5.24.3. Date Operations (Joda Time)

Caution

This version is already obsolete. Please check the latest guideline.


5.24.3.1. Overview

The API of java.util.Date , java.util.Calender class is poorly built to perform complex date calculations.
This guideline recommends the usage of Joda Time which provides quality replacement for the Java Date and Time classes.
In Joda Time, date is expressed using org.joda.time.DateTime , org.joda.time.LocalDate , or org.joda.time.LocalTime object instead of java.util.Date.
org.joda.time.DateTime , org.joda.time.LocalDate , or org.joda.time.LocalTime object is immutable (the result of date related calculations, etc. is returned in a new object).

5.24.3.2. How to use

The usage of Joda Time, Joda Time JSP tags is explained below.

5.24.3.2.1. Fetching date

5.24.3.2.1.1. Fetching current time

As per the requirements, any of the following classes can be used.
org.joda.time.DateTime , org.joda.time.LocalDate and org.joda.time.LocalTime. The usage method is shown below.
  1. Use org.joda.time.DateTime to fetch time up to milliseconds.
DateTime dateTime = new DateTime();
  1. Use org.joda.time.LocalDate when only date, which does not include time and TimeZone, is required.
LocalDate localDate = new LocalDate();
  1. Use org.joda.time.LocalTime when only time, which does not include date and TimeZone, is required.
LocalTime localTime = new LocalTime();
  1. Use org.joda.time.DateTime.withTimeAtStartOfDay() to fetch the current date with the time set to start of day.
DateTime dateTimeAtStartOfDay = new DateTime().withTimeAtStartOfDay();

Note

LocalDate and LocalTime do not have the TimeZone information.

Note

It is recommended that you use org.terasoluna.gfw.common.date.jodatime.JodaTimeDateFactory, for fetching instance of DateTime, LocalDate and LocalTime at the time of fetching current time.

DateTime dateTime = dataFactory.newDateTime();

Refer to System Date for using JodaTimeDateFactory.

LocalDate and LocalTime can be generated in the following way.

LocalDate localDate = dataFactory.newDateTime().toLocalDate();
LocalTime localTime = dataFactory.newDateTime().toLocalTime();

5.24.3.2.1.2. Fetching current time by specifying the time zone

org.joda.time.DateTimeZone class indicates time zone.
This class is used to fetch the current time for the specified time zone. The usage method is shown below.
DateTime dateTime = new DateTime(DateTimeZone.forID("Asia/Tokyo"));

org.terasoluna.gfw.common.date.jodatime.JodaTimeDateFactoryis used as follows:

// Fetching current system date using default TimeZone
DateTime dateTime = dataFactory.newDateTime();

// Changing to TimeZone of Tokyo
DateTime dateTimeTokyo = dateTime.withZone(DateTimeZone.forID("Asia/Tokyo"));

For the list of other available Time zone ID strings, refer to Available Time Zones.


5.24.3.2.1.3. Fetching the date and time by specifying Year Month Day Hour Minute and Second

Specific time can be specified in the constructor. An example is given below.

  • Fetching DateTime by specifying time up to milliseconds
DateTime dateTime = new DateTime(year, month, day, hour, minute, second, millisecond);
  • Fetching LocalDate by specifying Year Month and Day
LocalDate localDate = new LocalDate(year, month, day);
  • Fetching LocalDate by specifying Hour Minute and Second
LocalTime localTime = new LocalTime(hour, minutes, seconds, milliseconds);

5.24.3.2.1.4. Fetching Year Month Day individually

DateTime provides a method to fetch Year and Month. The example is shown below.
DateTime dateTime = new DateTime(2013, 1, 10, 2, 30, 22, 123);

int year = dateTime.getYear();  // (1)
int month = dateTime.getMonthOfYear();  // (2)
int day = dateTime.getDayOfMonth();  // (3)
int week = dateTime.getDayOfWeek();  // (4)
int hour = dateTime.getHourOfDay();  // (5)
int min = dateTime.getMinuteOfHour();  // (6)
int sec = dateTime.getSecondOfMinute();  // (7)
int millis = dateTime.getMillisOfSecond();  // (8)
Sr. No. Description
(1)
Get Year. In this example, 2013 is returned.
(2)
Get Month. In this example, 1 is returned.
(3)
Get Day. In this example, 10 is returned.
(4)
Get Day of Week. In this example, 4 is returned.
The mapping of returned values and days of week is as follows:
[1:Monday, 2:Tuesday:, 3:Wednesday, 4:Thursday, 5:Friday, 6:Saturday, 7:Sunday]
(5)
Get Hour. In this example, 2 is returned.
(6)
Get Minute. In this example, 30 is returned.
(7)
Get Second. In this example, 22 is returned.
(8)
Get Millisecond. In this example, 123 is returned.

Note

getDayOfMonth() starts with 1, differing from the specifications of java.util.Calendar.


5.24.3.2.2. Type conversion

5.24.3.2.2.1. Interoperability with java.util.Date

In DateTime, type conversion with java.util.Date can be easily performed.
Date date = new Date();

DateTime dateTime = new DateTime(date);  // (1)

Date convertDate = dateTime.toDate();  // (2)
Sr. No. Description
(1)
Convert java.util.Date to DateTime by passing java.util.Date as an argument to DateTime constructor.
(2)
Convert DateTime to java.util.Date using DateTime#toDate method.

5.24.3.2.2.2. String format

DateTime dateTime = new DateTime();

dateTime.toString("yyyy-MM-dd HH:mm:ss");  // (1)
Sr. No. Description
(1)
String of “yyyy-MM-dd HH:mm:ss” format is fetched.
For values that can be specified as arguments of toString, refer to Input and Output .

5.24.3.2.2.3. Parsing from string

LocalDate localDate = DateTimeFormat.forPattern("yyyy-MM-dd").parseLocalDate("2012-08-09");  // (1)
Sr. No. Description
(1)
Convert “yyyy-MM-dd” string format to LocalDate type.
For values that can be specified as arguments of DateTimeFormat#forPattern, refer to Formatters.

5.24.3.2.3. Date operations

5.24.3.2.3.1. Date calculations

LocalDate provides methods to perform date calculations. Examples are shown below.
LocalDate localDate = new LocalDate(); // localDate is 2013-01-10
LocalDate yesterday = localDate.minusDays(1);  // (1)
LocalDate tomorrow = localDate.plusDays(1);  // (2)
LocalDate afterThreeMonth = localDate.plusMonths(3);  // (3)
LocalDate nextYear = localDate.plusYears(1);  // (4)
Sr. No. Description
(1)
The value specified in argument of LocalDate#minusDays is subtracted from the date. In this example, it becomes 2013-01-09.
(2)
The value specified in argument of LocalDate#plusDays is added to the date. In this example, it becomes 2013-01-11.
(3)
The value specified in argument of LocalDate#plusMonths is added to the number of months. In this example, it becomes 2013-04-10.
(4)
The value specified in argument of LocalDate#plusYears is added to the number of years. In this example, it becomes 2014-01-10.

For methods other than those mentioned above, refer to LocalDate JavaDoc .


5.24.3.2.3.2. Fetching first and last day of the month

The method of fetching the first and the last day of the month by considering the current date and time as base, is shown below.
LocalDate localDate = new LocalDate(); // dateTime is 2013-01-10
Property dayOfMonth = localDate.dayOfMonth(); // (1)
LocalDate firstDayOfMonth = dayOfMonth.withMinimumValue(); // (2)
LocalDate lastDayOfMonth = dayOfMonth.withMaximumValue(); // (3)
Sr. No. Description
(1)
Get Property object that holds the attribute values related to day of current month.
(2)
Get first day of the month by fetching the minimum value from Property object. In this example, it becomes 2013-01-01.
(3)
Get last day of the month by fetching the maximum value from Property object. In this example, it becomes 2013-01-31.

5.24.3.2.3.3. Fetching the first and the last day of the week

The method of fetching the first and the last day of the week by considering the current date and time as base, is shown below.
LocalDate localDate = new LocalDate(); // dateTime is 2013-01-10
Property dayOfWeek = localDate.dayOfWeek(); // (1)
LocalDate firstDayOfWeek = dayOfWeek.withMinimumValue(); // (2)
LocalDate lastDayOfWeek = dayOfWeek.withMaximumValue(); // (3)
Sr. No. Description
(1)
Get Property object that holds attribute values related to the day of current week.
(2)
Get first day of the week (Monday) by fetching the minimum value from Property object. In this example, it becomes 2013-01-07.
(3)
Get last day of the week (Sunday) by fetching the maximum value from Property object. In this example, it becomes 2013-01-13.

5.24.3.2.3.4. Comparison of date time

By comparing the date and time, it can be determined whether it is a past or future date.

DateTime dt1 = new DateTime();
DateTime dt2 = dt1.plusHours(1);
DateTime dt3 = dt1.minusHours(1);


System.out.println(dt1.isAfter(dt1)); // false
System.out.println(dt1.isAfter(dt2)); // false
System.out.println(dt1.isAfter(dt3)); // true

System.out.println(dt1.isBefore(dt1)); // false
System.out.println(dt1.isBefore(dt2)); // true
System.out.println(dt1.isBefore(dt3)); // false

System.out.println(dt1.isEqual(dt1)); // true
System.out.println(dt1.isEqual(dt2)); // false
System.out.println(dt1.isEqual(dt3)); // false
Sr. No. Description
(1)
isAfter method returns true when the target date and time is later than the date and time of argument.
(2)
isBefore method returns true when the target date and time is prior to the date and time of argument.
(3)
isEqual method returns true when the target date and time is same as the date and time of argument.

5.24.3.2.4. Fetching the duration

Joda-Time provides several classes related to duration. The following 2 classes are explained here.

  • org.joda.time.Interval
  • org.joda.time.Period

5.24.3.2.4.1. Interval

Class indicating the interval between two instances (DateTime).

The following 4 are checked using the Interval class.

  • Checking whether the interval includes the specified date or interval.
  • Checking whether the 2 intervals are consecutive.
  • Fetching the difference between 2 intervals in an interval
  • Fetching the overlapping interval between 2 intervals

For implementation, refer to the following example.

DateTime start1 = new DateTime(2013,8,14,0,0,0);
DateTime end1 = new DateTime(2013,8,16,0,0,0);

DateTime start2 = new DateTime(2013,8,16,0,0,0);
DateTime end2 = new DateTime(2013,8,18,0,0,0);

DateTime anyDate = new DateTime(2013, 8, 15, 0, 0, 0);

Interval interval1 = new Interval(start1, end1);
Interval interval2 = new Interval(start2, end2);

interval1.contains(anyDate);  // (1)

interval1.abuts(interval2);  // (2)

DateTime start3 = new DateTime(2013,8,18,0,0,0);
DateTime end3 = new DateTime(2013,8,20,0,0,0);
Interval interval3 = new Interval(start3, end3);

interval1.gap(interval3);  // (3)

DateTime start4 = new DateTime(2013,8,15,0,0,0);
DateTime end4 = new DateTime(2013,8,17,0,0,0);
Interval interval4 = new Interval(start4, end4);

interval1.overlap(interval4);  // (4)
Sr. No. Description
(1)
Check whether the interval includes the specified date and interval, using Interval#contains method.
If the interval includes the specified date and interval, return “true”. If not, return “false”.
(2)
Check whether the 2 intervals are consecutive, using Interval#abuts method.
If the 2 intervals are consecutive, return “true”. If not, return “false”.
(3)
Fetch the difference between 2 intervals in an interval, using Interval#gap method.
In this example, the interval between “2013-08-16~2013-08-18” is fetched.
When there is no difference between intervals, return null.
(4)
Fetch the overlapping interval between 2 intervals, using Interval#overlap method.
In this example, the interval between “2013-08-15~2013-08-16” is fetched.
When there is no overlapping interval, return null.

Intervals can be compared by converting into Period.

  • Convert the intervals into Period when comparing them from abstract perspectives such as Month or Day.
// Convert to Period
interval1.toPeriod();


5.24.3.2.4.2. Period

Period is a class indicates duration in terms of Year, Month and Week.

For example, when Period of “1 month” is added to Instant(DateTime)indicating “March 1”, DateTime will be “April 1”.
The result of adding the Period of “1 month” to “March 1” and “April 1” is as shown below.
  • Number of days is “31” when a Period of “1 month” is added to “March 1”.
  • Number of days is “30” when a Period of “1 month” is added to “April 1”.

The result of adding a Period of “1 month” differs depending on the target DateTime.

Two different types of implementations have been provided for Period.
  • Single field Period (Example:Type having values of single unit such as “1 Day” or “1 month”)
  • Any field Period (Example:Type indicating the period and having values of multiple units such as “1 month 2 days 4 hours”)

For details, refer to Period.


5.24.3.2.5. JSP Tag Library

fmt:formatDate tag of JSTL handles objects of java.util.Date and java.util.TimeZone.
Use Joda tag library to handle DateTime, LocalDateTime, LocalDate, LocalTime and DateTimeZone objects of Joda-time.
The functionalities of JSP Tag Library are almost same as those of JSTL, hence it can be used easily if the person has knowledge of JSTL.

5.24.3.2.5.1. How to set

The following taglib definition is required to use the tag library.

<%@ taglib uri="http://www.joda.org/joda/time/tags" prefix="joda"%>

5.24.3.2.5.2. joda:format tag

joda:format tag is used to format the objects of DateTime, LocalDateTime, LocalDate and LocalTime.

<% pageContext.setAttribute("now", new org.joda.time.DateTime()); %>

<span>Using pattern="yyyyMMdd" to format the current system date</span><br/>
<joda:format value="${now}" pattern="yyyyMMdd" />
<br/>
<span>Using style="SM" to format the current system date</span><br/>
<joda:format value="${now}" style="SM" />

Output result

/jodatime

The list of attributes of joda:format tag is as follows:

Attribute information
No. Attributes Description
value
Set the instance of ReadableInstant or ReadablePartial.
var
Variable name
scope
Scope of variables
locale
Locale information
style
Style information for doing formatting (2 digits. Set the style for date and time. Values that can be entered are S=Short, M=Medium, L=Long, F=Full, -=None)
pattern
Pattern for doing formatting (yyyyMMdd etc.). For patterns that can be entered, refer to Input and Output.
dateTimeZone
Time zone

For other Joda-Time tags, refer to Joda Time JSP tags User guide.

Note

When the date and time is displayed by specifying style attributes, the displayed contents differ depending on browser locale. Locale of the format displayed in the above style attribute is “en”.


5.24.3.2.6. Example (display of calendar)

Using Spring MVC, sample for displaying a month wise calender, is shown below.

Process name URL Handler method
Display of current month’s calendar /calendar today
Display of specified month’s calendar /calendar/month?year=yyyy&month=m month

The controller is implemented as follows:

@Controller
@RequestMapping("calendar")
public class CalendarController {

    @RequestMapping
    public String today(Model model) {
        LocalDate today = new LocalDate();
        int year = today.getYear();
        int month = today.getMonthOfYear();
        return month(year, month, model);
    }

    @RequestMapping(value = "month")
    public String month(@RequestParam("year") int year,
            @RequestParam("month") int month, Model model) {
        LocalDate firstDayOfMonth = new LocalDate(year, month, 1);
        LocalDate lastDayOfMonth = firstDayOfMonth.dayOfMonth()
                .withMaximumValue();

        LocalDate firstDayOfCalender = firstDayOfMonth.dayOfWeek()
                .withMinimumValue();
        LocalDate lastDayOfCalender = lastDayOfMonth.dayOfWeek()
                .withMaximumValue();

        List<List<LocalDate>> calendar = new ArrayList<List<LocalDate>>();
        List<LocalDate> weekList = null;
        for (int i = 0; i < 100; i++) {
            LocalDate d = firstDayOfCalender.plusDays(i);
            if (d.isAfter(lastDayOfCalender)) {
                break;
            }

            if (weekList == null) {
                weekList = new ArrayList<LocalDate>();
                calendar.add(weekList);
            }

            if (d.isBefore(firstDayOfMonth) || d.isAfter(lastDayOfMonth)) {
                // skip if the day is not in this month
                weekList.add(null);
            } else {
                weekList.add(d);
            }

            int week = d.getDayOfWeek();
            if (week == DateTimeConstants.SUNDAY) {
                weekList = null;
            }
        }

        LocalDate nextMonth = firstDayOfMonth.plusMonths(1);
        LocalDate prevMonth = firstDayOfMonth.minusMonths(1);
        CalendarOutput output = new CalendarOutput();
        output.setCalendar(calendar);
        output.setFirstDayOfMonth(firstDayOfMonth);
        output.setYearOfNextMonth(nextMonth.getYear());
        output.setMonthOfNextMonth(nextMonth.getMonthOfYear());
        output.setYearOfPrevMonth(prevMonth.getYear());
        output.setMonthOfPrevMonth(prevMonth.getMonthOfYear());

        model.addAttribute("output", output);

        return "calendar";
    }
}

The CalendarOutput class mentioned below is JavaBean having the consolidated information to be output on the screen.

public class CalendarOutput {
    private List<List<LocalDate>> calendar;

    private LocalDate firstDayOfMonth;

    private int yearOfNextMonth;

    private int monthOfNextMonth;

    private int yearOfPrevMonth;

    private int monthOfPrevMonth;

    // omitted getter/setter
}

Warning

For the sake of simplicity, this sample code includes all the logic in the handler method of Controller, but in real scenario, this logic should be delegated to Helper classes to improve maintainability.


In JSP(calendar.jsp), it is output as follows:

<p>
    <a
        href="${pageContext.request.contextPath}/calendar/month?year=${f:h(output.yearOfPrevMonth)}&month=${f:h(output.monthOfPrevMonth)}">&larr;
        Prev</a> <a
        href="${pageContext.request.contextPath}/calendar/month?year=${f:h(output.yearOfNextMonth)}&month=${f:h(output.monthOfNextMonth)}">Next
        &rarr;</a> <br>
    <joda:format value="${output.firstDayOfMonth}"
        pattern="yyyy-M" />
</p>
<table>
    <tr>
        <th>Mon.</th>
        <th>Tue.</th>
        <th>Wed.</th>
        <th>Thu.</th>
        <th>Fri.</th>
        <th>Sat.</th>
        <th>Sun.</th>
    </tr>
    <c:forEach var="week" items="${output.calendar}">
        <tr>
            <c:forEach var="day" items="${week}">
                <td><c:choose>
                        <c:when test="${day != null}">
                            <joda:format value="${day}"
                                pattern="d" />
                        </c:when>
                        <c:otherwise>&nbsp;</c:otherwise>
                    </c:choose></td>
            </c:forEach>
        </tr>
    </c:forEach>
</table>

Access {contextPath}/calendar to display the calendar below (showing result of November 2012).

/calendar

Access {contextPath}/calendar/month?year=2012&month=12 to display the calendar below.

/calendar/month?year=2012&month=12

5.24.3.3. Appendix

5.24.3.3.1. Japanese calendar operation before Java8

The class called java.time.chrono.JapaneseDate is offered in Java8 for Japanese calendar operation however it is possible to deal with the Japanese calendar by java.util.Calendar class in older Java version.
Specifically, it is necessary to specify the following java.util.Locale in the java.util.Calendar class and java.text.DateFormat class.
Locale locale = new Locale("ja", "JP", "JP");
Below, it shows an example of the Japanese calendar display using the Calendar class.
Locale locale = new Locale("ja", "JP", "JP");
Calendar cal = Calendar.getInstance(locale); // Ex, 2015-06-05
String format1 = "Gy.MM.dd";
String format2 = "GGGGyy/MM/dd";

DateFormat df1 = new SimpleDateFormat(format1, locale);
DateFormat df2 = new SimpleDateFormat(format2, locale);

df1.format(cal.getTime()); // "H27.06.05"
df2.format(cal.getTime()); // "平成27/06/05"
Similarly, it can also perform parsing the string.
Locale locale = new Locale("ja", "JP", "JP");
String format1 = "Gy.MM.dd";
String format2 = "GGGGyy/MM/dd";

DateFormat df1 = new SimpleDateFormat(format1, locale);
DateFormat df2 = new SimpleDateFormat(format2, locale);

Calendar cal1 = Calendar.getInstance(locale);
Calendar cal2 = Calendar.getInstance(locale);

cal1.setTime(df1.parse("H27.06.05"));
cal2.setTime(df2.parse("平成27/06/05"));

Note

The java.util.JapaneseImperialCalendar object corresponding to the Japanese calendar is created by specifying the new Locale("ja", "JP", "JP") into the getInstance method.
If you specify the other, java.util.GregorianCalendar object gets created therefore it should be noted.