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/*
 * Copyright (C) 2018 HaiYang Li
 *
 * 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 com.landawn.abacus.util;

import java.io.IOException;
import java.io.Writer;
import java.sql.Date;
import java.sql.Time;
import java.sql.Timestamp;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import java.util.Calendar;
import java.util.GregorianCalendar;
import java.util.Map;
import java.util.Queue;
import java.util.TimeZone;
import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.TimeUnit;

import javax.xml.datatype.DatatypeFactory;
import javax.xml.datatype.XMLGregorianCalendar;

import com.landawn.abacus.exception.UncheckedIOException;

/**
 * 
 * @since 1.2.6
 * 
 * @author Haiyang Li
 */
public abstract class DateUtil {

    // ...
    public static final TimeZone UTC_TIME_ZONE = TimeZone.getTimeZone("UTC");
    /**
     * The system default time zone
     */
    public static final TimeZone LOCAL_TIME_ZONE = TimeZone.getDefault();

    /**
     * Date format.
     */
    public static final String LOCAL_YEAR_FORMAT = "yyyy";
    public static final String LOCAL_MONTH_DAY_FORMAT = "MM-dd";
    static final String LOCAL_MONTH_DAY_FORMAT_SLASH = "MM/dd";
    public static final String LOCAL_DATE_FORMAT = "yyyy-MM-dd";
    static final String LOCAL_DATE_FORMAT_SLASH = "yyyy/MM/dd";
    public static final String LOCAL_TIME_FORMAT = "HH:mm:ss";
    public static final String LOCAL_DATETIME_FORMAT = "yyyy-MM-dd HH:mm:ss";
    static final String LOCAL_DATETIME_FORMAT_SLASH = "yyyy/MM/dd HH:mm:ss";
    public static final String LOCAL_TIMESTAMP_FORMAT = "yyyy-MM-dd HH:mm:ss.SSS";
    static final String LOCAL_TIMESTAMP_FORMAT_SLASH = "yyyy/MM/dd HH:mm:ss.SSS";

    /**
     * It's default date/time format.
     */
    public static final String ISO_8601_DATETIME_FORMAT = "yyyy-MM-dd'T'HH:mm:ss'Z'";
    static final String ISO_8601_DATETIME_FORMAT_SLASH = "yyyy/MM/dd'T'HH:mm:ss'Z'";
    /**
     * It's default timestamp format.
     */
    public static final String ISO_8601_TIMESTAMP_FORMAT = "yyyy-MM-dd'T'HH:mm:ss.SSS'Z'";
    static final String ISO_8601_TIMESTAMP_FORMAT_SLASH = "yyyy/MM/dd'T'HH:mm:ss.SSS'Z'";

    /**
     * This constant defines the date format specified by
     * RFC 1123 / RFC 822. Used for parsing via `SimpleDateFormat` as well as
     * error messages.
     */
    public final static String RFC1123_DATE_FORMAT = "EEE, dd MMM yyyy HH:mm:ss zzz";

    /**
     * This is half a month, so this represents whether a date is in the top
     * or bottom half of the month.
     */
    public static final int SEMI_MONTH = 1001;

    private static final int[][] fields = { { Calendar.MILLISECOND }, { Calendar.SECOND }, { Calendar.MINUTE }, { Calendar.HOUR_OF_DAY, Calendar.HOUR },
            { Calendar.DATE, Calendar.DAY_OF_MONTH, Calendar.AM_PM
            /* Calendar.DAY_OF_YEAR, Calendar.DAY_OF_WEEK, Calendar.DAY_OF_WEEK_IN_MONTH */
            }, { Calendar.MONTH, SEMI_MONTH }, { Calendar.YEAR }, { Calendar.ERA } };

    /**
     * A new instance of java.sql.Time returned is based on the
     * current time in the default time zone with the default locale.
     *
     * @return
     */
    public static Time currentTime() {
        return new Time(System.currentTimeMillis());
    }

    /**
     * A new instance of java.sql.Date returned is based on the
     * current time in the default time zone with the default locale.
     *
     * @return
     */
    public static Date currentDate() {
        return new Date(System.currentTimeMillis());
    }

    /**
     * A new instance of java.sql.Timestamp returned is based on
     * the current time in the default time zone with the default locale.
     *
     * @return
     */
    public static Timestamp currentTimestamp() {
        return new Timestamp(System.currentTimeMillis());
    }

    /**
     * A new instance of java.util.Date returned is based on the
     * current time in the default time zone with the default locale.
     *
     * @return
     */
    public static java.util.Date currentJUDate() {
        return new java.util.Date();
    }

    /**
     * A new instance of java.util.Calendar returned is based on
     * the current time in the default time zone with the default locale.
     *
     * @return a Calendar.
     */
    public static Calendar currentCalendar() {
        return Calendar.getInstance();
    }

    public static GregorianCalendar currentGregorianCalendar() {
        return new GregorianCalendar();
    }

    public static XMLGregorianCalendar currentXMLGregorianCalendar() {
        return dataTypeFactory.newXMLGregorianCalendar(currentGregorianCalendar());
    }

    private static final Map> dfPool = new ObjectPool<>(64);
    private static final Map> calendarPool = new ObjectPool<>(64);
    private static final Queue utcTimestampDFPool = new ArrayBlockingQueue<>(Internals.POOL_SIZE);
    private static final Queue utcDateTimeDFPool = new ArrayBlockingQueue<>(Internals.POOL_SIZE);
    private static final Queue utcCalendarPool = new ArrayBlockingQueue<>(Internals.POOL_SIZE);
    // ...
    private static final Queue utcTimestampFormatCharsPool = new ArrayBlockingQueue<>(Internals.POOL_SIZE);
    private static final DatatypeFactory dataTypeFactory;

    static {
        DatatypeFactory temp = null;

        try {
            temp = DatatypeFactory.newInstance();
        } catch (Exception e) {
            // ignore.
            // logger.error("Failed to initialize XMLGregorianCalendarType: " +
            // e.getMessage(), e);
        }

        dataTypeFactory = temp;
    }

    // ...
    private static final char[][][] cbufOfSTDInt = new char[5][][];

    static {
        for (int i = 0, j = 1; i < 5; i++, j = j * 10) {
            cbufOfSTDInt[i] = new char[j][];

            for (int k = 0; k < j; k++) {
                if (i == 1) {
                    cbufOfSTDInt[i][k] = String.valueOf(k).toCharArray();
                } else if (i == 2) {
                    if (k < 10) {
                        cbufOfSTDInt[i][k] = ("0" + String.valueOf(k)).toCharArray();
                    } else {
                        cbufOfSTDInt[i][k] = String.valueOf(k).toCharArray();
                    }
                } else if (i == 3) {
                    if (k < 10) {
                        cbufOfSTDInt[i][k] = ("00" + String.valueOf(k)).toCharArray();
                    } else if (k < 100) {
                        cbufOfSTDInt[i][k] = ("0" + String.valueOf(k)).toCharArray();
                    } else {
                        cbufOfSTDInt[i][k] = String.valueOf(k).toCharArray();
                    }
                } else if (i == 4) {
                    if (k < 10) {
                        cbufOfSTDInt[i][k] = ("000" + String.valueOf(k)).toCharArray();
                    } else if (k < 100) {
                        cbufOfSTDInt[i][k] = ("00" + String.valueOf(k)).toCharArray();
                    } else if (k < 1000) {
                        cbufOfSTDInt[i][k] = ("0" + String.valueOf(k)).toCharArray();
                    } else {
                        cbufOfSTDInt[i][k] = String.valueOf(k).toCharArray();
                    }
                }
            }
        }
    }

    DateUtil() {
        // singleton
    }

    public static java.util.Date createJUDate(final Calendar calendar) {
        return (calendar == null) ? null : createJUDate(calendar.getTimeInMillis());
    }

    public static java.util.Date createJUDate(final java.util.Date date) {
        return (date == null) ? null : createJUDate(date.getTime());
    }

    public static java.util.Date createJUDate(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        return (timeInMillis == 0) ? null : new java.util.Date(timeInMillis);
    }

    public static Date createDate(final Calendar calendar) {
        return (calendar == null) ? null : createDate(calendar.getTimeInMillis());
    }

    public static Date createDate(final java.util.Date date) {
        return (date == null) ? null : createDate(date.getTime());
    }

    public static Date createDate(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        return (timeInMillis == 0) ? null : new Date(timeInMillis);
    }

    public static Time createTime(final Calendar calendar) {
        return (calendar == null) ? null : createTime(calendar.getTimeInMillis());
    }

    public static Time createTime(final java.util.Date date) {
        return (date == null) ? null : createTime(date.getTime());
    }

    public static Time createTime(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        return (timeInMillis == 0) ? null : new Time(timeInMillis);
    }

    public static Timestamp createTimestamp(final Calendar calendar) {
        return (calendar == null) ? null : createTimestamp(calendar.getTimeInMillis());
    }

    public static Timestamp createTimestamp(final java.util.Date date) {
        return (date == null) ? null : createTimestamp(date.getTime());
    }

    public static Timestamp createTimestamp(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        return (timeInMillis == 0) ? null : new Timestamp(timeInMillis);
    }

    public static Calendar createCalendar(final Calendar calendar) {
        return (calendar == null) ? null : createCalendar(calendar.getTimeInMillis());
    }

    public static Calendar createCalendar(final java.util.Date date) {
        return (date == null) ? null : createCalendar(date.getTime());
    }

    public static Calendar createCalendar(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        if (timeInMillis == 0) {
            return null;
        }

        final Calendar c = Calendar.getInstance();

        c.setTimeInMillis(timeInMillis);

        return c;
    }

    public static Calendar createCalendar(final long timeInMillis, final TimeZone tz) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        if (timeInMillis == 0) {
            return null;
        }

        final Calendar c = Calendar.getInstance(tz);

        c.setTimeInMillis(timeInMillis);

        return c;
    }

    public static GregorianCalendar createGregorianCalendar(final Calendar calendar) {
        return (calendar == null) ? null : createGregorianCalendar(calendar.getTimeInMillis());
    }

    public static GregorianCalendar createGregorianCalendar(final java.util.Date date) {
        return (date == null) ? null : createGregorianCalendar(date.getTime());
    }

    public static GregorianCalendar createGregorianCalendar(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        if (timeInMillis == 0) {
            return null;
        }

        final GregorianCalendar c = new GregorianCalendar();

        c.setTimeInMillis(timeInMillis);

        return c;
    }

    public static GregorianCalendar createGregorianCalendar(final long timeInMillis, final TimeZone tz) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        if (timeInMillis == 0) {
            return null;
        }

        final GregorianCalendar c = new GregorianCalendar(tz);

        c.setTimeInMillis(timeInMillis);

        return c;
    }

    public static XMLGregorianCalendar createXMLGregorianCalendar(final Calendar calendar) {
        return (calendar == null) ? null : createXMLGregorianCalendar(calendar.getTimeInMillis());
    }

    public static XMLGregorianCalendar createXMLGregorianCalendar(final java.util.Date date) {
        return (date == null) ? null : createXMLGregorianCalendar(date.getTime());
    }

    public static XMLGregorianCalendar createXMLGregorianCalendar(final long timeInMillis) {
        N.checkArgPositive(timeInMillis, "timeInMillis");

        if (timeInMillis == 0) {
            return null;
        }

        return dataTypeFactory.newXMLGregorianCalendar(createGregorianCalendar(timeInMillis));
    }

    public static java.util.Date parseJUDate(final String date) {
        return parseJUDate(date, null);
    }

    public static java.util.Date parseJUDate(final String date, final String format) {
        return parseJUDate(date, format, null);
    }

    /**
     * Converts the specified date with the specified {@code format} to a new instance of java.util.Date.
     * null is returned if the specified date is null or empty.
     *
     * @param date
     * @param format
     * @throws IllegalArgumentException
     *             if the date given can't be parsed with specified format.
     */
    public static java.util.Date parseJUDate(final String date, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(date) || (date.length() == 4 && "null".equalsIgnoreCase(date))) {
            return null;
        }

        return createJUDate(parse(date, format, timeZone));
    }

    public static Date parseDate(final String date) {
        return parseDate(date, null);
    }

    public static Date parseDate(final String date, final String format) {
        return parseDate(date, format, null);
    }

    /**
     * Converts the specified date with the specified {@code format} to a new instance of java.sql.Date.
     * null is returned if the specified date is null or empty.
     * 
     * @param date
     * @param format
     * @param timeZone
     * @return
     */
    public static Date parseDate(final String date, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(date) || (date.length() == 4 && "null".equalsIgnoreCase(date))) {
            return null;
        }

        return createDate(parse(date, format, timeZone));
    }

    public static Time parseTime(final String date) {
        return parseTime(date, null);
    }

    public static Time parseTime(final String date, final String format) {
        return parseTime(date, format, null);
    }

    /**
     * Converts the specified date with the specified {@code format} to a new instance of Time.
     * null is returned if the specified date is null or empty.
     * 
     * @param date
     * @param format
     * @param timeZone
     * @return
     */
    public static Time parseTime(final String date, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(date) || (date.length() == 4 && "null".equalsIgnoreCase(date))) {
            return null;
        }

        return createTime(parse(date, format, timeZone));
    }

    public static Timestamp parseTimestamp(final String date) {
        return parseTimestamp(date, null);
    }

    public static Timestamp parseTimestamp(final String date, final String format) {
        return parseTimestamp(date, format, null);
    }

    /**
     * Converts the specified date with the specified {@code format} to a new instance of Timestamp.
     * null is returned if the specified date is null or empty.
     * 
     * @param date
     * @param format
     * @param timeZone
     * @return
     */
    public static Timestamp parseTimestamp(final String date, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(date) || (date.length() == 4 && "null".equalsIgnoreCase(date))) {
            return null;
        }

        return createTimestamp(parse(date, format, timeZone));
    }

    public static Calendar parseCalendar(final String calendar) {
        return parseCalendar(calendar, null);
    }

    public static Calendar parseCalendar(final String calendar, final String format) {
        return parseCalendar(calendar, format, null);
    }

    /**
     * Converts the specified calendar with the specified {@code format} to a new instance of Calendar.
     * null is returned if the specified date is null or empty.
     * 
     * @param calendar
     * @param format
     * @param timeZone
     * @return
     */
    public static Calendar parseCalendar(final String calendar, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(calendar) || (calendar.length() == 4 && "null".equalsIgnoreCase(calendar))) {
            return null;
        }

        return createCalendar(parse(calendar, format, timeZone));
    }

    public static GregorianCalendar parseGregorianCalendar(final String calendar) {
        return parseGregorianCalendar(calendar, null);
    }

    public static GregorianCalendar parseGregorianCalendar(final String calendar, final String format) {
        return parseGregorianCalendar(calendar, format, null);
    }

    /**
     * Converts the specified calendar with the specified {@code format} to a new instance of GregorianCalendar.
     * null is returned if the specified date is null or empty.
     * 
     * @param calendar
     * @param format
     * @param timeZone
     * @return
     */
    public static GregorianCalendar parseGregorianCalendar(final String calendar, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(calendar) || (calendar.length() == 4 && "null".equalsIgnoreCase(calendar))) {
            return null;
        }

        return createGregorianCalendar(parse(calendar, format, timeZone));
    }

    public static XMLGregorianCalendar parseXMLGregorianCalendar(final String calendar) {
        return parseXMLGregorianCalendar(calendar, null);
    }

    public static XMLGregorianCalendar parseXMLGregorianCalendar(final String calendar, final String format) {
        return parseXMLGregorianCalendar(calendar, format, null);
    }

    /**
     * Converts the specified calendar with the specified {@code format} to a new instance of XMLGregorianCalendar.
     * null is returned if the specified date is null or empty.
     * 
     * @param calendar
     * @param format
     * @param timeZone
     * @return
     */
    public static XMLGregorianCalendar parseXMLGregorianCalendar(final String calendar, final String format, final TimeZone timeZone) {
        if (N.isNullOrEmpty(calendar) || (calendar.length() == 4 && "null".equalsIgnoreCase(calendar))) {
            return null;
        }

        return createXMLGregorianCalendar(parse(calendar, format, timeZone));
    }

    private static long parse(final String date, String format, TimeZone timeZone) {
        if ((format == null) && date.length() > 4 && (date.charAt(2) >= '0' && date.charAt(2) <= '9' && date.charAt(4) >= '0' && date.charAt(4) <= '9')) {
            try {
                return Long.parseLong(date);
            } catch (NumberFormatException e) {
                // ignore.
            }
        }

        format = checkDateFormat(date, format);

        if (N.isNullOrEmpty(format)) {
            if (timeZone == null) {
                return ISO8601Util.parse(date).getTime();
            } else {
                throw new RuntimeException("Unsupported date format: " + format + " with time zone: " + timeZone);
            }
        }

        timeZone = checkTimeZone(format, timeZone);

        long timeInMillis = fastDateParse(date, format, timeZone);

        if (timeInMillis > 0) {
            return timeInMillis;
        }

        DateFormat sdf = getSDF(format, timeZone);

        try {
            return sdf.parse(date).getTime();
        } catch (ParseException e) {
            throw new IllegalArgumentException(e);
        } finally {
            recycleSDF(format, timeZone, sdf);
        }
    }

    public static String format(final java.util.Date date) {
        return format(date, null, null);
    }

    public static String format(final java.util.Date date, final String format) {
        return format(date, format, null);
    }

    public static String format(final java.util.Date date, final String format, final TimeZone timeZone) {
        return formatDate(null, date, format, timeZone);
    }

    public static void format(final Writer writer, final java.util.Date date) {
        format(writer, date, null, null);
    }

    public static void format(final Writer writer, final java.util.Date date, final String format) {
        formatDate(writer, date, format, null);
    }

    public static void format(final Writer writer, final java.util.Date date, final String format, final TimeZone timeZone) {
        formatDate(writer, date, format, timeZone);
    }

    public static String format(final Calendar c) {
        return format(c, null, null);
    }

    public static String format(final Calendar c, final String format) {
        return format(c, format, null);
    }

    public static String format(final Calendar c, final String format, final TimeZone timeZone) {
        if ((format == null) && (timeZone == null)) {
            final BufferedWriter cbuff = Objectory.createBufferedWriter();
            fastDateFormat(cbuff, c.getTimeInMillis(), false);

            String str = cbuff.toString();

            Objectory.recycle(cbuff);

            return str;
        }

        return format(createJUDate(c), format, timeZone);
    }

    public static void format(final Writer writer, final Calendar c) {
        format(writer, c, null, null);
    }

    public static void format(final Writer writer, final Calendar c, final String format) {
        format(writer, c, format, null);
    }

    public static void format(final Writer writer, final Calendar c, final String format, final TimeZone timeZone) {
        if ((format == null) && (timeZone == null)) {
            fastDateFormat(writer, c.getTimeInMillis(), false);
        } else {
            format(writer, createJUDate(c), format, timeZone);
        }
    }

    public static String format(final XMLGregorianCalendar c) {
        return format(c, null, null);
    }

    public static String format(final XMLGregorianCalendar c, final String format) {
        return format(c, format, null);
    }

    public static String format(final XMLGregorianCalendar c, final String format, final TimeZone timeZone) {
        if ((format == null) && (timeZone == null)) {
            final BufferedWriter cbuff = Objectory.createBufferedWriter();

            fastDateFormat(cbuff, c.toGregorianCalendar().getTimeInMillis(), false);

            String str = cbuff.toString();

            Objectory.recycle(cbuff);

            return str;
        }

        return format(createJUDate(c.toGregorianCalendar()), format, timeZone);
    }

    public static void format(final Writer writer, final XMLGregorianCalendar c) {
        format(writer, c, null, null);
    }

    public static void format(final Writer writer, final XMLGregorianCalendar c, final String format) {
        format(writer, c, format, null);
    }

    public static void format(final Writer writer, final XMLGregorianCalendar c, final String format, final TimeZone timeZone) {
        if ((format == null) && (timeZone == null)) {
            fastDateFormat(writer, c.toGregorianCalendar().getTimeInMillis(), false);
        } else {
            format(writer, createJUDate(c.toGregorianCalendar()), format, timeZone);
        }
    }

    //-----------------------------------------------------------------------
    /**
     * Copied from Apache Commons Lang under Apache License v2.
     * 
* * Sets the years field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setYears(final T date, final int amount) { return set(date, Calendar.YEAR, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the months field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setMonths(final T date, final int amount) { return set(date, Calendar.MONTH, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the day of month field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setDays(final T date, final int amount) { return set(date, Calendar.DAY_OF_MONTH, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the hours field to a date returning a new object. Hours range * from 0-23. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setHours(final T date, final int amount) { return set(date, Calendar.HOUR_OF_DAY, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the minute field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setMinutes(final T date, final int amount) { return set(date, Calendar.MINUTE, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the seconds field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setSeconds(final T date, final int amount) { return set(date, Calendar.SECOND, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the milliseconds field to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ public static T setMilliseconds(final T date, final int amount) { return set(date, Calendar.MILLISECOND, amount); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* * Sets the specified field to a date returning a new object. * This does not use a lenient calendar. * The original {@code Date} is unchanged. * * @param date the date, not null * @param calendarField the {@code Calendar} field to set the amount to * @param amount the amount to set * @return a new {@code Date} set with the specified value * @throws IllegalArgumentException if the date is null * @since 2.4 */ private static T set(final T date, final int calendarField, final int amount) { N.checkArgNotNull(date, "date"); // getInstance() returns a new object, so this method is thread safe. final Calendar c = Calendar.getInstance(); c.setLenient(false); c.setTime(date); c.set(calendarField, amount); return createDate(date.getClass(), c.getTimeInMillis()); } /** * Adds or subtracts the specified amount of time to the given time unit, * based on the calendar's rules. For example, to subtract 5 days from the * current time of the calendar, you can achieve it by calling: *

* N.roll(date, -5, TimeUnit.DAYS). * * @param date * @param amount * @param unit * @return a new instance of Date with the specified amount rolled. * @deprecated replaced by {@code addYears/addMonths/addWeeks/...} */ @Deprecated public static T roll(final T date, final long amount, final TimeUnit unit) { N.checkArgNotNull(date, "date"); return createDate(date.getClass(), date.getTime() + unit.toMillis(amount)); } /** * Adds or subtracts the specified amount of time to the given calendar * unit, based on the calendar's rules. For example, to subtract 5 days from * the current time of the calendar, you can achieve it by calling: *

* N.roll(date, -5, CalendarUnit.DAY). * * @param date * @param amount * @param unit * @return a new instance of Date with the specified amount rolled. * @deprecated replaced by {@code addYears/addMonths/addWeeks/...} */ @Deprecated public static T roll(final T date, final long amount, final CalendarUnit unit) { N.checkArgNotNull(date, "date"); if (amount > Integer.MAX_VALUE || amount < Integer.MIN_VALUE) { throw new IllegalArgumentException("The amount :" + amount + " is too big for unit: " + unit); } switch (unit) { case MONTH: case YEAR: final Calendar c = createCalendar(date); c.add(unit.intValue(), (int) amount); return createDate(date.getClass(), c.getTimeInMillis()); default: return createDate(date.getClass(), date.getTime() + unit.toMillis(amount)); } } /** * Adds or subtracts the specified amount of time to the given time unit, * based on the calendar's rules. For example, to subtract 5 days from the * current time of the calendar, you can achieve it by calling: *

* N.roll(c, -5, TimeUnit.DAYS). * * @param calendar * @param amount * @param unit * @return a new instance of Calendar with the specified amount rolled. * @deprecated replaced by {@code addYears/addMonths/addWeeks/...} */ @Deprecated public static T roll(final T calendar, final long amount, final TimeUnit unit) { N.checkArgNotNull(calendar, "calendar"); return createCalendar(calendar, calendar.getTimeInMillis() + unit.toMillis(amount)); } /** * Adds or subtracts the specified amount of time to the given calendar * unit, based on the calendar's rules. For example, to subtract 5 days from * the current time of the calendar, you can achieve it by calling: *

* N.roll(c, -5, CalendarUnit.DAY). * * @param calendar * @param amount * @param unit * @return a new instance of Calendar with the specified amount rolled. * @deprecated replaced by {@code addYears/addMonths/addWeeks/...} */ @Deprecated public static T roll(final T calendar, final long amount, final CalendarUnit unit) { N.checkArgNotNull(calendar, "calendar"); if (amount > Integer.MAX_VALUE || amount < Integer.MIN_VALUE) { throw new IllegalArgumentException("The amount :" + amount + " is too big for unit: " + unit); } final T result = createCalendar(calendar, calendar.getTimeInMillis()); result.add(unit.intValue(), (int) amount); return result; } //----------------------------------------------------------------------- //----------------------------------------------------------------------- /** * Adds a number of years to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addYears(final T date, final int amount) { return roll(date, amount, CalendarUnit.YEAR); } //----------------------------------------------------------------------- /** * Adds a number of months to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addMonths(final T date, final int amount) { return roll(date, amount, CalendarUnit.MONTH); } //----------------------------------------------------------------------- /** * Adds a number of weeks to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addWeeks(final T date, final int amount) { return roll(date, amount, CalendarUnit.WEEK); } //----------------------------------------------------------------------- /** * Adds a number of days to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addDays(final T date, final int amount) { return roll(date, amount, CalendarUnit.DAY); } //----------------------------------------------------------------------- /** * Adds a number of hours to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addHours(final T date, final int amount) { return roll(date, amount, CalendarUnit.HOUR); } //----------------------------------------------------------------------- /** * Adds a number of minutes to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addMinutes(final T date, final int amount) { return roll(date, amount, CalendarUnit.MINUTE); } //----------------------------------------------------------------------- /** * Adds a number of seconds to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addSeconds(final T date, final int amount) { return roll(date, amount, CalendarUnit.SECOND); } //----------------------------------------------------------------------- /** * Adds a number of milliseconds to a date returning a new object. * The original {@code Date} is unchanged. * * @param date the date, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the date is null */ public static T addMilliseconds(final T date, final int amount) { return roll(date, amount, CalendarUnit.MILLISECOND); } //----------------------------------------------------------------------- /** * Adds a number of years to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addYears(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.YEAR); } //----------------------------------------------------------------------- /** * Adds a number of months to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addMonths(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.MONTH); } //----------------------------------------------------------------------- /** * Adds a number of weeks to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addWeeks(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.WEEK); } //----------------------------------------------------------------------- /** * Adds a number of days to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addDays(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.DAY); } //----------------------------------------------------------------------- /** * Adds a number of hours to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addHours(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.HOUR); } //----------------------------------------------------------------------- /** * Adds a number of minutes to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addMinutes(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.MINUTE); } //----------------------------------------------------------------------- /** * Adds a number of seconds to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addSeconds(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.SECOND); } //----------------------------------------------------------------------- /** * Adds a number of milliseconds to a calendar returning a new object. * The original {@code Date} is unchanged. * * @param calendar the calendar, not null * @param amount the amount to add, may be negative * @return the new {@code Date} with the amount added * @throws IllegalArgumentException if the calendar is null */ public static T addMilliseconds(final T calendar, final int amount) { return roll(calendar, amount, CalendarUnit.MILLISECOND); } /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Rounds a date, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if this was passed with HOUR, it would return * 28 Mar 2002 14:00:00.000. If this was passed with MONTH, it * would return 1 April 2002 0:00:00.000.

* *

For a date in a timezone that handles the change to daylight * saving time, rounding to Calendar.HOUR_OF_DAY will behave as follows. * Suppose daylight saving time begins at 02:00 on March 30. Rounding a * date that crosses this time would produce the following values: *

*
    *
  • March 30, 2003 01:10 rounds to March 30, 2003 01:00
  • *
  • March 30, 2003 01:40 rounds to March 30, 2003 03:00
  • *
  • March 30, 2003 02:10 rounds to March 30, 2003 03:00
  • *
  • March 30, 2003 02:40 rounds to March 30, 2003 04:00
  • *
* * @param date the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different rounded date, not null * @throws ArithmeticException if the year is over 280 million */ public static T round(final T date, final int field) { N.checkArgNotNull(date, "date"); final Calendar gval = Calendar.getInstance(); gval.setTime(date); modify(gval, field, ModifyType.ROUND); return createDate(date.getClass(), gval.getTimeInMillis()); } /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Rounds a date, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if this was passed with HOUR, it would return * 28 Mar 2002 14:00:00.000. If this was passed with MONTH, it * would return 1 April 2002 0:00:00.000.

* *

For a date in a timezone that handles the change to daylight * saving time, rounding to Calendar.HOUR_OF_DAY will behave as follows. * Suppose daylight saving time begins at 02:00 on March 30. Rounding a * date that crosses this time would produce the following values: *

*
    *
  • March 30, 2003 01:10 rounds to March 30, 2003 01:00
  • *
  • March 30, 2003 01:40 rounds to March 30, 2003 03:00
  • *
  • March 30, 2003 02:10 rounds to March 30, 2003 03:00
  • *
  • March 30, 2003 02:40 rounds to March 30, 2003 04:00
  • *
* * @param calendar the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different rounded date, not null * @throws IllegalArgumentException if the date is null * @throws ArithmeticException if the year is over 280 million */ public static T round(final T calendar, final int field) { N.checkArgNotNull(calendar, "calendar"); final Calendar rounded = (Calendar) calendar.clone(); modify(rounded, field, ModifyType.ROUND); if (rounded.getClass().equals(calendar.getClass())) { return (T) rounded; } return createCalendar(calendar, rounded.getTimeInMillis()); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Truncates a date, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if you passed with HOUR, it would return 28 Mar * 2002 13:00:00.000. If this was passed with MONTH, it would * return 1 Mar 2002 0:00:00.000.

* * @param date the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different truncated date, not null * @throws IllegalArgumentException if the date is null * @throws ArithmeticException if the year is over 280 million */ public static T truncate(final T date, final int field) { N.checkArgNotNull(date, "date"); final Calendar gval = Calendar.getInstance(); gval.setTime(date); modify(gval, field, ModifyType.TRUNCATE); return createDate(date.getClass(), gval.getTimeInMillis()); } /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Truncates a date, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if you passed with HOUR, it would return 28 Mar * 2002 13:00:00.000. If this was passed with MONTH, it would * return 1 Mar 2002 0:00:00.000.

* * @param calendar the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different truncated date, not null * @throws IllegalArgumentException if the date is null * @throws ArithmeticException if the year is over 280 million */ public static T truncate(final T calendar, final int field) { N.checkArgNotNull(calendar, "calendar"); final Calendar truncated = (Calendar) calendar.clone(); modify(truncated, field, ModifyType.TRUNCATE); if (truncated.getClass().equals(calendar.getClass())) { return (T) truncated; } return createCalendar(calendar, truncated.getTimeInMillis()); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Gets a date ceiling, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if you passed with HOUR, it would return 28 Mar * 2002 14:00:00.000. If this was passed with MONTH, it would * return 1 Apr 2002 0:00:00.000.

* * @param date the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different ceil date, not null * @throws IllegalArgumentException if the date is null * @throws ArithmeticException if the year is over 280 million * @since 2.5 */ public static T ceiling(final T date, final int field) { N.checkArgNotNull(date, "date"); final Calendar gval = Calendar.getInstance(); gval.setTime(date); modify(gval, field, ModifyType.CEILING); return createDate(date.getClass(), gval.getTimeInMillis()); } /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Gets a date ceiling, leaving the field specified as the most * significant field.

* *

For example, if you had the date-time of 28 Mar 2002 * 13:45:01.231, if you passed with HOUR, it would return 28 Mar * 2002 14:00:00.000. If this was passed with MONTH, it would * return 1 Apr 2002 0:00:00.000.

* * @param calendar the date to work with, not null * @param field the field from {@code Calendar} or SEMI_MONTH * @return the different ceil date, not null * @throws IllegalArgumentException if the date is null * @throws ArithmeticException if the year is over 280 million * @since 2.5 */ public static T ceiling(final T calendar, final int field) { N.checkArgNotNull(calendar, "calendar"); final Calendar ceiled = (Calendar) calendar.clone(); modify(ceiled, field, ModifyType.CEILING); if (ceiled.getClass().equals(calendar.getClass())) { return (T) ceiled; } return createCalendar(calendar, ceiled.getTimeInMillis()); } //----------------------------------------------------------------------- /** * Copied from Apache Commons Lang under Apache License v2. *
* *

Internal calculation method.

* * @param val the calendar, not null * @param unit the field constant * @param modType type to truncate, round or ceiling * @throws ArithmeticException if the year is over 280 million */ private static void modify(final Calendar val, final int field, final ModifyType modType) { if (val.get(Calendar.YEAR) > 280000000) { throw new ArithmeticException("Calendar value too large for accurate calculations"); } if (field == Calendar.MILLISECOND) { return; } // ----------------- Fix for LANG-59 ---------------------- START --------------- // see http://issues.apache.org/jira/browse/LANG-59 // // Manually truncate milliseconds, seconds and minutes, rather than using // Calendar methods. final java.util.Date date = val.getTime(); long time = date.getTime(); boolean done = false; // truncate milliseconds final int millisecs = val.get(Calendar.MILLISECOND); if (ModifyType.TRUNCATE == modType || millisecs < 500) { time = time - millisecs; } if (field == Calendar.SECOND) { done = true; } // truncate seconds final int seconds = val.get(Calendar.SECOND); if (!done && (ModifyType.TRUNCATE == modType || seconds < 30)) { time = time - (seconds * 1000L); } if (field == Calendar.MINUTE) { done = true; } // truncate minutes final int minutes = val.get(Calendar.MINUTE); if (!done && (ModifyType.TRUNCATE == modType || minutes < 30)) { time = time - (minutes * 60000L); } // reset time if (date.getTime() != time) { date.setTime(time); val.setTime(date); } // ----------------- Fix for LANG-59 ----------------------- END ---------------- boolean roundUp = false; for (final int[] aField : fields) { for (final int element : aField) { if (element == field) { //This is our field... we stop looping if (modType == ModifyType.CEILING || modType == ModifyType.ROUND && roundUp) { if (field == SEMI_MONTH) { //This is a special case that's hard to generalize //If the date is 1, we round up to 16, otherwise // we subtract 15 days and add 1 month if (val.get(Calendar.DATE) == 1) { val.add(Calendar.DATE, 15); } else { val.add(Calendar.DATE, -15); val.add(Calendar.MONTH, 1); } // ----------------- Fix for LANG-440 ---------------------- START --------------- } else if (field == Calendar.AM_PM) { // This is a special case // If the time is 0, we round up to 12, otherwise // we subtract 12 hours and add 1 day if (val.get(Calendar.HOUR_OF_DAY) == 0) { val.add(Calendar.HOUR_OF_DAY, 12); } else { val.add(Calendar.HOUR_OF_DAY, -12); val.add(Calendar.DATE, 1); } // ----------------- Fix for LANG-440 ---------------------- END --------------- } else { //We need at add one to this field since the // last number causes us to round up val.add(aField[0], 1); } } return; } } //We have various fields that are not easy roundings int offset = 0; boolean offsetSet = false; //These are special types of fields that require different rounding rules switch (field) { case SEMI_MONTH: if (aField[0] == Calendar.DATE) { //If we're going to drop the DATE field's value, // we want to do this our own way. //We need to subtrace 1 since the date has a minimum of 1 offset = val.get(Calendar.DATE) - 1; //If we're above 15 days adjustment, that means we're in the // bottom half of the month and should stay accordingly. if (offset >= 15) { offset -= 15; } //Record whether we're in the top or bottom half of that range roundUp = offset > 7; offsetSet = true; } break; case Calendar.AM_PM: if (aField[0] == Calendar.HOUR_OF_DAY) { //If we're going to drop the HOUR field's value, // we want to do this our own way. offset = val.get(Calendar.HOUR_OF_DAY); if (offset >= 12) { offset -= 12; } roundUp = offset >= 6; offsetSet = true; } break; default: break; } if (!offsetSet) { final int min = val.getActualMinimum(aField[0]); final int max = val.getActualMaximum(aField[0]); //Calculate the offset from the minimum allowed value offset = val.get(aField[0]) - min; //Set roundUp if this is more than half way between the minimum and maximum roundUp = offset > ((max - min) / 2); } //We need to remove this field if (offset != 0) { val.set(aField[0], val.get(aField[0]) - offset); } } throw new IllegalArgumentException("The field " + field + " is not supported"); } /** * Copied from Apache Commons Lang under Apache License v2. *
* * Determines if two calendars are equal up to no more than the specified * most significant field. * * @param cal1 the first calendar, not null * @param cal2 the second calendar, not null * @param field the field from {@code Calendar} * @return true if equal; otherwise false * @throws IllegalArgumentException if any argument is null * @see #truncate(Calendar, int) * @see #truncatedEquals(Date, Date, int) * @since 3.0 */ public static boolean truncatedEquals(final Calendar cal1, final Calendar cal2, final int field) { return truncatedCompareTo(cal1, cal2, field) == 0; } /** * Copied from Apache Commons Lang under Apache License v2. *
* * Determines if two dates are equal up to no more than the specified * most significant field. * * @param date1 the first date, not null * @param date2 the second date, not null * @param field the field from {@code Calendar} * @return true if equal; otherwise false * @throws IllegalArgumentException if any argument is null * @see #truncate(Date, int) * @see #truncatedEquals(Calendar, Calendar, int) * @since 3.0 */ public static boolean truncatedEquals(final java.util.Date date1, final java.util.Date date2, final int field) { return truncatedCompareTo(date1, date2, field) == 0; } /** * Copied from Apache Commons Lang under Apache License v2. *
* * Determines how two calendars compare up to no more than the specified * most significant field. * * @param cal1 the first calendar, not null * @param cal2 the second calendar, not null * @param field the field from {@code Calendar} * @return a negative integer, zero, or a positive integer as the first * calendar is less than, equal to, or greater than the second. * @throws IllegalArgumentException if any argument is null * @see #truncate(Calendar, int) * @see #truncatedCompareTo(Date, Date, int) * @since 3.0 */ public static int truncatedCompareTo(final Calendar cal1, final Calendar cal2, final int field) { return truncate(cal1, field).compareTo(truncate(cal2, field)); } /** * Copied from Apache Commons Lang under Apache License v2. *
* * Determines how two dates compare up to no more than the specified * most significant field. * * @param date1 the first date, not null * @param date2 the second date, not null * @param field the field from Calendar * @return a negative integer, zero, or a positive integer as the first * date is less than, equal to, or greater than the second. * @throws IllegalArgumentException if any argument is null * @see #truncate(Calendar, int) * @see #truncatedCompareTo(Date, Date, int) * @since 3.0 */ public static int truncatedCompareTo(final java.util.Date date1, final java.util.Date date2, final int field) { return truncate(date1, field).compareTo(truncate(date2, field)); } private static DateFormat getSDF(final String format, final TimeZone timeZone) { DateFormat sdf = null; if (timeZone == UTC_TIME_ZONE) { if ((format.length() == 28) && (format == ISO_8601_TIMESTAMP_FORMAT)) { sdf = utcTimestampDFPool.poll(); if (sdf == null) { sdf = new SimpleDateFormat(format); sdf.setTimeZone(timeZone); } return sdf; } else if ((format.length() == 24) && (format == ISO_8601_DATETIME_FORMAT)) { sdf = utcDateTimeDFPool.poll(); if (sdf == null) { sdf = new SimpleDateFormat(format); sdf.setTimeZone(timeZone); } return sdf; } } Queue queue = dfPool.get(format); if (queue == null) { queue = new ArrayBlockingQueue<>(Internals.POOL_SIZE); dfPool.put(format, queue); } sdf = queue.poll(); if (sdf == null) { sdf = new SimpleDateFormat(format); } sdf.setTimeZone(timeZone); return sdf; } private static void recycleSDF(final String format, final TimeZone timeZone, final DateFormat sdf) { if (timeZone == UTC_TIME_ZONE) { if ((format.length() == 28) && (format == ISO_8601_TIMESTAMP_FORMAT)) { utcTimestampDFPool.add(sdf); } else if ((format.length() == 24) && (format == ISO_8601_DATETIME_FORMAT)) { utcDateTimeDFPool.add(sdf); } else { dfPool.get(format).add(sdf); } } else { dfPool.get(format).add(sdf); } } private static String checkDateFormat(final String str, final String format) { if (N.isNullOrEmpty(format)) { int len = str.length(); switch (len) { case 4: return LOCAL_YEAR_FORMAT; case 5: if (str.charAt(2) == '/') { return LOCAL_MONTH_DAY_FORMAT_SLASH; } else { return LOCAL_MONTH_DAY_FORMAT; } case 8: return LOCAL_TIME_FORMAT; case 10: if (str.charAt(4) == '/') { return LOCAL_DATE_FORMAT_SLASH; } else { return LOCAL_DATE_FORMAT; } case 19: if (str.charAt(4) == '/') { return LOCAL_DATETIME_FORMAT_SLASH; } else { return LOCAL_DATETIME_FORMAT; } case 23: if (str.charAt(4) == '/') { return LOCAL_TIMESTAMP_FORMAT_SLASH; } else { return LOCAL_TIMESTAMP_FORMAT; } case 24: if (str.charAt(4) == '/') { return ISO_8601_DATETIME_FORMAT_SLASH; } else { return ISO_8601_DATETIME_FORMAT; } case 28: if (str.charAt(4) == '/') { return ISO_8601_TIMESTAMP_FORMAT_SLASH; } else { return ISO_8601_TIMESTAMP_FORMAT; } case 29: if (str.charAt(3) == ',') { return RFC1123_DATE_FORMAT; } default: // throw new AbacusException("No valid date format found for: " + str); return null; } } return format; } private static TimeZone checkTimeZone(final String format, TimeZone timeZone) { if (timeZone == null) { timeZone = format.endsWith("'Z'") ? UTC_TIME_ZONE : LOCAL_TIME_ZONE; } return timeZone; } private static long fastDateParse(final String str, final String format, final TimeZone timeZone) { if (!((str.length() == 24) || (str.length() == 20) || (str.length() == 19) || (str.length() == 23))) { return 0; } if (!(format.equals(ISO_8601_TIMESTAMP_FORMAT) || format.equals(ISO_8601_DATETIME_FORMAT) || format.equals(LOCAL_DATETIME_FORMAT) || format.equals(LOCAL_TIMESTAMP_FORMAT))) { return 0; } // // if (!((str.charAt(4) == '-') && (str.charAt(7) == '-') && // (str.charAt(10) == 'T') && (str.charAt(13) == ':') && (str.charAt(16) // == ':') && (str // .charAt(str.length() - 1) == 'Z'))) { // return 0; // } // // int year = Integer.valueOf(str.substring(0, 4)); // int month = Integer.valueOf(str.substring(5, 7)) - 1; // int date = Integer.valueOf(str.substring(8, 10)); // int hourOfDay = Integer.valueOf(str.substring(11, 13)); // int minute = Integer.valueOf(str.substring(14, 16)); // int second = Integer.valueOf(str.substring(17, 19)); // int milliSecond = (str.length() == 24) ? // Integer.valueOf(str.substring(20, 23)) : 0; // // int year = parseInt(str, 0, 4); int month = parseInt(str, 5, 7) - 1; int date = parseInt(str, 8, 10); int hourOfDay = parseInt(str, 11, 13); int minute = parseInt(str, 14, 16); int second = parseInt(str, 17, 19); int milliSecond = ((str.length() == 24) || (str.length() == 23)) ? parseInt(str, 20, 23) : 0; Calendar c = null; Queue timeZoneCalendarQueue = null; if (timeZone == UTC_TIME_ZONE) { c = utcCalendarPool.poll(); } else { timeZoneCalendarQueue = calendarPool.get(timeZone); if (timeZoneCalendarQueue == null) { timeZoneCalendarQueue = new ArrayBlockingQueue<>(Internals.POOL_SIZE); calendarPool.put(timeZone, timeZoneCalendarQueue); } else { c = timeZoneCalendarQueue.poll(); } } if (c == null) { c = Calendar.getInstance(timeZone); } c.set(year, month, date, hourOfDay, minute, second); c.set(Calendar.MILLISECOND, milliSecond); long timeInMillis = c.getTimeInMillis(); if (timeZone == UTC_TIME_ZONE) { utcCalendarPool.add(c); } else { timeZoneCalendarQueue.add(c); } return timeInMillis; } private static int parseInt(final String str, int from, final int to) { int result = 0; while (from < to) { result = (result * 10) + (str.charAt(from++) - 48); } return result; } private static T createDate(final Class cls, final long millis) { java.util.Date result = null; if (cls.equals(java.util.Date.class)) { result = new java.util.Date(millis); } else if (cls.equals(java.sql.Date.class)) { result = new java.sql.Date(millis); } else if (cls.equals(Time.class)) { result = new Time(millis); } else if (cls.equals(Timestamp.class)) { result = new Timestamp(millis); } else { result = ClassUtil.invokeConstructor(ClassUtil.getDeclaredConstructor(cls, long.class), millis); } return (T) result; } private static T createCalendar(final T c, final long millis) { final Class cls = (Class) c.getClass(); Calendar result = null; if (cls.equals(Calendar.class)) { result = Calendar.getInstance(); } else if (cls.equals(GregorianCalendar.class)) { result = GregorianCalendar.getInstance(); } else { result = ClassUtil.invokeConstructor(ClassUtil.getDeclaredConstructor(cls, long.class), millis); } result.setTimeInMillis(millis); if (!N.equals(c.getTimeZone(), result.getTimeZone())) { result.setTimeZone(c.getTimeZone()); } return (T) result; } private static String formatDate(final Writer writer, final java.util.Date date, String format, TimeZone timeZone) { boolean isTimestamp = date instanceof Timestamp; if ((format == null) && (timeZone == null)) { if (writer == null) { final BufferedWriter bw = Objectory.createBufferedWriter(); fastDateFormat(bw, date.getTime(), isTimestamp); String str = bw.toString(); Objectory.recycle(bw); return str; } else { fastDateFormat(writer, date.getTime(), isTimestamp); return null; } } if (format == null) { format = isTimestamp ? ISO_8601_TIMESTAMP_FORMAT : ISO_8601_DATETIME_FORMAT; } timeZone = checkTimeZone(format, timeZone); DateFormat sdf = getSDF(format, timeZone); String str = sdf.format(date); if (writer != null) { try { writer.write(str); } catch (IOException e) { throw new UncheckedIOException(e); } } recycleSDF(format, timeZone, sdf); return str; } private static void fastDateFormat(final Writer writer, final long timeInMillis, final boolean isTimestamp) { Calendar c = utcCalendarPool.poll(); if (c == null) { c = Calendar.getInstance(UTC_TIME_ZONE); } c.setTimeInMillis(timeInMillis); int year = c.get(Calendar.YEAR); int month = c.get(Calendar.MONTH) + 1; int day = c.get(Calendar.DAY_OF_MONTH); int hour = c.get(Calendar.HOUR_OF_DAY); int minute = c.get(Calendar.MINUTE); int second = c.get(Calendar.SECOND); char[] utcTimestamp = utcTimestampFormatCharsPool.poll(); if (utcTimestamp == null) { utcTimestamp = new char[24]; utcTimestamp[4] = '-'; utcTimestamp[7] = '-'; utcTimestamp[10] = 'T'; utcTimestamp[13] = ':'; utcTimestamp[16] = ':'; utcTimestamp[19] = '.'; utcTimestamp[23] = 'Z'; } // // copy(cbufOfSTDInt[4][year], 0, utcTimestamp, 0, 4); // copy(cbufOfSTDInt[2][month], 0, utcTimestamp, 5, 2); // copy(cbufOfSTDInt[2][day], 0, utcTimestamp, 8, 2); // copy(cbufOfSTDInt[2][hour], 0, utcTimestamp, 11, 2); // copy(cbufOfSTDInt[2][minute], 0, utcTimestamp, 14, 2); // copy(cbufOfSTDInt[2][second], 0, utcTimestamp, 17, 2); // utcTimestamp[0] = cbufOfSTDInt[4][year][0]; utcTimestamp[1] = cbufOfSTDInt[4][year][1]; utcTimestamp[2] = cbufOfSTDInt[4][year][2]; utcTimestamp[3] = cbufOfSTDInt[4][year][3]; utcTimestamp[5] = cbufOfSTDInt[2][month][0]; utcTimestamp[6] = cbufOfSTDInt[2][month][1]; utcTimestamp[8] = cbufOfSTDInt[2][day][0]; utcTimestamp[9] = cbufOfSTDInt[2][day][1]; utcTimestamp[11] = cbufOfSTDInt[2][hour][0]; utcTimestamp[12] = cbufOfSTDInt[2][hour][1]; utcTimestamp[14] = cbufOfSTDInt[2][minute][0]; utcTimestamp[15] = cbufOfSTDInt[2][minute][1]; utcTimestamp[17] = cbufOfSTDInt[2][second][0]; utcTimestamp[18] = cbufOfSTDInt[2][second][1]; if (isTimestamp) { utcTimestamp[19] = '.'; int milliSecond = c.get(Calendar.MILLISECOND); // copy(cbufOfSTDInt[3][milliSecond], 0, utcTimestamp, // 20, 3); utcTimestamp[20] = cbufOfSTDInt[3][milliSecond][0]; utcTimestamp[21] = cbufOfSTDInt[3][milliSecond][1]; utcTimestamp[22] = cbufOfSTDInt[3][milliSecond][2]; } else { utcTimestamp[19] = 'Z'; } try { if (isTimestamp) { writer.write(utcTimestamp); } else { writer.write(utcTimestamp, 0, 20); } } catch (IOException e) { throw new UncheckedIOException(e); } finally { utcCalendarPool.add(c); utcTimestampFormatCharsPool.add(utcTimestamp); } } /** * Calendar modification types. */ private static enum ModifyType { /** * Truncation. */ TRUNCATE, /** * Rounding. */ ROUND, /** * Ceiling. */ CEILING } public static class DateTimeUtil extends DateUtil { private DateTimeUtil() { // singleton. } } }




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