org.apache.xmlbeans.XmlCalendar Maven / Gradle / Ivy
/* Copyright 2004 The Apache Software Foundation
*
* 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 org.apache.xmlbeans;
import java.util.GregorianCalendar;
import java.util.Calendar;
import java.util.Date;
import java.util.TimeZone;
import java.math.BigDecimal;
/**
* An XML Schema compatible subclass of {@link java.util.GregorianCalendar GregorianCalendar}.
* XmlCalendar modifies several key details in the behavior of
* GregorianCalendar to make it more useful when dealing with XML dates.
*
* It is easy to convert between XmlCalendar and {@link GDate}, or to
* parse or emit an XmlCalendar using a standard XML Schema
* lexical representation.
*
* -
* To match XML Schema dates, this XmlCalendar is a fully proleptic
* Gregorian calendar by default, which means that Gregorian calendar
* rules are applied backwards in time as if they had always been in
* effect, actual historical circumstances concerning the observance
* of the 1582 decree of Pope Gregory XIII notwithstanding.
*
* -
* In order to better support partially-specified dates for XML Schema,
* this implementation provides a stable get(field) method
* that does not modify the instance if you are acessing a field right
* after it was explicitly set: a set followed by a get will always
* return the same thing and will not fill in any other fields. However,
* if you get a field that was not explicitly set, then all the fields
* are still automatically filled and normalized for you, just like a
* regular GregorianCalendar. If you wish to force the completion and
* defaulting of all the fields (without hunting to get one that happens
* to be unset), you can always do so by calling getTime().
*
* -
* When a year is unspecified and needs to be filled in automatically
* (for example when using a .get or .getTime method as discussed above),
* the year is defaulted to year 0 (also known as 1 BC). This is different
* from {@link GregorianCalendar}, which chooses 1970. The reason 0 is preferable
* is that it is a leap year and so it permits the date --2-29 to be specified
* stably. A different default year can be chosen via the static method
* {@link #setDefaultYear(int) XmlCalendar.setDefaultYear()}, or by setting the
* system property "user.defaultyear". If you do change this value, you should
* pick another leap year such as 2000 and avoid non-leap years such as 1900.
*
* -
* When constructing an XmlCalendar from an XML Schema
* formatted date or time string or GDate object, the timezone
* for the calendar is taken from the string if it is present, or
* taken to be {@link java.util.TimeZone#getDefault() TimeZone.getDefault()} if not.
*
* For example, the XML timezone "Z" is translated to "GMT";
* the XML timezone "+05:00" is translated to "GMT+05:00".
*
*
* -
* Finally, this implementation provides a String constructor and a
* toString() method that comply with the XML Schema conventions
* for formatting a date. If only a subset of fields have been
* explicitly set, toString() produces a string with the proper subset
* of information.
*
*
*/
public class XmlCalendar extends GregorianCalendar
{
/**
* Constructs an XmlCalendar for a standard XML
* schema formatted date string.
*
* The parser accepts any of the following formats:
*
* YYYY-MM-DDThh:mm:ss - dateTime
* YYYY-MM-DD - date
* hh:mm:ss - time
* YYYY - gYear
* --MM - gMonth
* ---DD - gDay
*
* The parser actually accepts all 16 combinations of subsets of
* fields (Y, M, D, T) using the same scheme, even for combinations
* that are not defined as types in the schema spec, such as
* year, day, and time:
*
* YYYY--DDThh:mm:ss - [everything but month specified]
*
* In the string, each field must be padded to its full width, for
* example, January must be --01, not just --1.
*
* In particular, a year must be padded to at least four digits, so
* "98" is not a valid year, although "1998" and "0098" are both valid
* years, unambiguously 19 centuries separated from each other. A year
* may also be preceded by a minus symbol: -0001 is 1 BC and -0002 is
* 2 BC.
*
* Finally a timezone is always allowed (yet optional) at the end.
* Timezones must be either "Z" (UTC, which we translate to GMT),
* or simple offsets from UTC in the range "-14:00" to "+14:00",
* for example: "14:30:00-05:00" specifies 2:30 PM in the
* afternoon at UTC-05:00, which is the same as EST.
*
* If a timezone is not specified, the default TimeZone is used.
*/
public XmlCalendar(String xmlSchemaDateString)
{
this(new GDate(xmlSchemaDateString)); // use GDate to parse
}
/**
* Constructs an XmlCalendar from a GDate.
*
* If the instance is not completed, you can round-trip to an
* equivalent GDate by writing "new GDate(new XmlCalendar(gdate))".
* However, if you access any of the unset fields of the calendar, all
* the fields will be automatically filled in, so partial dates
* without timezones or other fields will not round-trip after access.
*/
public XmlCalendar(GDateSpecification date)
{
this(GDate.timeZoneForGDate(date), date);
}
private XmlCalendar(TimeZone tz, GDateSpecification date)
{
super(tz);
setGregorianChange(_beginningOfTime); // proleptic
clear();
if (date.hasYear())
{
int y = date.getYear(); // is never 0
if (y > 0)
{
set(Calendar.ERA, GregorianCalendar.AD);
}
else // y < 0
{
set(Calendar.ERA, GregorianCalendar.BC);
//y = 1 - y;
y = -y; // no need to add 1
}
set(Calendar.YEAR, y);
}
if (date.hasMonth())
set(Calendar.MONTH, date.getMonth() - 1); // note!!
if (date.hasDay())
set(Calendar.DAY_OF_MONTH, date.getDay());
if (date.hasTime())
{
set(Calendar.HOUR_OF_DAY, date.getHour());
set(Calendar.MINUTE, date.getMinute());
set(Calendar.SECOND, date.getSecond());
if (date.getFraction().scale() > 0)
set(Calendar.MILLISECOND, date.getMillisecond());
}
if (date.hasTimeZone())
{
set(Calendar.ZONE_OFFSET, date.getTimeZoneSign() * 1000 * 60 * (date.getTimeZoneHour() * 60 + date.getTimeZoneMinute()));
set(Calendar.DST_OFFSET, 0); // note!! if we don't do this, then GregorianCalendar will pick up DST from the time zone
}
}
/**
* Constructs an XmlCalendar from a Date.
*
* The default TimeZone is used for computing the various fields.
*/
public XmlCalendar(Date date)
{
this(TimeZone.getDefault(), new GDate(date));
complete();
}
/**
* Constructs an XmlCalendar with the specified year, month, day,
* hours, minutes, seconds, and optional fractional seconds, in
* the default timezone.
*/
public XmlCalendar(
int year,
int month,
int day,
int hour,
int minute,
int second,
BigDecimal fraction)
{
this(TimeZone.getDefault(), new GDate(year, month, day, hour, minute, second, fraction));
}
/**
* Constructs an XmlCalendar with the specified year, month, day,
* hours, minutes, seconds, and optional fractional seconds, in
* the specified timezone.
*/
public XmlCalendar(
int year,
int month,
int day,
int hour,
int minute,
int second,
BigDecimal fraction,
int tzSign,
int tzHour,
int tzMinute)
{
this(new GDate(year, month, day, hour, minute, second, fraction, tzSign, tzHour, tzMinute));
}
/**
* Gets the value for a given time field.
*
* Unlike the GregorianCalendar implementation, the get() does not
* force a complete of all fields. If you wish to force a completion
* of all the fields, call getTime() first.
*/
public int get(int field)
{
if (!isSet(field) || isTimeSet)
return super.get(field); // forces a complete
else
return internalGet(field); // does not force a complete.
}
/**
* Constructs an empty instance with no fields set.
*/
public XmlCalendar()
{
setGregorianChange(_beginningOfTime); // proleptic
clear();
}
private static int defaultYear = Integer.MIN_VALUE;
private static final int DEFAULT_DEFAULT_YEAR = 0;
/**
* Returns the default year that is used when no year is specified.
*/
public static int getDefaultYear()
{
if (defaultYear == Integer.MIN_VALUE)
{
try
{
String yearstring = SystemProperties.getProperty("user.defaultyear");
if (yearstring != null)
defaultYear = Integer.parseInt(yearstring);
else
defaultYear = DEFAULT_DEFAULT_YEAR;
}
catch (Throwable t)
{
defaultYear = DEFAULT_DEFAULT_YEAR;
}
}
return defaultYear;
}
/**
* Sets the default year to be used when no year is specified.
*/
public static void setDefaultYear(int year)
{
defaultYear = year;
}
/**
* Overrides GregorianCalendar.computeTime to apply a different
* default year. (It must be a leap year.)
*/
protected void computeTime()
{
boolean unsetYear = !isSet(YEAR);
if (unsetYear)
set(YEAR, getDefaultYear());
try
{
super.computeTime();
}
finally
{
if (unsetYear)
clear(YEAR);
}
}
private static Date _beginningOfTime = new Date(Long.MIN_VALUE);
/**
* Prints the XmlCalendar using a standard XML Schema
* format, as described in XmlCalendar(String s).
*/
public String toString()
{
return (new GDate(this)).toString(); // use GDate to print
}
}
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