org.exolab.castor.types.Time Maven / Gradle / Ivy
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*
* Copyright 2001 (C) Intalio, Inc. All Rights Reserved.
*
* $Id$ Date Author Changes 10/02/2002 Arnaud Added support for 3 figure millisecond and clean up
* 04/18/2002 Arnaud String Constructor 05/22/2001 Arnaud Blandin Created
*/
package org.exolab.castor.types;
import java.text.SimpleDateFormat;
import java.text.ParseException;
import java.util.Date;
/**
* Describes an XML schema Time.
*
* The format is defined by W3C XML Schema Recommendation and ISO8601 i.e
* hh:mm:ss.sss(Z|(+|-)hh:mm)
*
* Deep support of fractional seconds is not implemented. This implementation only supports
* fractional second resolution of milliseconds.
*
* @author Arnaud Blandin
* @author Edward Kuns
* @version $Revision$
* @see DateTimeBase
*/
public class Time extends DateTimeBase {
/** SerialVersionUID */
private static final long serialVersionUID = -8268707778437931489L;
/** The Time Format used by the toDate() method */
private static final String TIME_FORMAT_MILLI = "HH:mm:ss.SSS";
private static final String TIME_FORMAT_NO_MILLI = "HH:mm:ss";
private static final String BAD_TIME = "Bad Time format: ";
/**
* No-arg constructor.
*/
public Time() {
// Nothing to do
}
/**
* Constructs a XML Schema Time instance given all the values of the different fields. By default
* a Time is not UTC and is local.
*
* @param values an array of shorts that represent the different fields of Time.
*/
public Time(short[] values) {
setValues(values);
}
/**
* Constructs a XML Schema Time instance given a long representing the time in milliseconds. By
* default a Time is not UTC and is local.
*
* @param l The long value that represents the time instance.
*/
public Time(long l) {
this(l, false);
}
/**
* Constructs a XML Schema Time instance given a long representing the time in milliseconds.
*
* @param l The long value that represents the time instance.
* @param utc Does the long value represent a UTC time?
*/
public Time(long l, boolean utc) {
if (l > 86400000L) {
throw new IllegalArgumentException("Bad Time: the long value can't represent more than 24h.");
}
setHour((short) (l / 3600000));
l = l % 3600000;
setMinute((short) (l / 60000));
l = l % 60000;
setSecond((short) (l / 1000), (short) (l % 1000));
if (utc) {
setZone((short) 0, (short) 0);
}
}
/**
* Constructs a Time given a string representation.
*
* @param time the string representation of the Time to instantiate
* @throws ParseException a parse exception is thrown if the string to parse does not follow the
* rigth format (see the description of this class)
*/
public Time(String time) throws ParseException {
parseTimeInternal(time, this);
}
/**
* Sets all the fields by reading the values in an array.
*
* if a Time Zone is specified it has to be set by using {@link DateTimeBase#setZone(short, short)
* setZone}.
*
* @param values an array of shorts with the values the array is supposed to be of length 4 and
* ordered like that:
*
* - hour
* - minute
* - second
* - millisecond
*
*/
public void setValues(short[] values) {
if (values.length != 4) {
throw new IllegalArgumentException("Time#setValues: not the right number of values");
}
this.setHour(values[0]);
this.setMinute(values[1]);
this.setSecond(values[2], values[3]);
}
/**
* returns an array of short with all the fields that describe this time type.
*
* Note:the time zone is not included.
*
* @return an array of short with all the fields that describe this time type.
*/
public short[] getValues() {
short[] result = new short[4];
result[0] = this.getHour();
result[1] = this.getMinute();
result[2] = this.getSeconds();
result[3] = this.getMilli();
return result;
} // getValues
/**
* Converts this Time instance into a long value based on UTC time zone.
*
* @return A long value representing this Time instance.
*/
public long toLong() {
int sign = isZoneNegative() ? 1 : -1;
int hour = getHour() + sign * getZoneHour();
int minute = getMinute() + sign * getZoneMinute();
int second = getSeconds();
int milli = getMilli();
if (minute < 0) {
minute = minute + 60;
hour = hour - 1;
} else if (minute > 59) {
minute = minute - 60;
hour = hour + 1;
}
if (hour < 0) {
hour = hour + 24;
} else if (hour > 23) {
hour = hour - 24;
}
return 3600000 * hour + 60000 * minute + 1000 * second + milli;
}
/**
* converts this Time into a local java Date.
*
* @return a local date representing this Time
*/
public Date toDate() {
Date date = null;
SimpleDateFormat df = null;
String temp = this.toString();
if (temp.indexOf('.') > 0) {
df = new SimpleDateFormat(TIME_FORMAT_MILLI);
} else {
df = new SimpleDateFormat(TIME_FORMAT_NO_MILLI);
}
setDateFormatTimeZone(df);
try {
date = df.parse(temp);
} catch (ParseException e) {
// this can't happen since toString() should return the proper string format
e.printStackTrace();
return null;
}
return date;
} // toDate()
/**
* convert this Time to a string The format is defined by W3C XML Schema Recommendation and
* ISO8601 i.e hh:mm:ss.sss(Z|(+|-)hh:mm)
*
* @return a string representing this Time
*/
public String toString() {
StringBuffer result = new StringBuffer();
appendTimeString(result);
appendTimeZoneString(result);
return result.toString();
} // toString
/**
* parses a String and converts it into a java.lang.Object
*
* @param str the string to parse
* @return the java.lang.Object represented by the string
* @throws ParseException a parse exception is thrown if the string to parse does not follow the
* rigth format (see the description of this class)
*/
public static Object parse(String str) throws ParseException {
return parseTime(str);
}
/**
* parses a String and converts it into a Time.
*
* @param str the string to parse
* @return the Time represented by the string
* @throws ParseException a parse exception is thrown if the string to parse does not follow the
* rigth format (see the description of this class)
*/
public static Time parseTime(String str) throws ParseException {
return parseTimeInternal(str, null);
}
private static Time parseTimeInternal(String str, Time result) throws ParseException {
if (str == null) {
throw new IllegalArgumentException("The string to be parsed must not be null.");
}
if (result == null) {
result = new Time();
}
char[] chars = str.toCharArray();
int idx = parseTime(str, result, chars, 0, BAD_TIME);
parseTimeZone(str, result, chars, idx, BAD_TIME);
return result;
} // parse
/////////////////////////// DISALLOWED METHODS ///////////////////////////
public boolean hasIsNegative() {
return false;
}
public boolean isNegative() {
String err = "org.exolab.castor.types.Time does not have a 'negative' field.";
throw new UnsupportedOperationException(err);
}
public void setNegative() {
String err = "org.exolab.castor.types.Time cannot be negative.";
throw new UnsupportedOperationException(err);
}
public boolean hasCentury() {
return false;
}
public short getCentury() {
String err = "org.exolab.castor.types.Time does not have a Century field.";
throw new UnsupportedOperationException(err);
}
public void setCentury(short century) {
String err = "org.exolab.castor.types.Time does not have a Century field.";
throw new UnsupportedOperationException(err);
}
public boolean hasYear() {
return false;
}
public short getYear() {
String err = "org.exolab.castor.types.Time does not have a Year field.";
throw new UnsupportedOperationException(err);
}
public void setYear(short year) {
String err = "org.exolab.castor.types.Time does not have a Year field.";
throw new UnsupportedOperationException(err);
}
public boolean hasMonth() {
return false;
}
public short getMonth() {
String err = "org.exolab.castor.types.Time does not have a Month field.";
throw new UnsupportedOperationException(err);
}
public void setMonth(short month) {
String err = "org.exolab.castor.types.Time does not have a Month field.";
throw new UnsupportedOperationException(err);
}
public boolean hasDay() {
return false;
}
public short getDay() {
String err = "org.exolab.castor.types.Time does not have a Day field.";
throw new UnsupportedOperationException(err);
}
public void setDay(short month) {
String err = "org.exolab.castor.types.Time does not have a Day field.";
throw new UnsupportedOperationException(err);
}
} // Time