms of the GNU LESSER # GENERAL PUBLIC LICENSE (LGPL v3), Version 3. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU LESSER GENERAL PUBLIC LICENSE (LGPL v3) for more details. # # You should have received a copy of the GNU LESSER GENERAL PUBLIC LICENSE # (LGPL v3) along with this program. # If not, see . # ############################################################################# import time from datetime import date, datetime import pytz import json import datetime import io from odoo import api, fields, models, _ from odoo.tools import date_utils try: from odoo.tools.misc import xlsxwriter except ImportError: import xlsxwriter class StockReport(models.TransientModel): _name = "wizard.stock.history" _description = "Current Stock History" warehouse_ids = fields.Many2many('stock.warehouse', 'wh_wiz_rel', 'wh', 'wiz', string='Warehouse', required=True) category_ids = fields.Many2many('product.category', 'categ_wiz_rel', 'categ', 'wiz', string='Category') def export_xls(self): data = { 'ids': self.ids, 'model': self._name, 'warehouse': self.warehouse_ids.ids, 'category': self.category_ids.ids, } return { 'type': 'ir.actions.report', 'data': {'model': 'wizard.stock.history', 'options': json.dumps(data, default=date_utils.json_default), 'output_format': 'xlsx', 'report_name': 'Current Stock History', }, 'report_type': 'stock_xlsx' } def get_warehouse(self, data): wh = data.warehouse_ids.mapped('id') obj = self.env['stock.warehouse'].search([('id', 'in', wh)]) l1 = [] l2 = [] for j in obj: l1.append(j.name) l2.append(j.id) return l1, l2 def get_lines(self, data, warehouse_ids): lines = [] categ_id = data.mapped('id') if categ_id: categ_products = self.env['product.product'].search([('categ_id', 'in', categ_id)]) else: categ_products = self.env['product.product'].search([]) product_ids = tuple([pro_id.id for pro_id in categ_products]) sale_query = """ SELECT sum(s_o_l.product_uom_qty) AS product_uom_qty, s_o_l.product_id FROM sale_order_line AS s_o_l JOIN sale_order AS s_o ON s_o_l.order_id = s_o.id WHERE s_o.state IN ('sale','done') AND s_o.warehouse_id = %s AND s_o_l.product_id in %s group by s_o_l.product_id""" purchase_query = """ SELECT sum(p_o_l.product_qty) AS product_qty, p_o_l.product_id FROM purchase_order_line AS p_o_l JOIN purchase_order AS p_o ON p_o_l.order_id = p_o.id INNER JOIN stock_picking_type AS s_p_t ON p_o.picking_type_id = s_p_t.id WHERE p_o.state IN ('purchase','done') AND s_p_t.warehouse_id = %s AND p_o_l.product_id in %s group by p_o_l.product_id""" params = warehouse_ids, product_ids if product_ids else (0, 0) self._cr.execute(sale_query, params) sol_query_obj = self._cr.dictfetchall() self._cr.execute(purchase_query, params) pol_query_obj = self._cr.dictfetchall() for obj in categ_products: sale_value = 0 purchase_value = 0 for sol_product in sol_query_obj: if sol_product['product_id'] == obj.id: sale_value = sol_product['product_uom_qty'] for pol_product in pol_query_obj: if pol_product['product_id'] == obj.id: purchase_value = pol_product['product_qty'] virtual_available = obj.with_context({'warehouse': warehouse_ids}).virtual_available outgoing_qty = obj.with_context({'warehouse': warehouse_ids}).outgoing_qty incoming_qty = obj.with_context({'warehouse': warehouse_ids}).incoming_qty available_qty = virtual_available + outgoing_qty - incoming_qty value = available_qty * obj.standard_price vals = { 'sku': obj.default_code, 'name': obj.name, 'category': obj.categ_id.name, 'cost_price': obj.standard_price, 'available': available_qty, 'virtual': virtual_available, 'incoming': incoming_qty, 'outgoing': outgoing_qty, 'net_on_hand': obj.with_context({'warehouse': warehouse_ids}).qty_available, 'total_value': value, 'sale_value': sale_value, 'purchase_value': purchase_value, } lines.append(vals) return lines def get_xlsx_report(self, data, response): output = io.BytesIO() workbook = xlsxwriter.Workbook(output, {'in_memory': True}) lines = self.browse(data['ids']) d = lines.category_ids get_warehouse = self.get_warehouse(lines) count = len(get_warehouse[0]) * 11 + 6 comp = self.env.user.company_id.name sheet = workbook.add_worksheet('Stock Info') format0 = workbook.add_format({'font_size': 20, 'align': 'center', 'bold': True}) format1 = workbook.add_format({'font_size': 14, 'align': 'vcenter', 'bold': True}) format11 = workbook.add_format({'font_size': 12, 'align': 'center', 'bold': True}) format21 = workbook.add_format({'font_size': 10, 'align': 'center', 'bold': True}) format3 = workbook.add_format({'bottom': True, 'top': True, 'font_size': 12}) format4 = workbook.add_format({'font_size': 12, 'align': 'left', 'bold': True}) font_size_8 = workbook.add_format({'font_size': 8, 'align': 'center'}) font_size_8_l = workbook.add_format({'font_size': 8, 'align': 'left'}) font_size_8_r = workbook.add_format({'font_size': 8, 'align': 'right'}) red_mark = workbook.add_format({'font_size': 8, 'bg_color': 'red'}) justify = workbook.add_format({'font_size': 12}) format3.set_align('center') justify.set_align('justify') format1.set_align('center') red_mark.set_align('center') sheet.merge_range(1, 7, 2, 10, 'Product Stock Info', format0) sheet.merge_range(3, 7, 3, 10, comp, format11) w_house = ', ' cat = ', ' c = [] d1 = d.mapped('id') if d1: for i in d1: c.append(self.env['product.category'].browse(i).name) cat = cat.join(c) sheet.merge_range(4, 0, 4, 1, 'Category(s) : ', format4) sheet.merge_range(4, 2, 4, 3 + len(d1), cat, format4) sheet.merge_range(5, 0, 5, 1, 'Warehouse(s) : ', format4) w_house = w_house.join(get_warehouse[0]) sheet.merge_range(5, 2, 5, 3 + len(get_warehouse[0]), w_house, format4) user = self.env['res.users'].browse(self.env.uid) tz = pytz.timezone(user.tz if user.tz else 'UTC') times = pytz.utc.localize(datetime.datetime.now()).astimezone(tz) sheet.merge_range('A8:G8', 'Report Date: ' + str(times.strftime("%Y-%m-%d %H:%M %p")), format1) sheet.merge_range(7, 7, 7, count, 'Warehouses', format1) sheet.merge_range('A9:G9', 'Product Information', format11) w_col_no = 6 w_col_no1 = 7 for i in get_warehouse[0]: w_col_no = w_col_no + 11 sheet.merge_range(8, w_col_no1, 8, w_col_no, i, format11) w_col_no1 = w_col_no1 + 11 sheet.write(9, 0, 'SKU', format21) sheet.merge_range(9, 1, 9, 3, 'Name', format21) sheet.merge_range(9, 4, 9, 5, 'Category', format21) sheet.write(9, 6, 'Cost Price', format21) p_col_no1 = 7 for i in get_warehouse[0]: sheet.write(9, p_col_no1, 'Available', format21) sheet.write(9, p_col_no1 + 1, 'Virtual', format21) sheet.write(9, p_col_no1 + 2, 'Incoming', format21) sheet.write(9, p_col_no1 + 3, 'Outgoing', format21) sheet.merge_range(9, p_col_no1 + 4, 9, p_col_no1 + 5, 'Net On Hand', format21) sheet.merge_range(9, p_col_no1 + 6, 9, p_col_no1 + 7, 'Total Sold', format21) sheet.merge_range(9, p_col_no1 + 8, 9, p_col_no1 + 9, 'Total Purchased', format21) sheet.write(9, p_col_no1 + 10, 'Valuation', format21) p_col_no1 = p_col_no1 + 11 prod_row = 10 prod_col = 0 for i in get_warehouse[1]: get_line = self.get_lines(d, i) for each in get_line: sheet.write(prod_row, prod_col, each['sku'], font_size_8) sheet.merge_range(prod_row, prod_col + 1, prod_row, prod_col + 3, each['name'], font_size_8_l) sheet.merge_range(prod_row, prod_col + 4, prod_row, prod_col + 5, each['category'], font_size_8_l) sheet.write(prod_row, prod_col + 6, each['cost_price'], font_size_8_r) prod_row = prod_row + 1 break prod_row = 10 prod_col = 7 for i in get_warehouse[1]: get_line = self.get_lines(d, i) for each in get_line: if each['available'] < 0: sheet.write(prod_row, prod_col, each['available'], red_mark) else: sheet.write(prod_row, prod_col, each['available'], font_size_8) if each['virtual'] < 0: sheet.write(prod_row, prod_col + 1, each['virtual'], red_mark) else: sheet.write(prod_row, prod_col + 1, each['virtual'], font_size_8) if each['incoming'] < 0: sheet.write(prod_row, prod_col + 2, each['incoming'], red_mark) else: sheet.write(prod_row, prod_col + 2, each['incoming'], font_size_8) if each['outgoing'] < 0: sheet.write(prod_row, prod_col + 3, each['outgoing'], red_mark) else: sheet.write(prod_row, prod_col + 3, each['outgoing'], font_size_8) if each['net_on_hand'] < 0: sheet.merge_range(prod_row, prod_col + 4, prod_row, prod_col + 5, each['net_on_hand'], red_mark) else: sheet.merge_range(prod_row, prod_col + 4, prod_row, prod_col + 5, each['net_on_hand'], font_size_8) if each['sale_value'] < 0: sheet.merge_range(prod_row, prod_col + 6, prod_row, prod_col + 7, each['sale_value'], red_mark) else: sheet.merge_range(prod_row, prod_col + 6, prod_row, prod_col + 7, each['sale_value'], font_size_8) if each['purchase_value'] < 0: sheet.merge_range(prod_row, prod_col + 8, prod_row, prod_col + 9, each['purchase_value'], red_mark) else: sheet.merge_range(prod_row, prod_col + 8, prod_row, prod_col + 9, each['purchase_value'], font_size_8) if each['total_value'] < 0: sheet.write(prod_row, prod_col + 10, each['total_value'], red_mark) else: sheet.write(prod_row, prod_col + 10, each['total_value'], font_size_8_r) prod_row = prod_row + 1 prod_row = 10 prod_col = prod_col + 11 workbook.close() output.seek(0) response.stream.write(output.read()) output.close()