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Google App Engine compliant variation of FreeMarker. FreeMarker is a "template engine"; a generic tool to generate text output based on templates.

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/*
 * Copyright 2014 Attila Szegedi, Daniel Dekany, Jonathan Revusky
 * 
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 * 
 * http://www.apache.org/licenses/LICENSE-2.0
 * 
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

package freemarker.template.utility;

import java.text.ParseException;
import java.util.Calendar;
import java.util.Date;
import java.util.GregorianCalendar;
import java.util.Locale;
import java.util.TimeZone;
import java.util.regex.Matcher;
import java.util.regex.Pattern;

/**
 * Date and time related utilities.
 */
public class DateUtil {

    /**
     * Show hours (24h); always 2 digits, like {@code 00}, {@code 05}, etc.
     */
    public static final int ACCURACY_HOURS = 4;
    
    /**
     * Show hours and minutes (even if minutes is 00).
     */
    public static final int ACCURACY_MINUTES = 5;
    
    /**
     * Show hours, minutes and seconds (even if seconds is 00).
     */
    public static final int ACCURACY_SECONDS = 6;
    
    /**
     * Show hours, minutes and seconds and up to 3 fraction second digits, without trailing 0-s in the fraction part. 
     */
    public static final int ACCURACY_MILLISECONDS = 7;
    
    /**
     * Show hours, minutes and seconds and exactly 3 fraction second digits (even if it's 000)
     */
    public static final int ACCURACY_MILLISECONDS_FORCED = 8;
    
    public static final TimeZone UTC = TimeZone.getTimeZone("UTC");
    
    private static final String REGEX_XS_TIME_ZONE
            = "Z|(?:[-+][0-9]{2}:[0-9]{2})";
    private static final String REGEX_ISO8601_BASIC_TIME_ZONE
            = "Z|(?:[-+][0-9]{2}(?:[0-9]{2})?)";
    private static final String REGEX_ISO8601_EXTENDED_TIME_ZONE
            = "Z|(?:[-+][0-9]{2}(?::[0-9]{2})?)";
    
    private static final String REGEX_XS_OPTIONAL_TIME_ZONE
            = "(" + REGEX_XS_TIME_ZONE + ")?";
    private static final String REGEX_ISO8601_BASIC_OPTIONAL_TIME_ZONE
            = "(" + REGEX_ISO8601_BASIC_TIME_ZONE + ")?";
    private static final String REGEX_ISO8601_EXTENDED_OPTIONAL_TIME_ZONE
            = "(" + REGEX_ISO8601_EXTENDED_TIME_ZONE + ")?";
    
    private static final String REGEX_XS_DATE_BASE
            = "(-?[0-9]+)-([0-9]{2})-([0-9]{2})";
    private static final String REGEX_ISO8601_BASIC_DATE_BASE
            = "(-?[0-9]{4,}?)([0-9]{2})([0-9]{2})";
    private static final String REGEX_ISO8601_EXTENDED_DATE_BASE
            = "(-?[0-9]{4,})-([0-9]{2})-([0-9]{2})";
    
    private static final String REGEX_XS_TIME_BASE
            = "([0-9]{2}):([0-9]{2}):([0-9]{2})(?:\\.([0-9]+))?";
    private static final String REGEX_ISO8601_BASIC_TIME_BASE
            = "([0-9]{2})(?:([0-9]{2})(?:([0-9]{2})(?:[\\.,]([0-9]+))?)?)?";
    private static final String REGEX_ISO8601_EXTENDED_TIME_BASE
            = "([0-9]{2})(?::([0-9]{2})(?::([0-9]{2})(?:[\\.,]([0-9]+))?)?)?";
        
    private static final Pattern PATTERN_XS_DATE = Pattern.compile(
            REGEX_XS_DATE_BASE + REGEX_XS_OPTIONAL_TIME_ZONE);
    private static final Pattern PATTERN_ISO8601_BASIC_DATE = Pattern.compile(
            REGEX_ISO8601_BASIC_DATE_BASE); // No time zone allowed here
    private static final Pattern PATTERN_ISO8601_EXTENDED_DATE = Pattern.compile(
            REGEX_ISO8601_EXTENDED_DATE_BASE); // No time zone allowed here

    private static final Pattern PATTERN_XS_TIME = Pattern.compile(
            REGEX_XS_TIME_BASE + REGEX_XS_OPTIONAL_TIME_ZONE);
    private static final Pattern PATTERN_ISO8601_BASIC_TIME = Pattern.compile(
            REGEX_ISO8601_BASIC_TIME_BASE + REGEX_ISO8601_BASIC_OPTIONAL_TIME_ZONE);
    private static final Pattern PATTERN_ISO8601_EXTENDED_TIME = Pattern.compile(
            REGEX_ISO8601_EXTENDED_TIME_BASE + REGEX_ISO8601_EXTENDED_OPTIONAL_TIME_ZONE);
    
    private static final Pattern PATTERN_XS_DATE_TIME = Pattern.compile(
            REGEX_XS_DATE_BASE
            + "T" + REGEX_XS_TIME_BASE
            + REGEX_XS_OPTIONAL_TIME_ZONE);
    private static final Pattern PATTERN_ISO8601_BASIC_DATE_TIME = Pattern.compile(
            REGEX_ISO8601_BASIC_DATE_BASE
            + "T" + REGEX_ISO8601_BASIC_TIME_BASE
            + REGEX_ISO8601_BASIC_OPTIONAL_TIME_ZONE);
    private static final Pattern PATTERN_ISO8601_EXTENDED_DATE_TIME = Pattern.compile(
            REGEX_ISO8601_EXTENDED_DATE_BASE
            + "T" + REGEX_ISO8601_EXTENDED_TIME_BASE
            + REGEX_ISO8601_EXTENDED_OPTIONAL_TIME_ZONE);
    
    private static final Pattern PATTERN_XS_TIME_ZONE = Pattern.compile(
            REGEX_XS_TIME_ZONE);
    
    private static final String MSG_YEAR_0_NOT_ALLOWED
            = "Year 0 is not allowed in XML schema dates. BC 1 is -1, AD 1 is 1.";
    
    private DateUtil() {
        // can't be instantiated
    }
    
    /**
     * Returns the time zone object for the name (or ID). This differs from
     * {@link TimeZone#getTimeZone(String)} in that the latest returns GMT
     * if it doesn't recognize the name, while this throws an
     * {@link UnrecognizedTimeZoneException}.
     * 
     * @throws UnrecognizedTimeZoneException If the time zone name wasn't understood
     */
    public static TimeZone getTimeZone(String name)
    throws UnrecognizedTimeZoneException {
        if (isGMTish(name)) {
            if (name.equalsIgnoreCase("UTC")) {
                return UTC;
            }
            return TimeZone.getTimeZone(name);
        }
        TimeZone tz = TimeZone.getTimeZone(name);
        if (isGMTish(tz.getID())) {
            throw new UnrecognizedTimeZoneException(name);
        }
        return tz;
    }

    /**
     * Tells if a offset or time zone is GMT. GMT is a fuzzy term, it used to
     * referred both to UTC and UT1.
     */
    private static boolean isGMTish(String name) {
        if (name.length() < 3) {
            return false;
        }
        char c1 = name.charAt(0);
        char c2 = name.charAt(1);
        char c3 = name.charAt(2);
        if (
                !(
                       (c1 == 'G' || c1 == 'g')
                    && (c2 == 'M' || c2 == 'm')
                    && (c3 == 'T' || c3 == 't')
                )
                &&
                !(
                       (c1 == 'U' || c1 == 'u')
                    && (c2 == 'T' || c2 == 't')
                    && (c3 == 'C' || c3 == 'c')
                )
                &&
                !(
                       (c1 == 'U' || c1 == 'u')
                    && (c2 == 'T' || c2 == 't')
                    && (c3 == '1')
                )
                ) {
            return false;
        }
        
        if (name.length() == 3) {
            return true;
        }
        
        String offset = name.substring(3);
        if (offset.startsWith("+")) {
            return offset.equals("+0") || offset.equals("+00")
                    || offset.equals("+00:00");
        } else {
            return offset.equals("-0") || offset.equals("-00")
            || offset.equals("-00:00");
        }
    }

    /**
     * Format a date, time or dateTime with one of the ISO 8601 extended
     * formats that is also compatible with the XML Schema format (as far as you
     * don't have dates in the BC era). Examples of possible outputs:
     * {@code "2005-11-27T15:30:00+02:00"}, {@code "2005-11-27"},
     * {@code "15:30:00Z"}. Note the {@code ":00"} in the time zone offset;
     * this is not required by ISO 8601, but included for compatibility with
     * the XML Schema format. Regarding the B.C. issue, those dates will be
     * one year off when read back according the XML Schema format, because of a
     * mismatch between that format and ISO 8601:2000 Second Edition.  
     * 
     * 

This method is thread-safe. * * @param date the date to convert to ISO 8601 string * @param datePart whether the date part (year, month, day) will be included * or not * @param timePart whether the time part (hours, minutes, seconds, * milliseconds) will be included or not * @param offsetPart whether the time zone offset part will be included or * not. This will be shown as an offset to UTC (examples: * {@code "+01"}, {@code "-02"}, {@code "+04:30"}) or as {@code "Z"} * for UTC (and for UT1 and for GMT+00, since the Java platform * doesn't really care about the difference). * Note that this can't be {@code true} when {@code timePart} is * {@code false}, because ISO 8601 (2004) doesn't mention such * patterns. * @param accuracy tells which parts of the date/time to drop. The * {@code datePart} and {@code timePart} parameters are stronger than * this. Note that when {@link #ACCURACY_MILLISECONDS} is specified, * the milliseconds part will be displayed as fraction seconds * (like {@code "15:30.00.25"}) with the minimum number of * digits needed to show the milliseconds without precision lose. * Thus, if the milliseconds happen to be exactly 0, no fraction * seconds will be shown at all. * @param timeZone the time zone in which the date/time will be shown. (You * may find {@link DateUtil#UTC} handy here.) Note * that although date-only formats has no time zone offset part, * the result still depends on the time zone, as days start and end * at different points on the time line in different zones. * @param calendarFactory the factory that will create the calendar used * internally for calculations. The point of this parameter is that * creating a new calendar is relatively expensive, so it's desirable * to reuse calendars and only set their time and zone. (This was * tested on Sun JDK 1.6 x86 Win, where it gave 2x-3x speedup.) */ public static String dateToISO8601String( Date date, boolean datePart, boolean timePart, boolean offsetPart, int accuracy, TimeZone timeZone, DateToISO8601CalendarFactory calendarFactory) { return dateToString(date, datePart, timePart, offsetPart, accuracy, timeZone, false, calendarFactory); } /** * Same as {@link #dateToISO8601String}, but gives XML Schema compliant format. */ public static String dateToXSString( Date date, boolean datePart, boolean timePart, boolean offsetPart, int accuracy, TimeZone timeZone, DateToISO8601CalendarFactory calendarFactory) { return dateToString(date, datePart, timePart, offsetPart, accuracy, timeZone, true, calendarFactory); } private static String dateToString( Date date, boolean datePart, boolean timePart, boolean offsetPart, int accuracy, TimeZone timeZone, boolean xsMode, DateToISO8601CalendarFactory calendarFactory) { if (!xsMode && !timePart && offsetPart) { throw new IllegalArgumentException( "ISO 8601:2004 doesn't specify any formats where the " + "offset is shown but the time isn't."); } if (timeZone == null) { timeZone = UTC; } GregorianCalendar cal = calendarFactory.get(timeZone, date); int maxLength; if (!timePart) { maxLength = 10 + (xsMode ? 6 : 0); // YYYY-MM-DD+00:00 } else { if (!datePart) { maxLength = 12 + 6; // HH:MM:SS.mmm+00:00 } else { maxLength = 10 + 1 + 12 + 6; } } char[] res = new char[maxLength]; int dstIdx = 0; if (datePart) { int x = cal.get(Calendar.YEAR); if (x > 0 && cal.get(Calendar.ERA) == GregorianCalendar.BC) { x = -x + (xsMode ? 0 : 1); } if (x >= 0 && x < 9999) { res[dstIdx++] = (char) ('0' + x / 1000); res[dstIdx++] = (char) ('0' + x % 1000 / 100); res[dstIdx++] = (char) ('0' + x % 100 / 10); res[dstIdx++] = (char) ('0' + x % 10); } else { String yearString = String.valueOf(x); // Re-allocate buffer: maxLength = maxLength - 4 + yearString.length(); res = new char[maxLength]; for (int i = 0; i < yearString.length(); i++) { res[dstIdx++] = yearString.charAt(i); } } res[dstIdx++] = '-'; x = cal.get(Calendar.MONTH) + 1; dstIdx = append00(res, dstIdx, x); res[dstIdx++] = '-'; x = cal.get(Calendar.DAY_OF_MONTH); dstIdx = append00(res, dstIdx, x); if (timePart) { res[dstIdx++] = 'T'; } } if (timePart) { int x = cal.get(Calendar.HOUR_OF_DAY); dstIdx = append00(res, dstIdx, x); if (accuracy >= ACCURACY_MINUTES) { res[dstIdx++] = ':'; x = cal.get(Calendar.MINUTE); dstIdx = append00(res, dstIdx, x); if (accuracy >= ACCURACY_SECONDS) { res[dstIdx++] = ':'; x = cal.get(Calendar.SECOND); dstIdx = append00(res, dstIdx, x); if (accuracy >= ACCURACY_MILLISECONDS) { x = cal.get(Calendar.MILLISECOND); int forcedDigits = accuracy == ACCURACY_MILLISECONDS_FORCED ? 3 : 0; if (x != 0 || forcedDigits != 0) { if (x > 999) { // Shouldn't ever happen... throw new RuntimeException( "Calendar.MILLISECOND > 999"); } res[dstIdx++] = '.'; do { res[dstIdx++] = (char) ('0' + (x / 100)); forcedDigits--; x = x % 100 * 10; } while (x != 0 || forcedDigits > 0); } } } } } if (offsetPart) { if (timeZone == UTC) { res[dstIdx++] = 'Z'; } else { int dt = timeZone.getOffset(date.getTime()); boolean positive; if (dt < 0) { positive = false; dt = -dt; } else { positive = true; } dt /= 1000; int offS = dt % 60; dt /= 60; int offM = dt % 60; dt /= 60; int offH = dt; if (offS == 0 && offM == 0 && offH == 0) { res[dstIdx++] = 'Z'; } else { res[dstIdx++] = positive ? '+' : '-'; dstIdx = append00(res, dstIdx, offH); res[dstIdx++] = ':'; dstIdx = append00(res, dstIdx, offM); if (offS != 0) { res[dstIdx++] = ':'; dstIdx = append00(res, dstIdx, offS); } } } } return new String(res, 0, dstIdx); } /** * Appends a number between 0 and 99 padded to 2 digits. */ private static int append00(char[] res, int dstIdx, int x) { res[dstIdx++] = (char) ('0' + x / 10); res[dstIdx++] = (char) ('0' + x % 10); return dstIdx; } /** * Parses an W3C XML Schema date string (not time or date-time). * Unlike in ISO 8601:2000 Second Edition, year -1 means B.C 1, and year 0 is invalid. * * @param dateStr the string to parse. * @param defaultTimeZone used if the date doesn't specify the * time zone offset explicitly. Can't be {@code null}. * @param calToDateConverter Used internally to calculate the result from the calendar field values. * If you don't have a such object around, you can just use * {@code new }{@link TrivialCalendarFieldsToDateConverter}{@code ()}. * * @throws DateParseException if the date is malformed, or if the time * zone offset is unspecified and the {@code defaultTimeZone} is * {@code null}. */ public static Date parseXSDate( String dateStr, TimeZone defaultTimeZone, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_XS_DATE.matcher(dateStr); if (!m.matches()) { throw new DateParseException("The value didn't match the expected pattern: " + PATTERN_XS_DATE); } return parseDate_parseMatcher( m, defaultTimeZone, true, calToDateConverter); } /** * Same as {@link #parseXSDate(String, TimeZone, CalendarFieldsToDateConverter)}, but for ISO 8601 dates. */ public static Date parseISO8601Date( String dateStr, TimeZone defaultTimeZone, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_ISO8601_EXTENDED_DATE.matcher(dateStr); if (!m.matches()) { m = PATTERN_ISO8601_BASIC_DATE.matcher(dateStr); if (!m.matches()) { throw new DateParseException("The value didn't match the expected pattern: " + PATTERN_ISO8601_EXTENDED_DATE + " or " + PATTERN_ISO8601_BASIC_DATE); } } return parseDate_parseMatcher( m, defaultTimeZone, false, calToDateConverter); } private static Date parseDate_parseMatcher( Matcher m, TimeZone defaultTZ, boolean xsMode, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { NullArgumentException.check("defaultTZ", defaultTZ); try { int year = groupToInt(m.group(1), "year", Integer.MIN_VALUE, Integer.MAX_VALUE); int era; // Starting from ISO 8601:2000 Second Edition, 0001 is AD 1, 0000 is BC 1, -0001 is BC 2. // However, according to http://www.w3.org/TR/2004/REC-xmlschema-2-20041028/, XML schemas are based // on the earlier version where 0000 didn't exist, and year -1 is BC 1. if (year <= 0) { era = GregorianCalendar.BC; year = -year + (xsMode ? 0 : 1); if (year == 0) { throw new DateParseException(MSG_YEAR_0_NOT_ALLOWED); } } else { era = GregorianCalendar.AD; } int month = groupToInt(m.group(2), "month", 1, 12) - 1; int day = groupToInt(m.group(3), "day-of-month", 1, 31); TimeZone tz = xsMode ? parseMatchingTimeZone(m.group(4), defaultTZ) : defaultTZ; return calToDateConverter.calculate(era, year, month, day, 0, 0, 0, 0, false, tz); } catch (IllegalArgumentException e) { // Calendar methods used to throw this for illegal dates. throw new DateParseException( "Date calculation faliure. " + "Probably the date is formally correct, but refers " + "to an unexistent date (like February 30)."); } } /** * Parses an W3C XML Schema time string (not date or date-time). * If the time string doesn't specify the time zone offset explicitly, * the value of the {@code defaultTZ} paramter will be used. */ public static Date parseXSTime( String timeStr, TimeZone defaultTZ, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_XS_TIME.matcher(timeStr); if (!m.matches()) { throw new DateParseException("The value didn't match the expected pattern: " + PATTERN_XS_TIME); } return parseTime_parseMatcher(m, defaultTZ, calToDateConverter); } /** * Same as {@link #parseXSTime(String, TimeZone, CalendarFieldsToDateConverter)} but for ISO 8601 times. */ public static Date parseISO8601Time( String timeStr, TimeZone defaultTZ, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_ISO8601_EXTENDED_TIME.matcher(timeStr); if (!m.matches()) { m = PATTERN_ISO8601_BASIC_TIME.matcher(timeStr); if (!m.matches()) { throw new DateParseException("The value didn't match the expected pattern: " + PATTERN_ISO8601_EXTENDED_TIME + " or " + PATTERN_ISO8601_BASIC_TIME); } } return parseTime_parseMatcher(m, defaultTZ, calToDateConverter); } private static Date parseTime_parseMatcher( Matcher m, TimeZone defaultTZ, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { NullArgumentException.check("defaultTZ", defaultTZ); try { // ISO 8601 allows both 00:00 and 24:00, // but Calendar.set(...) doesn't if the Calendar is not lenient. int hours = groupToInt(m.group(1), "hour-of-day", 0, 24); boolean hourWas24; if (hours == 24) { hours = 0; hourWas24 = true; // And a day will be added later... } else { hourWas24 = false; } final String minutesStr = m.group(2); int minutes = minutesStr != null ? groupToInt(minutesStr, "minute", 0, 59) : 0; final String secsStr = m.group(3); // Allow 60 because of leap seconds int secs = secsStr != null ? groupToInt(secsStr, "second", 0, 60) : 0; int millisecs = groupToMillisecond(m.group(4)); // As a time is just the distance from the beginning of the day, // the time-zone offest should be 0 usually. TimeZone tz = parseMatchingTimeZone(m.group(5), defaultTZ); // Continue handling the 24:00 special case int day; if (hourWas24) { if (minutes == 0 && secs == 0 && millisecs == 0) { day = 2; } else { throw new DateParseException( "Hour 24 is only allowed in the case of " + "midnight."); } } else { day = 1; } return calToDateConverter.calculate( GregorianCalendar.AD, 1970, 0, day, hours, minutes, secs, millisecs, false, tz); } catch (IllegalArgumentException e) { // Calendar methods used to throw this for illegal dates. throw new DateParseException( "Unexpected time calculation faliure."); } } /** * Parses an W3C XML Schema date-time string (not date or time). * Unlike in ISO 8601:2000 Second Edition, year -1 means B.C 1, and year 0 is invalid. * * @param dateTimeStr the string to parse. * @param defaultTZ used if the dateTime doesn't specify the * time zone offset explicitly. Can't be {@code null}. * * @throws DateParseException if the dateTime is malformed. */ public static Date parseXSDateTime( String dateTimeStr, TimeZone defaultTZ, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_XS_DATE_TIME.matcher(dateTimeStr); if (!m.matches()) { throw new DateParseException( "The value didn't match the expected pattern: " + PATTERN_XS_DATE_TIME); } return parseDateTime_parseMatcher( m, defaultTZ, true, calToDateConverter); } /** * Same as {@link #parseXSDateTime(String, TimeZone, CalendarFieldsToDateConverter)} but for ISO 8601 format. */ public static Date parseISO8601DateTime( String dateTimeStr, TimeZone defaultTZ, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { Matcher m = PATTERN_ISO8601_EXTENDED_DATE_TIME.matcher(dateTimeStr); if (!m.matches()) { m = PATTERN_ISO8601_BASIC_DATE_TIME.matcher(dateTimeStr); if (!m.matches()) { throw new DateParseException("The value (" + dateTimeStr + ") didn't match the expected pattern: " + PATTERN_ISO8601_EXTENDED_DATE_TIME + " or " + PATTERN_ISO8601_BASIC_DATE_TIME); } } return parseDateTime_parseMatcher( m, defaultTZ, false, calToDateConverter); } private static Date parseDateTime_parseMatcher( Matcher m, TimeZone defaultTZ, boolean xsMode, CalendarFieldsToDateConverter calToDateConverter) throws DateParseException { NullArgumentException.check("defaultTZ", defaultTZ); try { int year = groupToInt(m.group(1), "year", Integer.MIN_VALUE, Integer.MAX_VALUE); int era; // Starting from ISO 8601:2000 Second Edition, 0001 is AD 1, 0000 is BC 1, -0001 is BC 2. // However, according to http://www.w3.org/TR/2004/REC-xmlschema-2-20041028/, XML schemas are based // on the earlier version where 0000 didn't exist, and year -1 is BC 1. if (year <= 0) { era = GregorianCalendar.BC; year = -year + (xsMode ? 0 : 1); if (year == 0) { throw new DateParseException(MSG_YEAR_0_NOT_ALLOWED); } } else { era = GregorianCalendar.AD; } int month = groupToInt(m.group(2), "month", 1, 12) - 1; int day = groupToInt(m.group(3), "day-of-month", 1, 31); // ISO 8601 allows both 00:00 and 24:00, // but cal.set(...) doesn't if the Calendar is not lenient. int hours = groupToInt(m.group(4), "hour-of-day", 0, 24); boolean hourWas24; if (hours == 24) { hours = 0; hourWas24 = true; // And a day will be added later... } else { hourWas24 = false; } final String minutesStr = m.group(5); int minutes = minutesStr != null ? groupToInt(minutesStr, "minute", 0, 59) : 0; final String secsStr = m.group(6); // Allow 60 because of leap seconds int secs = secsStr != null ? groupToInt(secsStr, "second", 0, 60) : 0; int millisecs = groupToMillisecond(m.group(7)); // As a time is just the distance from the beginning of the day, // the time-zone offest should be 0 usually. TimeZone tz = parseMatchingTimeZone(m.group(8), defaultTZ); // Continue handling the 24:00 specail case if (hourWas24) { if (minutes != 0 || secs != 0 || millisecs != 0) { throw new DateParseException( "Hour 24 is only allowed in the case of " + "midnight."); } } return calToDateConverter.calculate( era, year, month, day, hours, minutes, secs, millisecs, hourWas24, tz); } catch (IllegalArgumentException e) { // Calendar methods used to throw this for illegal dates. throw new DateParseException( "Date-time calculation faliure. " + "Probably the date-time is formally correct, but " + "refers to an unexistent date-time " + "(like February 30)."); } } /** * Parses the time zone part from a W3C XML Schema date/time/dateTime. * @throws DateParseException if the zone is malformed. */ public static TimeZone parseXSTimeZone(String timeZoneStr) throws DateParseException { Matcher m = PATTERN_XS_TIME_ZONE.matcher(timeZoneStr); if (!m.matches()) { throw new DateParseException( "The time zone offset didn't match the expected pattern: " + PATTERN_XS_TIME_ZONE); } return parseMatchingTimeZone(timeZoneStr, null); } private static int groupToInt(String g, String gName, int min, int max) throws DateParseException { if (g == null) { throw new DateParseException("The " + gName + " part " + "is missing."); } int start; // Remove minus sign, so we can remove the 0-s later: boolean negative; if (g.startsWith("-")) { negative = true; start = 1; } else { negative = false; start = 0; } // Remove leading 0-s: while (start < g.length() - 1 && g.charAt(start) == '0') { start++; } if (start != 0) { g = g.substring(start); } try { int r = Integer.parseInt(g); if (negative) { r = -r; } if (r < min) { throw new DateParseException("The " + gName + " part " + "must be at least " + min + "."); } if (r > max) { throw new DateParseException("The " + gName + " part " + "can't be more than " + max + "."); } return r; } catch (NumberFormatException e) { throw new DateParseException("The " + gName + " part " + "is a malformed integer."); } } private static TimeZone parseMatchingTimeZone( String s, TimeZone defaultZone) throws DateParseException { if (s == null) { return defaultZone; } if (s.equals("Z")) { return DateUtil.UTC; } StringBuffer sb = new StringBuffer(9); sb.append("GMT"); sb.append(s.charAt(0)); String h = s.substring(1, 3); groupToInt(h, "offset-hours", 0, 23); sb.append(h); String m; int ln = s.length(); if (ln > 3) { int startIdx = s.charAt(3) == ':' ? 4 : 3; m = s.substring(startIdx, startIdx + 2); groupToInt(m, "offset-minutes", 0, 59); sb.append(':'); sb.append(m); } return TimeZone.getTimeZone(sb.toString()); } private static int groupToMillisecond(String g) throws DateParseException { if (g == null) { return 0; } if (g.length() > 3) { g = g.substring(0, 3); } int i = groupToInt(g, "partial-seconds", 0, Integer.MAX_VALUE); return g.length() == 1 ? i * 100 : (g.length() == 2 ? i * 10 : i); } /** * Used internally by {@link DateUtil}; don't use its implementations for * anything else. */ public interface DateToISO8601CalendarFactory { /** * Returns a {@link GregorianCalendar} with the desired time zone and * time and US locale. The returned calendar is used as read-only. * It must be guaranteed that within a thread the instance returned last time * is not in use anymore when this method is called again. */ GregorianCalendar get(TimeZone tz, Date date); } /** * Used internally by {@link DateUtil}; don't use its implementations for anything else. */ public interface CalendarFieldsToDateConverter { /** * Calculates the {@link Date} from the specified calendar fields. */ Date calculate(int era, int year, int month, int day, int hours, int minutes, int secs, int millisecs, boolean addOneDay, TimeZone tz); } /** * Non-thread-safe factory that hard-references a calendar internally. */ public static final class TrivialDateToISO8601CalendarFactory implements DateToISO8601CalendarFactory { private GregorianCalendar calendar; private TimeZone lastlySetTimeZone; public GregorianCalendar get(TimeZone tz, Date date) { if (calendar == null) { calendar = new GregorianCalendar(tz, Locale.US); calendar.setGregorianChange(new Date(Long.MIN_VALUE)); // never use Julian calendar } else { // At least on Java 6, calendar.getTimeZone is slow due to a bug, so we need lastlySetTimeZone. if (lastlySetTimeZone != tz) { // Deliberately `!=` instead of `!<...>.equals()` calendar.setTimeZone(tz); lastlySetTimeZone = tz; } } calendar.setTime(date); return calendar; } } /** * Non-thread-safe implementation that hard-references a calendar internally. */ public static final class TrivialCalendarFieldsToDateConverter implements CalendarFieldsToDateConverter { private GregorianCalendar calendar; private TimeZone lastlySetTimeZone; public Date calculate(int era, int year, int month, int day, int hours, int minutes, int secs, int millisecs, boolean addOneDay, TimeZone tz) { if (calendar == null) { calendar = new GregorianCalendar(tz, Locale.US); calendar.setLenient(false); calendar.setGregorianChange(new Date(Long.MIN_VALUE)); // never use Julian calendar } else { // At least on Java 6, calendar.getTimeZone is slow due to a bug, so we need lastlySetTimeZone. if (lastlySetTimeZone != tz) { // Deliberately `!=` instead of `!<...>.equals()` calendar.setTimeZone(tz); lastlySetTimeZone = tz; } } calendar.set(Calendar.ERA, era); calendar.set(Calendar.YEAR, year); calendar.set(Calendar.MONTH, month); calendar.set(Calendar.DAY_OF_MONTH, day); calendar.set(Calendar.HOUR_OF_DAY, hours); calendar.set(Calendar.MINUTE, minutes); calendar.set(Calendar.SECOND, secs); calendar.set(Calendar.MILLISECOND, millisecs); if (addOneDay) { calendar.add(Calendar.DAY_OF_MONTH, 1); } return calendar.getTime(); } } public static final class DateParseException extends ParseException { public DateParseException(String message) { super(message, 0); } } }





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