odoo.define('web.field_utils_tests', function (require) { "use strict"; var core = require('web.core'); var session = require('web.session'); var fieldUtils = require('web.field_utils'); QUnit.module('fields', {}, function () { QUnit.module('field_utils'); QUnit.test('format integer', function(assert) { assert.expect(5); var originalGrouping = core._t.database.parameters.grouping; core._t.database.parameters.grouping = [3, 3, 3, 3]; assert.strictEqual(fieldUtils.format.integer(1000000), '1,000,000'); core._t.database.parameters.grouping = [3, 2, -1]; assert.strictEqual(fieldUtils.format.integer(106500), '1,06,500'); core._t.database.parameters.grouping = [1, 2, -1]; assert.strictEqual(fieldUtils.format.integer(106500), '106,50,0'); assert.strictEqual(fieldUtils.format.integer(0), "0"); assert.strictEqual(fieldUtils.format.integer(false), ""); core._t.database.parameters.grouping = originalGrouping; }); QUnit.test('format float', function(assert) { assert.expect(5); var originalParameters = $.extend(true, {}, core._t.database.parameters); core._t.database.parameters.grouping = [3, 3, 3, 3]; assert.strictEqual(fieldUtils.format.float(1000000), '1,000,000.00'); core._t.database.parameters.grouping = [3, 2, -1]; assert.strictEqual(fieldUtils.format.float(106500), '1,06,500.00'); core._t.database.parameters.grouping = [1, 2, -1]; assert.strictEqual(fieldUtils.format.float(106500), '106,50,0.00'); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: ',', thousands_sep: '.' }); assert.strictEqual(fieldUtils.format.float(6000), '6.000,00'); assert.strictEqual(fieldUtils.format.float(false), ''); core._t.database.parameters = originalParameters; }); QUnit.test("format_datetime", function (assert) { assert.expect(1); var date_string = "2009-05-04 12:34:23"; var date = fieldUtils.parse.datetime(date_string, {}, {timezone: false}); var str = fieldUtils.format.datetime(date, {}, {timezone: false}); assert.strictEqual(str, moment(date).format("MM/DD/YYYY HH:mm:ss")); }); QUnit.test("format_datetime (with different timezone offset)", function (assert) { assert.expect(2); // mock the date format to avoid issues due to localisation var dateFormat = core._t.database.parameters.date_format; core._t.database.parameters.date_format = '%m/%d/%Y'; session.getTZOffset = function (date) { // simulate daylight saving time var startDate = new Date(2017, 2, 26); var endDate = new Date(2017, 9, 29); if (startDate < date && date < endDate) { return 120; // UTC+2 } else { return 60; // UTC+1 } }; var str = fieldUtils.format.datetime(moment.utc('2017-01-01T10:00:00Z')); assert.strictEqual(str, '01/01/2017 11:00:00'); str = fieldUtils.format.datetime(moment.utc('2017-06-01T10:00:00Z')); assert.strictEqual(str, '06/01/2017 12:00:00'); core._t.database.parameters.date_format = dateFormat; }); QUnit.test("format_many2one", function (assert) { assert.expect(2); assert.strictEqual('', fieldUtils.format.many2one(null)); assert.strictEqual('A M2O value', fieldUtils.format.many2one({ data: { display_name: 'A M2O value' }, })); }); QUnit.test('format monetary', function(assert) { assert.expect(1); assert.strictEqual(fieldUtils.format.monetary(false), ''); }); QUnit.test('format char', function(assert) { assert.expect(1); assert.strictEqual(fieldUtils.format.char(), '', "undefined char should be formatted as an empty string"); }); QUnit.test('format many2many', function(assert) { assert.expect(3); assert.strictEqual(fieldUtils.format.many2many({data: []}), 'No records'); assert.strictEqual(fieldUtils.format.many2many({data: [1]}), '1 record'); assert.strictEqual(fieldUtils.format.many2many({data: [1, 2]}), '2 records'); }); QUnit.test('format one2many', function(assert) { assert.expect(3); assert.strictEqual(fieldUtils.format.one2many({data: []}), 'No records'); assert.strictEqual(fieldUtils.format.one2many({data: [1]}), '1 record'); assert.strictEqual(fieldUtils.format.one2many({data: [1, 2]}), '2 records'); }); QUnit.test('format binary', function (assert) { assert.expect(1); // base64 estimated size (bytes) = value.length / 1.37 (http://en.wikipedia.org/wiki/Base64#MIME) // Here: 4 / 1.37 = 2.91970800 => 2.92 (rounded 2 decimals by utils.human_size) assert.strictEqual(fieldUtils.format.binary('Cg=='), '2.92 Bytes'); }); QUnit.test('format percentage', function (assert) { assert.expect(12); var originalParameters = _.clone(core._t.database.parameters); assert.strictEqual(fieldUtils.format.percentage(0), '0%'); assert.strictEqual(fieldUtils.format.percentage(0.5), '50%'); assert.strictEqual(fieldUtils.format.percentage(1), '100%'); assert.strictEqual(fieldUtils.format.percentage(-0.2), '-20%'); assert.strictEqual(fieldUtils.format.percentage(2.5), '250%'); assert.strictEqual(fieldUtils.format.percentage(0.125), '12.5%'); assert.strictEqual(fieldUtils.format.percentage(0.666666), '66.67%'); assert.strictEqual(fieldUtils.format.percentage(false), '0%'); assert.strictEqual(fieldUtils.format.percentage(50, null, {humanReadable: function (val) {return true;}}), '5k%' ); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: ',', thousands_sep: '.' }); assert.strictEqual(fieldUtils.format.percentage(0.125), '12,5%'); assert.strictEqual(fieldUtils.format.percentage(0.666666), '66,67%'); assert.strictEqual(fieldUtils.format.percentage(0.5, null, { noSymbol: true }), '50'); core._t.database.parameters = originalParameters; }); QUnit.test('format float time', function (assert) { assert.expect(7); assert.strictEqual(fieldUtils.format.float_time(2), '02:00'); assert.strictEqual(fieldUtils.format.float_time(3.5), '03:30'); assert.strictEqual(fieldUtils.format.float_time(0.25), '00:15'); assert.strictEqual(fieldUtils.format.float_time(-0.5), '-00:30'); const options = { noLeadingZeroHour: true, }; assert.strictEqual(fieldUtils.format.float_time(2, null, options), '2:00'); assert.strictEqual(fieldUtils.format.float_time(3.5, null, options), '3:30'); assert.strictEqual(fieldUtils.format.float_time(-0.5, null, options), '-0:30'); }); QUnit.test('parse float', function(assert) { assert.expect(10); var originalParameters = _.clone(core._t.database.parameters); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: '.', thousands_sep: ',' }); assert.strictEqual(fieldUtils.parse.float(""), 0); assert.strictEqual(fieldUtils.parse.float("0"), 0); assert.strictEqual(fieldUtils.parse.float("100.00"), 100); assert.strictEqual(fieldUtils.parse.float("-100.00"), -100); assert.strictEqual(fieldUtils.parse.float("1,000.00"), 1000); assert.strictEqual(fieldUtils.parse.float("1,000,000.00"), 1000000); assert.strictEqual(fieldUtils.parse.float('1,234.567'), 1234.567); assert.throws(function () { fieldUtils.parse.float("1.000.000"); }, "Throw an exception if it's not a valid number"); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: ',', thousands_sep: '.' }); assert.strictEqual(fieldUtils.parse.float('1.234,567'), 1234.567); assert.throws(function () { fieldUtils.parse.float("1,000,000"); }, "Throw an exception if it's not a valid number"); _.extend(core._t.database.parameters, originalParameters); }); QUnit.test('parse integer', function(assert) { assert.expect(11); var originalParameters = _.clone(core._t.database.parameters); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: '.', thousands_sep: ',' }); assert.strictEqual(fieldUtils.parse.integer(""), 0); assert.strictEqual(fieldUtils.parse.integer("0"), 0); assert.strictEqual(fieldUtils.parse.integer("100"), 100); assert.strictEqual(fieldUtils.parse.integer("-100"), -100); assert.strictEqual(fieldUtils.parse.integer("1,000"), 1000); assert.strictEqual(fieldUtils.parse.integer("1,000,000"), 1000000); assert.throws(function () { fieldUtils.parse.integer("1.000.000"); }, "Throw an exception if it's not a valid number"); assert.throws(function () { fieldUtils.parse.integer("1,234.567"); }, "Throw an exception if the number is a float"); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: ',', thousands_sep: '.' }); assert.strictEqual(fieldUtils.parse.integer("1.000.000"), 1000000); assert.throws(function () { fieldUtils.parse.integer("1,000,000"); }, "Throw an exception if it's not a valid number"); assert.throws(function () { fieldUtils.parse.integer("1.234,567"); }, "Throw an exception if the number is a float"); _.extend(core._t.database.parameters, originalParameters); }); QUnit.test('parse monetary', function(assert) { assert.expect(15); var originalCurrencies = session.currencies; const originalParameters = _.clone(core._t.database.parameters); session.currencies = { 1: { digits: [69, 2], position: "after", symbol: "€" }, 3: { digits: [69, 2], position: "before", symbol: "$" } }; assert.strictEqual(fieldUtils.parse.monetary(""), 0); assert.strictEqual(fieldUtils.parse.monetary("0"), 0); assert.strictEqual(fieldUtils.parse.monetary("100.00"), 100); assert.strictEqual(fieldUtils.parse.monetary("-100.00"), -100); assert.strictEqual(fieldUtils.parse.monetary("1,000.00"), 1000); assert.strictEqual(fieldUtils.parse.monetary("1,000,000.00"), 1000000); assert.strictEqual(fieldUtils.parse.monetary("$ 125.00", {}, {currency_id: 3}), 125); assert.strictEqual(fieldUtils.parse.monetary("1,000.00 €", {}, {currency_id: 1}), 1000); assert.throws(function() {fieldUtils.parse.monetary("$ 12.00", {}, {currency_id: 3})}, /is not a correct/); assert.throws(function() {fieldUtils.parse.monetary("$ 12.00", {}, {currency_id: 1})}, /is not a correct/); assert.throws(function() {fieldUtils.parse.monetary("$ 12.00 34", {}, {currency_id: 3})}, /is not a correct/); // In some languages, the non-breaking space character is used as thousands separator. const nbsp = '\u00a0'; _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: '.', thousands_sep: nbsp, }); assert.strictEqual(fieldUtils.parse.monetary(`1${nbsp}000.00${nbsp}€`, {}, {currency_id: 1}), 1000); assert.strictEqual(fieldUtils.parse.monetary(`$${nbsp}1${nbsp}000.00`, {}, {currency_id: 3}), 1000); assert.strictEqual(fieldUtils.parse.monetary(`1${nbsp}000.00`), 1000); assert.strictEqual(fieldUtils.parse.monetary(`1${nbsp}000${nbsp}000.00`), 1000000); session.currencies = originalCurrencies; core._t.database.parameters = originalParameters; }); QUnit.test('parse percentage', function(assert) { assert.expect(7); var originalParameters = _.clone(core._t.database.parameters); assert.strictEqual(fieldUtils.parse.percentage(""), 0); assert.strictEqual(fieldUtils.parse.percentage("0"), 0); assert.strictEqual(fieldUtils.parse.percentage("0.5"), 0.005); assert.strictEqual(fieldUtils.parse.percentage("1"), 0.01); assert.strictEqual(fieldUtils.parse.percentage("100"), 1); _.extend(core._t.database.parameters, { grouping: [3, 0], decimal_point: ',', thousands_sep: '.' }); assert.strictEqual(fieldUtils.parse.percentage("1.234,56"), 12.3456); assert.strictEqual(fieldUtils.parse.percentage("6,02"), 0.0602); core._t.database.parameters = originalParameters; }); QUnit.test('parse datetime', function (assert) { assert.expect(7); var originalParameters = _.clone(core._t.database.parameters); var originalLocale = moment.locale(); var dateStr, date1, date2; moment.defineLocale('englishForTest', { dayOfMonthOrdinalParse: /\d{1,2}(st|nd|rd|th)/, ordinal: function (number) { var b = number % 10, output = (~~(number % 100 / 10) === 1) ? 'th' : (b === 1) ? 'st' : (b === 2) ? 'nd' : (b === 3) ? 'rd' : 'th'; return number + output; }, }); moment.defineLocale('norvegianForTest', { monthsShort: 'jan._feb._mars_april_mai_juni_juli_aug._sep._okt._nov._des.'.split('_'), monthsParseExact: true, dayOfMonthOrdinalParse: /\d{1,2}\./, ordinal: '%d.', }); moment.locale('englishForTest'); _.extend(core._t.database.parameters, {date_format: '%m/%d/%Y', time_format: '%H:%M:%S'}); assert.throws(function () { fieldUtils.parse.datetime("13/01/2019 12:00:00", {}, {}); }, /is not a correct/, "Wrongly formated dates should be invalid"); assert.throws(function () { fieldUtils.parse.datetime("10000-01-01 12:00:00", {}, {}); }, /is not a correct/, "Dates after 9999 should be invalid"); assert.throws(function () { fieldUtils.parse.datetime("999-01-01 12:00:00", {}, {}); }, /is not a correct/, "Dates before 1000 should be invalid"); dateStr = '01/13/2019 10:05:45'; date1 = fieldUtils.parse.datetime(dateStr); date2 = moment.utc(dateStr, ['MM/DD/YYYY HH:mm:ss'], true); assert.equal(date1.format(), date2.format(), "Date with leading 0"); dateStr = '1/14/2019 10:5:45'; date1 = fieldUtils.parse.datetime(dateStr); date2 = moment.utc(dateStr, ['M/D/YYYY H:m:s'], true); assert.equal(date1.format(), date2.format(), "Date without leading 0"); dateStr = '01/01/1000 10:15:45'; date1 = fieldUtils.parse.datetime(dateStr); date2 = moment.utc(dateStr, ['MM/DD/YYYY HH:mm:ss'], true); assert.equal(date1.format(), date2.format(), "can parse dates of year 1"); moment.locale('norvegianForTest'); _.extend(core._t.database.parameters, {date_format: '%d. %b %Y', time_format: '%H:%M:%S'}); dateStr = '16. jan. 2019 10:05:45'; date1 = fieldUtils.parse.datetime(dateStr); date2 = moment.utc(dateStr, ['DD. MMM YYYY HH:mm:ss'], true); assert.equal(date1.format(), date2.format(), "Day/month inverted + month i18n"); moment.locale(originalLocale); moment.updateLocale("englishForTest", null); moment.updateLocale("norvegianForTest", null); core._t.database.parameters = originalParameters; }); QUnit.test('parse date without separator', function (assert) { assert.expect(8); var originalParameters = _.clone(core._t.database.parameters); _.extend(core._t.database.parameters, {date_format: '%d.%m/%Y'}); var dateFormat = "DD.MM/YYYY"; assert.throws(function () {fieldUtils.parse.date("1197")}, /is not a correct/, "Wrongly formated dates should be invalid"); assert.throws(function () {fieldUtils.parse.date("0131")}, /is not a correct/, "Wrongly formated dates should be invalid"); assert.throws(function () {fieldUtils.parse.date("970131")}, /is not a correct/, "Wrongly formated dates should be invalid"); assert.equal(fieldUtils.parse.date("3101").format(dateFormat), "31.01/" + moment.utc().year()); assert.equal(fieldUtils.parse.date("31.01").format(dateFormat), "31.01/" + moment.utc().year()); assert.equal(fieldUtils.parse.date("310197").format(dateFormat), "31.01/1997"); assert.equal(fieldUtils.parse.date("310117").format(dateFormat), "31.01/2017"); assert.equal(fieldUtils.parse.date("31011985").format(dateFormat), "31.01/1985"); core._t.database.parameters = originalParameters; }); QUnit.test('parse datetime without separator', function (assert) { assert.expect(3); var originalParameters = _.clone(core._t.database.parameters); _.extend(core._t.database.parameters, {date_format: '%d.%m/%Y', time_format: '%H:%M/%S'}); var dateTimeFormat = "DD.MM/YYYY HH:mm/ss"; assert.equal(fieldUtils.parse.datetime("3101198508").format(dateTimeFormat), "31.01/1985 08:00/00"); assert.equal(fieldUtils.parse.datetime("310119850833").format(dateTimeFormat), "31.01/1985 08:33/00"); assert.equal(fieldUtils.parse.datetime("31/01/1985 08").format(dateTimeFormat), "31.01/1985 08:00/00"); core._t.database.parameters = originalParameters; }); }); QUnit.test('parse smart date input', function (assert) { assert.expect(10); const format = "DD MM YYYY"; assert.strictEqual(fieldUtils.parse.date("+1d").format(format), moment().add(1, 'days').format(format)); assert.strictEqual(fieldUtils.parse.datetime("+2w").format(format), moment().add(2, 'weeks').format(format)); assert.strictEqual(fieldUtils.parse.date("+3m").format(format), moment().add(3, 'months').format(format)); assert.strictEqual(fieldUtils.parse.datetime("+4y").format(format), moment().add(4, 'years').format(format)); assert.strictEqual(fieldUtils.parse.date("+5").format(format), moment().add(5, 'days').format(format)); assert.strictEqual(fieldUtils.parse.datetime("-5").format(format), moment().subtract(5, 'days').format(format)); assert.strictEqual(fieldUtils.parse.date("-4y").format(format), moment().subtract(4, 'years').format(format)); assert.strictEqual(fieldUtils.parse.datetime("-3m").format(format), moment().subtract(3, 'months').format(format)); assert.strictEqual(fieldUtils.parse.date("-2w").format(format), moment().subtract(2, 'weeks').format(format)); assert.strictEqual(fieldUtils.parse.datetime("-1d").format(format), moment().subtract(1, 'days').format(format)); }); });