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A fork of iCal4j with customizations for Bedework.
The newest version!
/**
* Copyright (c) 2010, Ben Fortuna
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* o Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
*
* o Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* o Neither the name of Ben Fortuna nor the names of any other contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package net.fortuna.ical4j.model;
import java.text.DateFormat;
import java.text.ParseException;
import java.text.SimpleDateFormat;
import net.fortuna.ical4j.util.CompatibilityHints;
import net.fortuna.ical4j.util.Dates;
import net.fortuna.ical4j.util.TimeZones;
import org.apache.commons.lang.builder.EqualsBuilder;
import org.apache.commons.lang.builder.HashCodeBuilder;
/**
* $Id: DateTime.java,v 1.36 2010/03/20 09:17:37 fortuna Exp $
*
* Created on 26/06/2005
*
* Represents a time of day on a specific date.
*
*
* 4.3.5 Date-Time
*
* Value Name: DATE-TIME
*
* Purpose: This value type is used to identify values that specify a
* precise calendar date and time of day.
*
* Formal Definition: The value type is defined by the following
* notation:
*
* date-time = date "T" time ;As specified in the date and time
* ;value definitions
*
* Description: If the property permits, multiple "date-time" values are
* specified as a COMMA character (US-ASCII decimal 44) separated list
* of values. No additional content value encoding (i.e., BACKSLASH
* character encoding) is defined for this value type.
*
* The "DATE-TIME" data type is used to identify values that contain a
* precise calendar date and time of day. The format is based on the
* [ISO 8601] complete representation, basic format for a calendar date
* and time of day. The text format is a concatenation of the "date",
* followed by the LATIN CAPITAL LETTER T character (US-ASCII decimal
* 84) time designator, followed by the "time" format.
*
* The "DATE-TIME" data type expresses time values in three forms:
*
* The form of date and time with UTC offset MUST NOT be used. For
* example, the following is not valid for a date-time value:
*
* DTSTART:19980119T230000-0800 ;Invalid time format
*
* FORM #1: DATE WITH LOCAL TIME
*
* The date with local time form is simply a date-time value that does
* not contain the UTC designator nor does it reference a time zone. For
* example, the following represents Janurary 18, 1998, at 11 PM:
*
* DTSTART:19980118T230000
*
* Date-time values of this type are said to be "floating" and are not
* bound to any time zone in particular. They are used to represent the
* same hour, minute, and second value regardless of which time zone is
* currently being observed. For example, an event can be defined that
* indicates that an individual will be busy from 11:00 AM to 1:00 PM
* every day, no matter which time zone the person is in. In these
* cases, a local time can be specified. The recipient of an iCalendar
* object with a property value consisting of a local time, without any
* relative time zone information, SHOULD interpret the value as being
* fixed to whatever time zone the ATTENDEE is in at any given moment.
* This means that two ATTENDEEs, in different time zones, receiving the
* same event definition as a floating time, may be participating in the
* event at different actual times. Floating time SHOULD only be used
* where that is the reasonable behavior.
*
* In most cases, a fixed time is desired. To properly communicate a
* fixed time in a property value, either UTC time or local time with
* time zone reference MUST be specified.
*
* The use of local time in a DATE-TIME value without the TZID property
* parameter is to be interpreted as floating time, regardless of the
* existence of "VTIMEZONE" calendar components in the iCalendar object.
*
* FORM #2: DATE WITH UTC TIME
*
* The date with UTC time, or absolute time, is identified by a LATIN
* CAPITAL LETTER Z suffix character (US-ASCII decimal 90), the UTC
* designator, appended to the time value. For example, the following
* represents January 19, 1998, at 0700 UTC:
*
* DTSTART:19980119T070000Z
*
* The TZID property parameter MUST NOT be applied to DATE-TIME
* properties whose time values are specified in UTC.
*
* FORM #3: DATE WITH LOCAL TIME AND TIME ZONE REFERENCE
*
* The date and local time with reference to time zone information is
* identified by the use the TZID property parameter to reference the
* appropriate time zone definition. TZID is discussed in detail in the
* section on Time Zone. For example, the following represents 2 AM in
* New York on Janurary 19, 1998:
*
* DTSTART;TZID=US-Eastern:19980119T020000
*
* Example: The following represents July 14, 1997, at 1:30 PM in New
* York City in each of the three time formats, using the "DTSTART"
* property.
*
* DTSTART:19970714T133000 ;Local time
* DTSTART:19970714T173000Z ;UTC time
* DTSTART;TZID=US-Eastern:19970714T133000 ;Local time and time
* ; zone reference
*
* A time value MUST ONLY specify 60 seconds when specifying the
* periodic "leap second" in the time value. For example:
*
* COMPLETED:19970630T235960Z
*
*
* @author Ben Fortuna
*/
public class DateTime extends Date {
private static final long serialVersionUID = -6407231357919440387L;
private static final String DEFAULT_PATTERN = "yyyyMMdd'T'HHmmss";
private static final String UTC_PATTERN = "yyyyMMdd'T'HHmmss'Z'";
private static final String RELAXED_PATTERN = "yyyyMMdd";
/**
* Used for parsing times in a UTC date-time representation.
*/
private static final ThreadLocal UTC_FORMAT =
new ThreadLocal () {
protected Object initialValue() {
final DateFormat format = new SimpleDateFormat(UTC_PATTERN);
format.setTimeZone(TimeZone.getTimeZone(TimeZones.UTC_ID));
format.setLenient(false);
return (Object)format;
}
};
/**
* Used for parsing times in a local date-time representation.
*/
private static final ThreadLocal DEFAULT_FORMAT =
new ThreadLocal () {
protected Object initialValue() {
final DateFormat format = new SimpleDateFormat(DEFAULT_PATTERN);
format.setLenient(false);
return format;
}
};
private static final ThreadLocal LENIENT_DEFAULT_FORMAT =
new ThreadLocal () {
protected Object initialValue() {
return new SimpleDateFormat(DEFAULT_PATTERN);
}
};
private static final ThreadLocal RELAXED_FORMAT =
new ThreadLocal () {
protected Object initialValue() {
return new SimpleDateFormat(RELAXED_PATTERN);
}
};
private Time time;
private TimeZone timezone;
/**
* Default constructor.
*/
public DateTime() {
super(Dates.PRECISION_SECOND, java.util.TimeZone.getDefault());
this.time = new Time(getTime(), getFormat().getTimeZone());
}
/**
* @param utc indicates if the date is in UTC time
*/
public DateTime(final boolean utc) {
this();
setUtc(utc);
}
/**
* @param time a date-time value in milliseconds
*/
public DateTime(final long time) {
super(time, Dates.PRECISION_SECOND, java.util.TimeZone.getDefault());
this.time = new Time(time, getFormat().getTimeZone());
}
/**
* @param date a date-time value
*/
public DateTime(final java.util.Date date) {
super(date.getTime(), Dates.PRECISION_SECOND, java.util.TimeZone.getDefault());
this.time = new Time(date.getTime(), getFormat().getTimeZone());
// copy timezone information if applicable..
if (date instanceof DateTime) {
final DateTime dateTime = (DateTime) date;
if (dateTime.isUtc()) {
setUtc(true);
}
else {
setTimeZone(dateTime.getTimeZone());
}
}
}
/**
* Constructs a new DateTime instance from parsing the specified string representation in the default (local)
* timezone.
* @param value a string representation of a date-time
* @throws ParseException where the specified string is not a valid date-time
*/
public DateTime(final String value) throws ParseException {
this(value, null);
/*
* long time = 0; try { synchronized (UTC_FORMAT) { time = UTC_FORMAT.parse(value).getTime(); } setUtc(true); }
* catch (ParseException pe) { synchronized (DEFAULT_FORMAT) {
* DEFAULT_FORMAT.setTimeZone(getFormat().getTimeZone()); time = DEFAULT_FORMAT.parse(value).getTime(); }
* this.time = new Time(time, getFormat().getTimeZone()); } setTime(time);
*/
}
/**
* Creates a new date-time instance from the specified value in the given timezone. If a timezone is not specified,
* the default timezone (as returned by {@link java.util.TimeZone#getDefault()}) is used.
* @param value a string representation of a date-time
* @param timezone the timezone for the date-time instance
* @throws ParseException where the specified string is not a valid date-time
*/
public DateTime(final String value, final TimeZone timezone)
throws ParseException {
// this();
super(Dates.PRECISION_SECOND, timezone != null ? timezone : java.util.TimeZone.getDefault());
this.time = new Time(getTime(), getFormat().getTimeZone());
try {
setTime(value, (DateFormat)UTC_FORMAT.get(), null);
setUtc(true);
}
catch (ParseException pe) {
try {
if (timezone != null) {
setTime(value, (DateFormat)DEFAULT_FORMAT.get(), timezone);
}
else {
// Use lenient parsing for floating times. This is to overcome
// the problem of parsing VTimeZone dates that specify dates
// that the strict parser does not accept.
setTime(value, (DateFormat)LENIENT_DEFAULT_FORMAT.get(), getFormat()
.getTimeZone());
}
}
catch (ParseException pe2) {
if (CompatibilityHints
.isHintEnabled(CompatibilityHints.KEY_RELAXED_PARSING)) {
setTime(value, (DateFormat)RELAXED_FORMAT.get(), timezone);
}
else {
throw pe2;
}
}
setTimeZone(timezone);
}
}
/**
* @param value a string representation of a date-time
* @param pattern a pattern to apply when parsing the date-time value
* @param timezone the timezone for the date-time instance
* @throws ParseException where the specified string is not a valid date-time
*/
public DateTime(String value, String pattern, TimeZone timezone) throws ParseException {
// this();
super(Dates.PRECISION_SECOND, timezone != null ? timezone : java.util.TimeZone.getDefault());
this.time = new Time(getTime(), getFormat().getTimeZone());
final DateFormat format = CalendarDateFormatFactory.getInstance(pattern);
setTime(value, format, timezone);
}
/**
* @param value a string representation of a date-time
* @param pattern a pattern to apply when parsing the date-time value
* @param utc indicates whether the date-time is in UTC time
* @throws ParseException where the specified string is not a valid date-time
*/
public DateTime(String value, String pattern, boolean utc) throws ParseException {
this();
final DateFormat format = CalendarDateFormatFactory.getInstance(pattern);
if (utc) {
setTime(value, format, ((DateFormat) UTC_FORMAT.get()).getTimeZone());
}
else {
setTime(value, format, null);
}
setUtc(utc);
}
/**
* Internal set of time by parsing value string.
* @param value
* @param format a {@code DateFormat}, protected by the use of a ThreadLocal.
* @param tz
* @throws ParseException
*/
private void setTime(final String value, final DateFormat format, final java.util.TimeZone tz)
throws ParseException {
if (tz != null) {
format.setTimeZone(tz);
}
setTime(format.parse(value).getTime());
}
/**
* {@inheritDoc}
*/
public final void setTime(final long time) {
super.setTime(time);
// need to check for null time due to Android java.util.Date(long) constructor
// calling this method..
if (this.time != null) {
this.time.setTime(time);
}
}
/**
* @return Returns the utc.
*/
public final boolean isUtc() {
return time.isUtc();
}
/**
* Updates this date-time to display in UTC time if the argument is true. Otherwise, resets to the default timezone.
* @param utc The utc to set.
*/
public final void setUtc(final boolean utc) {
// reset the timezone associated with this instance..
this.timezone = null;
if (utc) {
getFormat().setTimeZone(TimeZone.getTimeZone(TimeZones.UTC_ID));
}
else {
resetTimeZone();
}
time = new Time(time, getFormat().getTimeZone(), utc);
}
/**
* Sets the timezone associated with this date-time instance. If the specified timezone is null, it will reset
* to the default timezone. If the date-time instance is utc, it will turn into
* either a floating (no timezone) date-time, or a date-time with a timezone.
* @param timezone a timezone to apply to the instance
*/
public final void setTimeZone(final TimeZone timezone) {
this.timezone = timezone;
if (timezone != null) {
getFormat().setTimeZone(timezone);
}
else {
resetTimeZone();
}
time = new Time(time, getFormat().getTimeZone(), false);
}
/**
* Reset the timezone to default.
*/
private void resetTimeZone() {
// use GMT timezone to avoid daylight savings rules affecting floating
// time values..
getFormat().setTimeZone(TimeZone.getDefault());
// getFormat().setTimeZone(TimeZone.getTimeZone(TimeZones.GMT_ID));
}
/**
* Returns the current timezone associated with this date-time value.
* @return a Java timezone
*/
public final TimeZone getTimeZone() {
return timezone;
}
/**
* {@inheritDoc}
*/
public final String toString() {
final StringBuffer b = new StringBuffer(super.toString());
b.append('T');
b.append(time.toString());
return b.toString();
}
/**
* {@inheritDoc}
*/
public boolean equals(final Object arg0) {
// TODO: what about compareTo, before, after, etc.?
if (arg0 instanceof DateTime) {
return new EqualsBuilder().append(time, ((DateTime) arg0).time).isEquals();
}
return super.equals(arg0);
}
/**
* {@inheritDoc}
*/
public int hashCode() {
return new HashCodeBuilder().append(time).append(timezone).toHashCode();
}
}
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