import toDate from "../toDate/index.js"; import isValid from "../isValid/index.js"; import addLeadingZeros from "../_lib/addLeadingZeros/index.js"; import toInteger from "../_lib/toInteger/index.js"; /** * @name formatRFC3339 * @category Common Helpers * @summary Format the date according to the RFC 3339 standard (https://tools.ietf.org/html/rfc3339#section-5.6). * * @description * Return the formatted date string in RFC 3339 format. Options may be passed to control the parts and notations of the date. * * @param {Date|Number} date - the original date * @param {Object} [options] - an object with options. * @param {0|1|2|3} [options.fractionDigits=0] - number of digits after the decimal point after seconds * @returns {String} the formatted date string * @throws {TypeError} 1 argument required * @throws {RangeError} `date` must not be Invalid Date * @throws {RangeError} `options.fractionDigits` must be between 0 and 3 * * @example * // Represent 18 September 2019 in RFC 3339 format: * const result = formatRFC3339(new Date(2019, 8, 18, 19, 0, 52)) * //=> '2019-09-18T19:00:52Z' * * @example * // Represent 18 September 2019 in RFC 3339 format, 2 digits of second fraction: * const result = formatRFC3339(new Date(2019, 8, 18, 19, 0, 52, 234), { fractionDigits: 2 }) * //=> '2019-09-18T19:00:52.23Z' * * @example * // Represent 18 September 2019 in RFC 3339 format, 3 digits of second fraction * const result = formatRFC3339(new Date(2019, 8, 18, 19, 0, 52, 234), { fractionDigits: 3 }) * //=> '2019-09-18T19:00:52.234Z' */ export default function formatRFC3339(dirtyDate, options) { var _options$fractionDigi; if (arguments.length < 1) { throw new TypeError("1 arguments required, but only ".concat(arguments.length, " present")); } var originalDate = toDate(dirtyDate); if (!isValid(originalDate)) { throw new RangeError('Invalid time value'); } var fractionDigits = Number((_options$fractionDigi = options === null || options === void 0 ? void 0 : options.fractionDigits) !== null && _options$fractionDigi !== void 0 ? _options$fractionDigi : 0); // Test if fractionDigits is between 0 and 3 _and_ is not NaN if (!(fractionDigits >= 0 && fractionDigits <= 3)) { throw new RangeError('fractionDigits must be between 0 and 3 inclusively'); } var day = addLeadingZeros(originalDate.getDate(), 2); var month = addLeadingZeros(originalDate.getMonth() + 1, 2); var year = originalDate.getFullYear(); var hour = addLeadingZeros(originalDate.getHours(), 2); var minute = addLeadingZeros(originalDate.getMinutes(), 2); var second = addLeadingZeros(originalDate.getSeconds(), 2); var fractionalSecond = ''; if (fractionDigits > 0) { var milliseconds = originalDate.getMilliseconds(); var fractionalSeconds = Math.floor(milliseconds * Math.pow(10, fractionDigits - 3)); fractionalSecond = '.' + addLeadingZeros(fractionalSeconds, fractionDigits); } var offset = ''; var tzOffset = originalDate.getTimezoneOffset(); if (tzOffset !== 0) { var absoluteOffset = Math.abs(tzOffset); var hourOffset = addLeadingZeros(toInteger(absoluteOffset / 60), 2); var minuteOffset = addLeadingZeros(absoluteOffset % 60, 2); // If less than 0, the sign is +, because it is ahead of time. var sign = tzOffset < 0 ? '+' : '-'; offset = "".concat(sign).concat(hourOffset, ":").concat(minuteOffset); } else { offset = 'Z'; } return "".concat(year, "-").concat(month, "-").concat(day, "T").concat(hour, ":").concat(minute, ":").concat(second).concat(fractionalSecond).concat(offset); }