hugoWebsite/node_modules/date-fns/esm/parseISO/index.js

import { millisecondsInHour, millisecondsInMinute } from "../constants/index.js";
import requiredArgs from "../_lib/requiredArgs/index.js";
import toInteger from "../_lib/toInteger/index.js";
/**
 * @name parseISO
 * @category Common Helpers
 * @summary Parse ISO string
 *
 * @description
 * Parse the given string in ISO 8601 format and return an instance of Date.
 *
 * Function accepts complete ISO 8601 formats as well as partial implementations.
 * ISO 8601: http://en.wikipedia.org/wiki/ISO_8601
 *
 * If the argument isn't a string, the function cannot parse the string or
 * the values are invalid, it returns Invalid Date.
 *
 * @param {String} argument - the value to convert
 * @param {Object} [options] - an object with options.
 * @param {0|1|2} [options.additionalDigits=2] - the additional number of digits in the extended year format
 * @returns {Date} the parsed date in the local time zone
 * @throws {TypeError} 1 argument required
 * @throws {RangeError} `options.additionalDigits` must be 0, 1 or 2
 *
 * @example
 * // Convert string '2014-02-11T11:30:30' to date:
 * const result = parseISO('2014-02-11T11:30:30')
 * //=> Tue Feb 11 2014 11:30:30
 *
 * @example
 * // Convert string '+02014101' to date,
 * // if the additional number of digits in the extended year format is 1:
 * const result = parseISO('+02014101', { additionalDigits: 1 })
 * //=> Fri Apr 11 2014 00:00:00
 */

export default function parseISO(argument, options) {
  var _options$additionalDi;

  requiredArgs(1, arguments);
  var additionalDigits = toInteger((_options$additionalDi = options === null || options === void 0 ? void 0 : options.additionalDigits) !== null && _options$additionalDi !== void 0 ? _options$additionalDi : 2);

  if (additionalDigits !== 2 && additionalDigits !== 1 && additionalDigits !== 0) {
    throw new RangeError('additionalDigits must be 0, 1 or 2');
  }

  if (!(typeof argument === 'string' || Object.prototype.toString.call(argument) === '[object String]')) {
    return new Date(NaN);
  }

  var dateStrings = splitDateString(argument);
  var date;

  if (dateStrings.date) {
    var parseYearResult = parseYear(dateStrings.date, additionalDigits);
    date = parseDate(parseYearResult.restDateString, parseYearResult.year);
  }

  if (!date || isNaN(date.getTime())) {
    return new Date(NaN);
  }

  var timestamp = date.getTime();
  var time = 0;
  var offset;

  if (dateStrings.time) {
    time = parseTime(dateStrings.time);

    if (isNaN(time)) {
      return new Date(NaN);
    }
  }

  if (dateStrings.timezone) {
    offset = parseTimezone(dateStrings.timezone);

    if (isNaN(offset)) {
      return new Date(NaN);
    }
  } else {
    var dirtyDate = new Date(timestamp + time); // js parsed string assuming it's in UTC timezone
    // but we need it to be parsed in our timezone
    // so we use utc values to build date in our timezone.
    // Year values from 0 to 99 map to the years 1900 to 1999
    // so set year explicitly with setFullYear.

    var result = new Date(0);
    result.setFullYear(dirtyDate.getUTCFullYear(), dirtyDate.getUTCMonth(), dirtyDate.getUTCDate());
    result.setHours(dirtyDate.getUTCHours(), dirtyDate.getUTCMinutes(), dirtyDate.getUTCSeconds(), dirtyDate.getUTCMilliseconds());
    return result;
  }

  return new Date(timestamp + time + offset);
}
var patterns = {
  dateTimeDelimiter: /[T ]/,
  timeZoneDelimiter: /[Z ]/i,
  timezone: /([Z+-].*)$/
};
var dateRegex = /^-?(?:(\d{3})|(\d{2})(?:-?(\d{2}))?|W(\d{2})(?:-?(\d{1}))?|)$/;
var timeRegex = /^(\d{2}(?:[.,]\d*)?)(?::?(\d{2}(?:[.,]\d*)?))?(?::?(\d{2}(?:[.,]\d*)?))?$/;
var timezoneRegex = /^([+-])(\d{2})(?::?(\d{2}))?$/;

function splitDateString(dateString) {
  var dateStrings = {};
  var array = dateString.split(patterns.dateTimeDelimiter);
  var timeString; // The regex match should only return at maximum two array elements.
  // [date], [time], or [date, time].

  if (array.length > 2) {
    return dateStrings;
  }

  if (/:/.test(array[0])) {
    timeString = array[0];
  } else {
    dateStrings.date = array[0];
    timeString = array[1];

    if (patterns.timeZoneDelimiter.test(dateStrings.date)) {
      dateStrings.date = dateString.split(patterns.timeZoneDelimiter)[0];
      timeString = dateString.substr(dateStrings.date.length, dateString.length);
    }
  }

  if (timeString) {
    var token = patterns.timezone.exec(timeString);

    if (token) {
      dateStrings.time = timeString.replace(token[1], '');
      dateStrings.timezone = token[1];
    } else {
      dateStrings.time = timeString;
    }
  }

  return dateStrings;
}

function parseYear(dateString, additionalDigits) {
  var regex = new RegExp('^(?:(\\d{4}|[+-]\\d{' + (4 + additionalDigits) + '})|(\\d{2}|[+-]\\d{' + (2 + additionalDigits) + '})$)');
  var captures = dateString.match(regex); // Invalid ISO-formatted year

  if (!captures) return {
    year: NaN,
    restDateString: ''
  };
  var year = captures[1] ? parseInt(captures[1]) : null;
  var century = captures[2] ? parseInt(captures[2]) : null; // either year or century is null, not both

  return {
    year: century === null ? year : century * 100,
    restDateString: dateString.slice((captures[1] || captures[2]).length)
  };
}

function parseDate(dateString, year) {
  // Invalid ISO-formatted year
  if (year === null) return new Date(NaN);
  var captures = dateString.match(dateRegex); // Invalid ISO-formatted string

  if (!captures) return new Date(NaN);
  var isWeekDate = !!captures[4];
  var dayOfYear = parseDateUnit(captures[1]);
  var month = parseDateUnit(captures[2]) - 1;
  var day = parseDateUnit(captures[3]);
  var week = parseDateUnit(captures[4]);
  var dayOfWeek = parseDateUnit(captures[5]) - 1;

  if (isWeekDate) {
    if (!validateWeekDate(year, week, dayOfWeek)) {
      return new Date(NaN);
    }

    return dayOfISOWeekYear(year, week, dayOfWeek);
  } else {
    var date = new Date(0);

    if (!validateDate(year, month, day) || !validateDayOfYearDate(year, dayOfYear)) {
      return new Date(NaN);
    }

    date.setUTCFullYear(year, month, Math.max(dayOfYear, day));
    return date;
  }
}

function parseDateUnit(value) {
  return value ? parseInt(value) : 1;
}

function parseTime(timeString) {
  var captures = timeString.match(timeRegex);
  if (!captures) return NaN; // Invalid ISO-formatted time

  var hours = parseTimeUnit(captures[1]);
  var minutes = parseTimeUnit(captures[2]);
  var seconds = parseTimeUnit(captures[3]);

  if (!validateTime(hours, minutes, seconds)) {
    return NaN;
  }

  return hours * millisecondsInHour + minutes * millisecondsInMinute + seconds * 1000;
}

function parseTimeUnit(value) {
  return value && parseFloat(value.replace(',', '.')) || 0;
}

function parseTimezone(timezoneString) {
  if (timezoneString === 'Z') return 0;
  var captures = timezoneString.match(timezoneRegex);
  if (!captures) return 0;
  var sign = captures[1] === '+' ? -1 : 1;
  var hours = parseInt(captures[2]);
  var minutes = captures[3] && parseInt(captures[3]) || 0;

  if (!validateTimezone(hours, minutes)) {
    return NaN;
  }

  return sign * (hours * millisecondsInHour + minutes * millisecondsInMinute);
}

function dayOfISOWeekYear(isoWeekYear, week, day) {
  var date = new Date(0);
  date.setUTCFullYear(isoWeekYear, 0, 4);
  var fourthOfJanuaryDay = date.getUTCDay() || 7;
  var diff = (week - 1) * 7 + day + 1 - fourthOfJanuaryDay;
  date.setUTCDate(date.getUTCDate() + diff);
  return date;
} // Validation functions
// February is null to handle the leap year (using ||)


var daysInMonths = [31, null, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31];

function isLeapYearIndex(year) {
  return year % 400 === 0 || year % 4 === 0 && year % 100 !== 0;
}

function validateDate(year, month, date) {
  return month >= 0 && month <= 11 && date >= 1 && date <= (daysInMonths[month] || (isLeapYearIndex(year) ? 29 : 28));
}

function validateDayOfYearDate(year, dayOfYear) {
  return dayOfYear >= 1 && dayOfYear <= (isLeapYearIndex(year) ? 366 : 365);
}

function validateWeekDate(_year, week, day) {
  return week >= 1 && week <= 53 && day >= 0 && day <= 6;
}

function validateTime(hours, minutes, seconds) {
  if (hours === 24) {
    return minutes === 0 && seconds === 0;
  }

  return seconds >= 0 && seconds < 60 && minutes >= 0 && minutes < 60 && hours >= 0 && hours < 25;
}

function validateTimezone(_hours, minutes) {
  return minutes >= 0 && minutes <= 59;
}