import $ from 'jquery'; import { isString, mapValues, isNumber, reduce } from 'lodash'; import * as timeago from 'timeago.js'; import dateFormat from 'dateformat'; import { languageCode, s__, __, n__ } from '../../locale'; window.timeago = timeago; /** * This method allows you to create new Date instance from existing * date instance without keeping the reference. * * @param {Date} date */ export const newDate = date => (date instanceof Date ? new Date(date.getTime()) : new Date()); /** * Returns i18n month names array. * If `abbreviated` is provided, returns abbreviated * name. * * @param {Boolean} abbreviated */ export const getMonthNames = abbreviated => { if (abbreviated) { return [ s__('Jan'), s__('Feb'), s__('Mar'), s__('Apr'), s__('May'), s__('Jun'), s__('Jul'), s__('Aug'), s__('Sep'), s__('Oct'), s__('Nov'), s__('Dec'), ]; } return [ s__('January'), s__('February'), s__('March'), s__('April'), s__('May'), s__('June'), s__('July'), s__('August'), s__('September'), s__('October'), s__('November'), s__('December'), ]; }; export const pad = (val, len = 2) => `0${val}`.slice(-len); /** * Returns i18n weekday names array. */ export const getWeekdayNames = () => [ __('Sunday'), __('Monday'), __('Tuesday'), __('Wednesday'), __('Thursday'), __('Friday'), __('Saturday'), ]; /** * Given a date object returns the day of the week in English * @param {date} date * @returns {String} */ export const getDayName = date => [ __('Sunday'), __('Monday'), __('Tuesday'), __('Wednesday'), __('Thursday'), __('Friday'), __('Saturday'), ][date.getDay()]; /** * @example * dateFormat('2017-12-05','mmm d, yyyy h:MMtt Z' ) -> "Dec 5, 2017 12:00am GMT+0000" * @param {date} datetime * @param {String} format * @param {Boolean} UTC convert local time to UTC * @returns {String} */ export const formatDate = (datetime, format = 'mmm d, yyyy h:MMtt Z', utc = false) => { if (isString(datetime) && datetime.match(/\d+-\d+\d+ /)) { throw new Error(__('Invalid date')); } return dateFormat(datetime, format, utc); }; /** * Timeago uses underscores instead of dashes to separate language from country code. * * see https://github.com/hustcc/timeago.js/tree/v3.0.0/locales */ const timeagoLanguageCode = languageCode().replace(/-/g, '_'); /** * Registers timeago locales */ const memoizedLocaleRemaining = () => { const cache = []; const timeAgoLocaleRemaining = [ () => [s__('Timeago|just now'), s__('Timeago|right now')], () => [s__('Timeago|just now'), s__('Timeago|%s seconds remaining')], () => [s__('Timeago|1 minute ago'), s__('Timeago|1 minute remaining')], () => [s__('Timeago|%s minutes ago'), s__('Timeago|%s minutes remaining')], () => [s__('Timeago|1 hour ago'), s__('Timeago|1 hour remaining')], () => [s__('Timeago|%s hours ago'), s__('Timeago|%s hours remaining')], () => [s__('Timeago|1 day ago'), s__('Timeago|1 day remaining')], () => [s__('Timeago|%s days ago'), s__('Timeago|%s days remaining')], () => [s__('Timeago|1 week ago'), s__('Timeago|1 week remaining')], () => [s__('Timeago|%s weeks ago'), s__('Timeago|%s weeks remaining')], () => [s__('Timeago|1 month ago'), s__('Timeago|1 month remaining')], () => [s__('Timeago|%s months ago'), s__('Timeago|%s months remaining')], () => [s__('Timeago|1 year ago'), s__('Timeago|1 year remaining')], () => [s__('Timeago|%s years ago'), s__('Timeago|%s years remaining')], ]; return (number, index) => { if (cache[index]) { return cache[index]; } cache[index] = timeAgoLocaleRemaining[index] && timeAgoLocaleRemaining[index](); return cache[index]; }; }; const memoizedLocale = () => { const cache = []; const timeAgoLocale = [ () => [s__('Timeago|just now'), s__('Timeago|right now')], () => [s__('Timeago|just now'), s__('Timeago|in %s seconds')], () => [s__('Timeago|1 minute ago'), s__('Timeago|in 1 minute')], () => [s__('Timeago|%s minutes ago'), s__('Timeago|in %s minutes')], () => [s__('Timeago|1 hour ago'), s__('Timeago|in 1 hour')], () => [s__('Timeago|%s hours ago'), s__('Timeago|in %s hours')], () => [s__('Timeago|1 day ago'), s__('Timeago|in 1 day')], () => [s__('Timeago|%s days ago'), s__('Timeago|in %s days')], () => [s__('Timeago|1 week ago'), s__('Timeago|in 1 week')], () => [s__('Timeago|%s weeks ago'), s__('Timeago|in %s weeks')], () => [s__('Timeago|1 month ago'), s__('Timeago|in 1 month')], () => [s__('Timeago|%s months ago'), s__('Timeago|in %s months')], () => [s__('Timeago|1 year ago'), s__('Timeago|in 1 year')], () => [s__('Timeago|%s years ago'), s__('Timeago|in %s years')], ]; return (number, index) => { if (cache[index]) { return cache[index]; } cache[index] = timeAgoLocale[index] && timeAgoLocale[index](); return cache[index]; }; }; timeago.register(timeagoLanguageCode, memoizedLocale()); timeago.register(`${timeagoLanguageCode}-remaining`, memoizedLocaleRemaining()); export const getTimeago = () => timeago; /** * For the given elements, sets a tooltip with a formatted date. * @param {JQuery} $timeagoEls * @param {Boolean} setTimeago */ export const localTimeAgo = ($timeagoEls, setTimeago = true) => { $timeagoEls.each((i, el) => { $(el).text(timeago.format($(el).attr('datetime'), timeagoLanguageCode)); }); if (!setTimeago) { return; } function addTimeAgoTooltip() { $timeagoEls.each((i, el) => { // Recreate with custom template el.setAttribute('title', formatDate(el.dateTime)); $(el).tooltip({ template: '', }); }); } requestIdleCallback(addTimeAgoTooltip); }; /** * Returns remaining or passed time over the given time. * @param {*} time * @param {*} expiredLabel */ export const timeFor = (time, expiredLabel) => { if (!time) { return ''; } if (new Date(time) < new Date()) { return expiredLabel || s__('Timeago|Past due'); } return timeago.format(time, `${timeagoLanguageCode}-remaining`).trim(); }; export const millisecondsPerDay = 1000 * 60 * 60 * 24; export const getDayDifference = (a, b) => { const date1 = Date.UTC(a.getFullYear(), a.getMonth(), a.getDate()); const date2 = Date.UTC(b.getFullYear(), b.getMonth(), b.getDate()); return Math.floor((date2 - date1) / millisecondsPerDay); }; /** * Port of ruby helper time_interval_in_words. * * @param {Number} seconds * @return {String} */ export const timeIntervalInWords = intervalInSeconds => { const secondsInteger = parseInt(intervalInSeconds, 10); const minutes = Math.floor(secondsInteger / 60); const seconds = secondsInteger - minutes * 60; const secondsText = n__('%d second', '%d seconds', seconds); return minutes >= 1 ? [n__('%d minute', '%d minutes', minutes), secondsText].join(' ') : secondsText; }; export const dateInWords = (date, abbreviated = false, hideYear = false) => { if (!date) return date; const month = date.getMonth(); const year = date.getFullYear(); const monthNames = [ s__('January'), s__('February'), s__('March'), s__('April'), s__('May'), s__('June'), s__('July'), s__('August'), s__('September'), s__('October'), s__('November'), s__('December'), ]; const monthNamesAbbr = [ s__('Jan'), s__('Feb'), s__('Mar'), s__('Apr'), s__('May'), s__('Jun'), s__('Jul'), s__('Aug'), s__('Sep'), s__('Oct'), s__('Nov'), s__('Dec'), ]; const monthName = abbreviated ? monthNamesAbbr[month] : monthNames[month]; if (hideYear) { return `${monthName} ${date.getDate()}`; } return `${monthName} ${date.getDate()}, ${year}`; }; /** * Returns month name based on provided date. * * @param {Date} date * @param {Boolean} abbreviated */ export const monthInWords = (date, abbreviated = false) => { if (!date) { return ''; } return getMonthNames(abbreviated)[date.getMonth()]; }; /** * Returns number of days in a month for provided date. * courtesy: https://stacko(verflow.com/a/1185804/414749 * * @param {Date} date */ export const totalDaysInMonth = date => { if (!date) { return 0; } return new Date(date.getFullYear(), date.getMonth() + 1, 0).getDate(); }; /** * Returns number of days in a quarter from provided * months array. * * @param {Array} quarter */ export const totalDaysInQuarter = quarter => quarter.reduce((acc, month) => acc + totalDaysInMonth(month), 0); /** * Returns list of Dates referring to Sundays of the month * based on provided date * * @param {Date} date */ export const getSundays = date => { if (!date) { return []; } const daysToSunday = [ __('Saturday'), __('Friday'), __('Thursday'), __('Wednesday'), __('Tuesday'), __('Monday'), __('Sunday'), ]; const month = date.getMonth(); const year = date.getFullYear(); const sundays = []; const dateOfMonth = new Date(year, month, 1); while (dateOfMonth.getMonth() === month) { const dayName = getDayName(dateOfMonth); if (dayName === __('Sunday')) { sundays.push(new Date(dateOfMonth.getTime())); } const daysUntilNextSunday = daysToSunday.indexOf(dayName) + 1; dateOfMonth.setDate(dateOfMonth.getDate() + daysUntilNextSunday); } return sundays; }; /** * Returns list of Dates representing a timeframe of months from startDate and length * This method also supports going back in time when `length` is negative number * * @param {Date} initialStartDate * @param {Number} length */ export const getTimeframeWindowFrom = (initialStartDate, length) => { if (!(initialStartDate instanceof Date) || !length) { return []; } const startDate = newDate(initialStartDate); const moveMonthBy = length > 0 ? 1 : -1; startDate.setDate(1); startDate.setHours(0, 0, 0, 0); // Iterate and set date for the size of length // and push date reference to timeframe list const timeframe = new Array(Math.abs(length)).fill().map(() => { const currentMonth = startDate.getTime(); startDate.setMonth(startDate.getMonth() + moveMonthBy); return new Date(currentMonth); }); // Change date of last timeframe item to last date of the month // when length is positive if (length > 0) { timeframe[timeframe.length - 1].setDate(totalDaysInMonth(timeframe[timeframe.length - 1])); } return timeframe; }; /** * Returns count of day within current quarter from provided date * and array of months for the quarter * * Eg; * If date is 15 Feb 2018 * and quarter is [Jan, Feb, Mar] * * Then 15th Feb is 46th day of the quarter * Where 31 (days in Jan) + 15 (date of Feb). * * @param {Date} date * @param {Array} quarter */ export const dayInQuarter = (date, quarter) => { const dateValues = { date: date.getDate(), month: date.getMonth(), }; return quarter.reduce((acc, month) => { if (dateValues.month > month.getMonth()) { return acc + totalDaysInMonth(month); } else if (dateValues.month === month.getMonth()) { return acc + dateValues.date; } return acc + 0; }, 0); }; window.gl = window.gl || {}; window.gl.utils = { ...(window.gl.utils || {}), localTimeAgo, }; /** * Formats milliseconds as timestamp (e.g. 01:02:03). * This takes durations longer than a day into account (e.g. two days would be 48:00:00). * * @param milliseconds * @returns {string} */ export const formatTime = milliseconds => { const remainingSeconds = Math.floor(milliseconds / 1000) % 60; const remainingMinutes = Math.floor(milliseconds / 1000 / 60) % 60; const remainingHours = Math.floor(milliseconds / 1000 / 60 / 60); let formattedTime = ''; if (remainingHours < 10) formattedTime += '0'; formattedTime += `${remainingHours}:`; if (remainingMinutes < 10) formattedTime += '0'; formattedTime += `${remainingMinutes}:`; if (remainingSeconds < 10) formattedTime += '0'; formattedTime += remainingSeconds; return formattedTime; }; /** * Formats dates in Pickaday * @param {String} dateString Date in yyyy-mm-dd format * @return {Date} UTC format */ export const parsePikadayDate = dateString => { const parts = dateString.split('-'); const year = parseInt(parts[0], 10); const month = parseInt(parts[1] - 1, 10); const day = parseInt(parts[2], 10); return new Date(year, month, day); }; /** * Used `onSelect` method in pickaday * @param {Date} date UTC format * @return {String} Date formatted in yyyy-mm-dd */ export const pikadayToString = date => { const day = pad(date.getDate()); const month = pad(date.getMonth() + 1); const year = date.getFullYear(); return `${year}-${month}-${day}`; }; /** * Accepts seconds and returns a timeObject { weeks: #, days: #, hours: #, minutes: # } * Seconds can be negative or positive, zero or non-zero. Can be configured for any day * or week length. */ export const parseSeconds = ( seconds, { daysPerWeek = 5, hoursPerDay = 8, limitToHours = false, limitToDays = false } = {}, ) => { const DAYS_PER_WEEK = daysPerWeek; const HOURS_PER_DAY = hoursPerDay; const SECONDS_PER_MINUTE = 60; const MINUTES_PER_HOUR = 60; const MINUTES_PER_WEEK = DAYS_PER_WEEK * HOURS_PER_DAY * MINUTES_PER_HOUR; const MINUTES_PER_DAY = HOURS_PER_DAY * MINUTES_PER_HOUR; const timePeriodConstraints = { weeks: MINUTES_PER_WEEK, days: MINUTES_PER_DAY, hours: MINUTES_PER_HOUR, minutes: 1, }; if (limitToDays || limitToHours) { timePeriodConstraints.weeks = 0; } if (limitToHours) { timePeriodConstraints.days = 0; } let unorderedMinutes = Math.abs(seconds / SECONDS_PER_MINUTE); return mapValues(timePeriodConstraints, minutesPerPeriod => { if (minutesPerPeriod === 0) { return 0; } const periodCount = Math.floor(unorderedMinutes / minutesPerPeriod); unorderedMinutes -= periodCount * minutesPerPeriod; return periodCount; }); }; /** * Accepts a timeObject (see parseSeconds) and returns a condensed string representation of it * (e.g. '1w 2d 3h 1m' or '1h 30m'). Zero value units are not included. * If the 'fullNameFormat' param is passed it returns a non condensed string eg '1 week 3 days' */ export const stringifyTime = (timeObject, fullNameFormat = false) => { const reducedTime = reduce( timeObject, (memo, unitValue, unitName) => { const isNonZero = Boolean(unitValue); if (fullNameFormat && isNonZero) { // Remove traling 's' if unit value is singular const formattedUnitName = unitValue > 1 ? unitName : unitName.replace(/s$/, ''); return `${memo} ${unitValue} ${formattedUnitName}`; } return isNonZero ? `${memo} ${unitValue}${unitName.charAt(0)}` : memo; }, '', ).trim(); return reducedTime.length ? reducedTime : '0m'; }; /** * Calculates the milliseconds between now and a given date string. * The result cannot become negative. * * @param endDate date string that the time difference is calculated for * @return {Number} number of milliseconds remaining until the given date */ export const calculateRemainingMilliseconds = endDate => { const remainingMilliseconds = new Date(endDate).getTime() - Date.now(); return Math.max(remainingMilliseconds, 0); }; /** * Subtracts a given number of days from a given date and returns the new date. * * @param {Date} date the date that we will substract days from * @param {Number} daysInPast number of days that are subtracted from a given date * @returns {Date} Date in past as Date object */ export const getDateInPast = (date, daysInPast) => new Date(newDate(date).setDate(date.getDate() - daysInPast)); /** * Adds a given number of days to a given date and returns the new date. * * @param {Date} date the date that we will add days to * @param {Number} daysInFuture number of days that are added to a given date * @returns {Date} Date in future as Date object */ export const getDateInFuture = (date, daysInFuture) => new Date(newDate(date).setDate(date.getDate() + daysInFuture)); /** * Checks if a given date-instance was created with a valid date * * @param {Date} date * @returns boolean */ export const isValidDate = date => date instanceof Date && !Number.isNaN(date.getTime()); /* * Appending T00:00:00 makes JS assume local time and prevents it from shifting the date * to match the user's time zone. We want to display the date in server time for now, to * be consistent with the "edit issue -> due date" UI. */ export const newDateAsLocaleTime = date => { const suffix = 'T00:00:00'; return new Date(`${date}${suffix}`); }; export const beginOfDayTime = 'T00:00:00Z'; export const endOfDayTime = 'T23:59:59Z'; /** * @param {Date} d1 * @param {Date} d2 * @param {Function} formatter * @return {Any[]} an array of formatted dates between 2 given dates (including start&end date) */ export const getDatesInRange = (d1, d2, formatter = x => x) => { if (!(d1 instanceof Date) || !(d2 instanceof Date)) { return []; } let startDate = d1.getTime(); const endDate = d2.getTime(); const oneDay = 24 * 3600 * 1000; const range = [d1]; while (startDate < endDate) { startDate += oneDay; range.push(new Date(startDate)); } return range.map(formatter); }; /** * Converts the supplied number of seconds to milliseconds. * * @param {Number} seconds * @return {Number} number of milliseconds */ export const secondsToMilliseconds = seconds => seconds * 1000; /** * Converts the supplied number of seconds to days. * * @param {Number} seconds * @return {Number} number of days */ export const secondsToDays = seconds => Math.round(seconds / 86400); /** * Converts a numeric utc offset in seconds to +/- hours * ie -32400 => -9 hours * ie -12600 => -3.5 hours * * @param {Number} offset UTC offset in seconds as a integer * * @return {String} the + or - offset in hours */ export const secondsToHours = offset => { const parsed = parseInt(offset, 10); if (Number.isNaN(parsed) || parsed === 0) { return `0`; } const num = offset / 3600; return parseInt(num, 10) !== num ? num.toFixed(1) : num; }; /** * Returns the date n days after the date provided * * @param {Date} date the initial date * @param {Number} numberOfDays number of days after * @return {Date} the date following the date provided */ export const nDaysAfter = (date, numberOfDays) => new Date(newDate(date)).setDate(date.getDate() + numberOfDays); /** * Returns the date after the date provided * * @param {Date} date the initial date * @return {Date} the date following the date provided */ export const dayAfter = date => new Date(newDate(date).setDate(date.getDate() + 1)); /** * Mimics the behaviour of the rails distance_of_time_in_words function * https://api.rubyonrails.org/v6.0.1/classes/ActionView/Helpers/DateHelper.html#method-i-distance_of_time_in_words * 0 < -> 29 secs => less than a minute * 30 secs < -> 1 min, 29 secs => 1 minute * 1 min, 30 secs < -> 44 mins, 29 secs => [2..44] minutes * 44 mins, 30 secs < -> 89 mins, 29 secs => about 1 hour * 89 mins, 30 secs < -> 23 hrs, 59 mins, 29 secs => about[2..24]hours * 23 hrs, 59 mins, 30 secs < -> 41 hrs, 59 mins, 29 secs => 1 day * 41 hrs, 59 mins, 30 secs => x days * * @param {Number} seconds * @return {String} approximated time */ export const approximateDuration = (seconds = 0) => { if (!isNumber(seconds) || seconds < 0) { return ''; } const ONE_MINUTE_LIMIT = 90; // 1 minute 30s const MINUTES_LIMIT = 2670; // 44 minutes 30s const ONE_HOUR_LIMIT = 5370; // 89 minutes 30s const HOURS_LIMIT = 86370; // 23 hours 59 minutes 30s const ONE_DAY_LIMIT = 151170; // 41 hours 59 minutes 30s const { days = 0, hours = 0, minutes = 0 } = parseSeconds(seconds, { daysPerWeek: 7, hoursPerDay: 24, limitToDays: true, }); if (seconds < 30) { return __('less than a minute'); } else if (seconds < MINUTES_LIMIT) { return n__('1 minute', '%d minutes', seconds < ONE_MINUTE_LIMIT ? 1 : minutes); } else if (seconds < HOURS_LIMIT) { return n__('about 1 hour', 'about %d hours', seconds < ONE_HOUR_LIMIT ? 1 : hours); } return n__('1 day', '%d days', seconds < ONE_DAY_LIMIT ? 1 : days); }; /** * A utility function which helps creating a date object * for a specific date. Accepts the year, month and day * returning a date object for the given params. * * @param {Int} year the full year as a number i.e. 2020 * @param {Int} month the month index i.e. January => 0 * @param {Int} day the day as a number i.e. 23 * * @return {Date} the date object from the params */ export const dateFromParams = (year, month, day) => { return new Date(year, month, day); }; /** * A utility function which computes the difference in seconds * between 2 dates. * * @param {Date} startDate the start date * @param {Date} endDate the end date * * @return {Int} the difference in seconds */ export const differenceInSeconds = (startDate, endDate) => { return (endDate.getTime() - startDate.getTime()) / 1000; }; /** * A utility function which computes the difference in milliseconds * between 2 dates. * * @param {Date|Int} startDate the start date. Can be either a date object or a unix timestamp. * @param {Date|Int} endDate the end date. Can be either a date object or a unix timestamp. Defaults to now. * * @return {Int} the difference in milliseconds */ export const differenceInMilliseconds = (startDate, endDate = Date.now()) => { const startDateInMS = startDate instanceof Date ? startDate.getTime() : startDate; const endDateInMS = endDate instanceof Date ? endDate.getTime() : endDate; return endDateInMS - startDateInMS; };