Java 8 Date and Time API is one of the most sought after change for developers. Java has been missing a consistent approach for Date and Time from start and Date Time API is a welcome addition to the core Java APIs.
Why do we need new Java Date Time API?
Before we start looking at the Java 8 Date Time API, let’s see why do we need a new API for this. There have been several problems with the existing date and time related classes in java, some of them are:
- Java Date Time classes are not defined consistently, we have Date Class in both
java.util
as well asjava.sql
packages. Again formatting and parsing classes are defined injava.text
package. java.util.Date
contains both date and time, whereasjava.sql.Date
contains only date. Having this injava.sql
package doesn’t make sense. Also both the classes have same name, that is a very bad design itself.- There are no clearly defined classes for time, timestamp, formatting and parsing. We have
java.text.DateFormat
abstract class for parsing and formatting need. UsuallySimpleDateFormat
class is used for parsing and formatting. - All the Date classes are mutable, so they are not thread safe. It’s one of the biggest problem with Java Date and Calendar classes.
- Date class doesn’t provide internationalization, there is no timezone support. So
java.util.Calendar
andjava.util.TimeZone
classes were introduced, but they also have all the problems listed above.
There are some other issues with the methods defined in Date and Calendar classes but above problems make it clear that a robust Date Time API was needed in Java. That’s why Joda Time played a key role as a quality replacement for Java Date Time requirements.
Java 8 Date Time API
Java 8 Date Time API is JSR-310 implementation. It is designed to overcome all the flaws in the legacy date time implementations. Some of the design principles of new Date Time API are:
- Immutability: All the classes in the new Date Time API are immutable and good for multithreaded environments.
- Separation of Concerns: The new API separates clearly between human readable date time and machine time (unix timestamp). It defines separate classes for Date, Time, DateTime, Timestamp, Timezone etc.
- Clarity: The methods are clearly defined and perform the same action in all the classes. For example, to get the current instance we have
now()
method. There are format() and parse() methods defined in all these classes rather than having a separate class for them.All the classes use Factory Pattern and Strategy Pattern for better handling. Once you have used the methods in one of the class, working with other classes won’t be hard.
- Utility operations: All the new Date Time API classes comes with methods to perform common tasks, such as plus, minus, format, parsing, getting separate part in date/time etc.
- Extendable: The new Date Time API works on ISO-8601 calendar system but we can use it with other non ISO calendars as well.
Java Date Time API Packages
Java Date Time API consists of following packages.
- java.time Package: This is the base package of new Java Date Time API. All the major base classes are part of this package, such as
LocalDate
,LocalTime
,LocalDateTime
,Instant
,Period
,Duration
etc. All of these classes are immutable and thread safe. Most of the times, these classes will be sufficient for handling common requirements. - java.time.chrono Package: This package defines generic APIs for non ISO calendar systems. We can extend
AbstractChronology
class to create our own calendar system. - java.time.format Package: This package contains classes used for formatting and parsing date time objects. Most of the times, we would not be directly using them because principle classes in java.time package provide formatting and parsing methods.
- java.time.temporal Package: This package contains temporal objects and we can use it for find out specific date or time related to date/time object. For example, we can use these to find out the first or last day of the month. You can identify these methods easily because they always have format “withXXX”.
- java.time.zone Package: This package contains classes for supporting different time zones and their rules.
Java Date Time API Examples
We have looked into most of the important parts of Java Date Time API. It’s time now to look into most important classes of Date Time API with examples.
- java.time.LocalDate:
LocalDate
is an immutable class that represents Date with default format of yyyy-MM-dd. We can usenow()
method to get the current date. We can also provide input arguments for year, month and date to create LocalDate instance. This class provides overloaded method for now() where we can pass ZoneId for getting date in specific time zone. This class provides the same functionality asjava.sql.Date
. Let’s look at a simple example for it’s usage.package com.journaldev.java8.time; import java.time.LocalDate; import java.time.Month; import java.time.ZoneId; /** * LocalDate Examples * @author pankaj * */ public class LocalDateExample { public static void main(String[] args) { //Current Date LocalDate today = LocalDate.now(); System.out.println("Current Date="+today); //Creating LocalDate by providing input arguments LocalDate firstDay_2014 = LocalDate.of(2014, Month.JANUARY, 1); System.out.println("Specific Date="+firstDay_2014); //Try creating date by providing invalid inputs //LocalDate feb29_2014 = LocalDate.of(2014, Month.FEBRUARY, 29); //Exception in thread "main" java.time.DateTimeException: //Invalid date 'February 29' as '2014' is not a leap year //Current date in "Asia/Kolkata", you can get it from ZoneId javadoc LocalDate todayKolkata = LocalDate.now(ZoneId.of("Asia/Kolkata")); System.out.println("Current Date in IST="+todayKolkata); //java.time.zone.ZoneRulesException: Unknown time-zone ID: IST //LocalDate todayIST = LocalDate.now(ZoneId.of("IST")); //Getting date from the base date i.e 01/01/1970 LocalDate dateFromBase = LocalDate.ofEpochDay(365); System.out.println("365th day from base date= "+dateFromBase); LocalDate hundredDay2014 = LocalDate.ofYearDay(2014, 100); System.out.println("100th day of 2014="+hundredDay2014); } }
The example methods explanation is provided in comments, when we run this program, we get following output.
Current Date=2014-04-28 Specific Date=2014-01-01 Current Date in IST=2014-04-29 365th day from base date= 1971-01-01 100th day of 2014=2014-04-10
- java.time.LocalTime: LocalTime is an immutable class whose instance represents a time in the human readable format. It’s default format is hh:mm:ss.zzz. Just like LocalDate, this class provides time zone support and creating instance by passing hour, minute and second as input arguments. Let’s look at it’s usage with a simple program.
package com.journaldev.java8.time; import java.time.LocalTime; import java.time.ZoneId; /** * LocalTime Examples * @author pankaj * */ public class LocalTimeExample { public static void main(String[] args) { //Current Time LocalTime time = LocalTime.now(); System.out.println("Current Time="+time); //Creating LocalTime by providing input arguments LocalTime specificTime = LocalTime.of(12,20,25,40); System.out.println("Specific Time of Day="+specificTime); //Try creating time by providing invalid inputs //LocalTime invalidTime = LocalTime.of(25,20); //Exception in thread "main" java.time.DateTimeException: //Invalid value for HourOfDay (valid values 0 - 23): 25 //Current date in "Asia/Kolkata", you can get it from ZoneId javadoc LocalTime timeKolkata = LocalTime.now(ZoneId.of("Asia/Kolkata")); System.out.println("Current Time in IST="+timeKolkata); //java.time.zone.ZoneRulesException: Unknown time-zone ID: IST //LocalTime todayIST = LocalTime.now(ZoneId.of("IST")); //Getting date from the base date i.e 01/01/1970 LocalTime specificSecondTime = LocalTime.ofSecondOfDay(10000); System.out.println("10000th second time= "+specificSecondTime); } }
When we run above program, we get following output.
Current Time=15:51:45.240 Specific Time of Day=12:20:25.000000040 Current Time in IST=04:21:45.276 10000th second time= 02:46:40
- java.time.LocalDateTime:
LocalDateTime
is an immutable date-time object that represents a date-time, with default format as yyyy-MM-dd-HH-mm-ss.zzz. It provides a factory method that takesLocalDate
andLocalTime
input arguments to createLocalDateTime
instance. Let’s look it’s usage with a simple example.package com.journaldev.java8.time; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.LocalTime; import java.time.Month; import java.time.ZoneId; import java.time.ZoneOffset; public class LocalDateTimeExample { public static void main(String[] args) { //Current Date LocalDateTime today = LocalDateTime.now(); System.out.println("Current DateTime="+today); //Current Date using LocalDate and LocalTime today = LocalDateTime.of(LocalDate.now(), LocalTime.now()); System.out.println("Current DateTime="+today); //Creating LocalDateTime by providing input arguments LocalDateTime specificDate = LocalDateTime.of(2014, Month.JANUARY, 1, 10, 10, 30); System.out.println("Specific Date="+specificDate); //Try creating date by providing invalid inputs //LocalDateTime feb29_2014 = LocalDateTime.of(2014, Month.FEBRUARY, 28, 25,1,1); //Exception in thread "main" java.time.DateTimeException: //Invalid value for HourOfDay (valid values 0 - 23): 25 //Current date in "Asia/Kolkata", you can get it from ZoneId javadoc LocalDateTime todayKolkata = LocalDateTime.now(ZoneId.of("Asia/Kolkata")); System.out.println("Current Date in IST="+todayKolkata); //java.time.zone.ZoneRulesException: Unknown time-zone ID: IST //LocalDateTime todayIST = LocalDateTime.now(ZoneId.of("IST")); //Getting date from the base date i.e 01/01/1970 LocalDateTime dateFromBase = LocalDateTime.ofEpochSecond(10000, 0, ZoneOffset.UTC); System.out.println("10000th second time from 01/01/1970= "+dateFromBase); } }
In all the three examples, we have seen that if we provide invalid arguments for creating Date/Time, then it throws
java.time.DateTimeException
that is a RuntimeException, so we don’t need to explicitly catch it.
-
We have also seen that we can get Date/Time data by passing
ZoneId
, you can get the list of supported ZoneId values from it’s javadoc. When we run above class, we get following output.Current DateTime=2014-04-28T16:00:49.455 Current DateTime=2014-04-28T16:00:49.493 Specific Date=2014-01-01T10:10:30 Current Date in IST=2014-04-29T04:30:49.493 10000th second time from 01/01/1970= 1970-01-01T02:46:40
- java.time.Instant: Instant class is used to work with machine readable time format, it stores date time in unix timestamp. Let’s see it’s usage with a simple program.
package com.journaldev.java8.time; import java.time.Duration; import java.time.Instant; public class InstantExample { public static void main(String[] args) { //Current timestamp Instant timestamp = Instant.now(); System.out.println("Current Timestamp = "+timestamp); //Instant from timestamp Instant specificTime = Instant.ofEpochMilli(timestamp.toEpochMilli()); System.out.println("Specific Time = "+specificTime); //Duration example Duration thirtyDay = Duration.ofDays(30); System.out.println(thirtyDay); } }
Output of above program is:
Current Timestamp = 2014-04-28T23:20:08.489Z Specific Time = 2014-04-28T23:20:08.489Z PT720H
- Date API Utilities: As mentioned earlier, most of the Date Time principle classes provide various utility methods such as plus/minus days, weeks, months etc. There are some other utility methods for adjusting the date using
TemporalAdjuster
and to calculate the period between two dates.package com.journaldev.java8.time; import java.time.LocalDate; import java.time.LocalTime; import java.time.Period; import java.time.temporal.TemporalAdjusters; public class DateAPIUtilities { public static void main(String[] args) { LocalDate today = LocalDate.now(); //Get the Year, check if it's leap year System.out.println("Year "+today.getYear()+" is Leap Year? "+today.isLeapYear()); //Compare two LocalDate for before and after System.out.println("Today is before 01/01/2015? "+today.isBefore(LocalDate.of(2015,1,1))); //Create LocalDateTime from LocalDate System.out.println("Current Time="+today.atTime(LocalTime.now())); //plus and minus operations System.out.println("10 days after today will be "+today.plusDays(10)); System.out.println("3 weeks after today will be "+today.plusWeeks(3)); System.out.println("20 months after today will be "+today.plusMonths(20)); System.out.println("10 days before today will be "+today.minusDays(10)); System.out.println("3 weeks before today will be "+today.minusWeeks(3)); System.out.println("20 months before today will be "+today.minusMonths(20)); //Temporal adjusters for adjusting the dates System.out.println("First date of this month= "+today.with(TemporalAdjusters.firstDayOfMonth())); LocalDate lastDayOfYear = today.with(TemporalAdjusters.lastDayOfYear()); System.out.println("Last date of this year= "+lastDayOfYear); Period period = today.until(lastDayOfYear); System.out.println("Period Format= "+period); System.out.println("Months remaining in the year= "+period.getMonths()); } }
Output of above program is:
Year 2014 is Leap Year? false Today is before 01/01/2015? true Current Time=2014-04-28T16:23:53.154 10 days after today will be 2014-05-08 3 weeks after today will be 2014-05-19 20 months after today will be 2015-12-28 10 days before today will be 2014-04-18 3 weeks before today will be 2014-04-07 20 months before today will be 2012-08-28 First date of this month= 2014-04-01 Last date of this year= 2014-12-31 Period Format= P8M3D Months remaining in the year= 8
- Parsing and Formatting: It’s very common to format date into different formats and then parse a String to get the Date Time objects. Let’s see it with simple examples.
package com.journaldev.java8.time; import java.time.Instant; import java.time.LocalDate; import java.time.LocalDateTime; import java.time.format.DateTimeFormatter; public class DateParseFormatExample { public static void main(String[] args) { //Format examples LocalDate date = LocalDate.now(); //default format System.out.println("Default format of LocalDate="+date); //specific format System.out.println(date.format(DateTimeFormatter.ofPattern("d::MMM::uuuu"))); System.out.println(date.format(DateTimeFormatter.BASIC_ISO_DATE)); LocalDateTime dateTime = LocalDateTime.now(); //default format System.out.println("Default format of LocalDateTime="+dateTime); //specific format System.out.println(dateTime.format(DateTimeFormatter.ofPattern("d::MMM::uuuu HH::mm::ss"))); System.out.println(dateTime.format(DateTimeFormatter.BASIC_ISO_DATE)); Instant timestamp = Instant.now(); //default format System.out.println("Default format of Instant="+timestamp); //Parse examples LocalDateTime dt = LocalDateTime.parse("27::Apr::2014 21::39::48", DateTimeFormatter.ofPattern("d::MMM::uuuu HH::mm::ss")); System.out.println("Default format after parsing = "+dt); } }
When we run above program, we get following output.
Default format of LocalDate=2014-04-28 28::Apr::2014 20140428 Default format of LocalDateTime=2014-04-28T16:25:49.341 28::Apr::2014 16::25::49 20140428 Default format of Instant=2014-04-28T23:25:49.342Z Default format after parsing = 2014-04-27T21:39:48
- Legacy Date Time Support: Legacy Date/Time classes are used in almost all the applications, so having backward compatibility is a must. That’s why there are several utility methods through which we can convert Legacy classes to new classes and vice versa. Let’s see this with a simple example.
package com.journaldev.java8.time; import java.time.Instant; import java.time.LocalDateTime; import java.time.ZoneId; import java.time.ZonedDateTime; import java.util.Calendar; import java.util.Date; import java.util.GregorianCalendar; import java.util.TimeZone; public class DateAPILegacySupport { public static void main(String[] args) { //Date to Instant Instant timestamp = new Date().toInstant(); //Now we can convert Instant to LocalDateTime or other similar classes LocalDateTime date = LocalDateTime.ofInstant(timestamp, ZoneId.of(ZoneId.SHORT_IDS.get("PST"))); System.out.println("Date = "+date); //Calendar to Instant Instant time = Calendar.getInstance().toInstant(); System.out.println(time); //TimeZone to ZoneId ZoneId defaultZone = TimeZone.getDefault().toZoneId(); System.out.println(defaultZone); //ZonedDateTime from specific Calendar ZonedDateTime gregorianCalendarDateTime = new GregorianCalendar().toZonedDateTime(); System.out.println(gregorianCalendarDateTime); //Date API to Legacy classes Date dt = Date.from(Instant.now()); System.out.println(dt); TimeZone tz = TimeZone.getTimeZone(defaultZone); System.out.println(tz); GregorianCalendar gc = GregorianCalendar.from(gregorianCalendarDateTime); System.out.println(gc); } }
When we run above application, we get following output.
Date = 2014-04-28T16:28:54.340 2014-04-28T23:28:54.395Z America/Los_Angeles 2014-04-28T16:28:54.404-07:00[America/Los_Angeles] Mon Apr 28 16:28:54 PDT 2014 sun.util.calendar.ZoneInfo[id="America/Los_Angeles",offset=-28800000,dstSavings=3600000,useDaylight=true,transitions=185,lastRule=java.util.SimpleTimeZone[id=America/Los_Angeles,offset=-28800000,dstSavings=3600000,useDaylight=true,startYear=0,startMode=3,startMonth=2,startDay=8,startDayOfWeek=1,startTime=7200000,startTimeMode=0,endMode=3,endMonth=10,endDay=1,endDayOfWeek=1,endTime=7200000,endTimeMode=0]] java.util.GregorianCalendar[time=1398727734404,areFieldsSet=true,areAllFieldsSet=true,lenient=true,zone=sun.util.calendar.ZoneInfo[id="America/Los_Angeles",offset=-28800000,dstSavings=3600000,useDaylight=true,transitions=185,lastRule=java.util.SimpleTimeZone[id=America/Los_Angeles,offset=-28800000,dstSavings=3600000,useDaylight=true,startYear=0,startMode=3,startMonth=2,startDay=8,startDayOfWeek=1,startTime=7200000,startTimeMode=0,endMode=3,endMonth=10,endDay=1,endDayOfWeek=1,endTime=7200000,endTimeMode=0]],firstDayOfWeek=2,minimalDaysInFirstWeek=4,ERA=1,YEAR=2014,MONTH=3,WEEK_OF_YEAR=18,WEEK_OF_MONTH=5,DAY_OF_MONTH=28,DAY_OF_YEAR=118,DAY_OF_WEEK=2,DAY_OF_WEEK_IN_MONTH=4,AM_PM=1,HOUR=4,HOUR_OF_DAY=16,MINUTE=28,SECOND=54,MILLISECOND=404,ZONE_OFFSET=-28800000,DST_OFFSET=3600000]
As you can see that legacy
TimeZone
andGregorianCalendar
classes toString() methods are too verbose and not user friendly.
That’s all for Java 8 Date Time API, I like this new API a lot. It’s very easy to work with and having similar methods that does a particular job makes it easy to find. It will take some time from moving legacy classes to new Date Time classes, but I believe it will be worthy of the time.