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Timestamp are actually equivalents of java. time. Instant , not LocalDateTime , Date Timestamp and Instant are instances of Unix time, while LocalDateTime is a DateTime in current time zone.
Convert LocalDate To Date in JavaStep 1: First Create the LocalDate object using either now() or of() method. now() method gets the current date where as of() creates the LocalDate object with the given year, month and day. Step 2: Next, Get the timezone from operating system using ZoneId. systemDefault() method.
LocalDate is introduced in Java API in version 1.8 version of java. The LocalDate represents a date in ISO format (yyyy-MM-dd) without time.It can be used to store dates like birthdays and paydays. Actually this new Time-Date is introduced in Java 1.8 to provide immutability and thread safety.
To convert JodaTime's org.joda.time.LocalDate to java.sql.Timestamp, just do
Timestamp timestamp = new Timestamp(localDate.toDateTimeAtStartOfDay().getMillis());
To convert JodaTime's org.joda.time.LocalDateTime to java.sql.Timestamp, just do
Timestamp timestamp = new Timestamp(localDateTime.toDateTime().getMillis());
To convert Java8's java.time.LocalDate to java.sql.Timestamp, just do
Timestamp timestamp = Timestamp.valueOf(localDate.atStartOfDay());
To convert Java8's java.time.LocalDateTime to java.sql.Timestamp, just do
Timestamp timestamp = Timestamp.valueOf(localDateTime);
The best way use Java 8 time API:
LocalDateTime ldt = timeStamp.toLocalDateTime();
Timestamp ts = Timestamp.valueOf(ldt);
For use with JPA put in with your model (https://weblogs.java.net/blog/montanajava/archive/2014/06/17/using-java-8-datetime-classes-jpa):
@Converter(autoApply = true)
public class LocalDateTimeConverter implements AttributeConverter<LocalDateTime, Timestamp> {
@Override
public Timestamp convertToDatabaseColumn(LocalDateTime ldt) {
return Timestamp.valueOf(ldt);
}
@Override
public LocalDateTime convertToEntityAttribute(Timestamp ts) {
return ts.toLocalDateTime();
}
}
So now it is relative timezone independent time. Additionally it is easy do:
LocalDate ld = ldt.toLocalDate();
LocalTime lt = ldt.toLocalTime();
Formatting:
DateTimeFormatter DATE_TME_FORMATTER = DateTimeFormatter.ofPattern("yyyy-MM-dd HH:mm")
String str = ldt.format(DATE_TME_FORMATTER);
ldt = LocalDateTime.parse(str, DATE_TME_FORMATTER);
UPDATE: postgres 9.4.1208, HSQLDB 2.4.0 etc understand Java 8 Time API without any conversations!
The Joda-Time project is in maintenance-mode, now supplanted by java.time classes.
java.time.Instant class.LocalDateTimejava.sql.TimestampCapture current moment in UTC.
Instant.now()
To store that moment in database:
myPreparedStatement.setObject( … , Instant.now() ) // Writes an `Instant` to database.
To retrieve that moment from datbase:
myResultSet.getObject( … , Instant.class ) // Instantiates a `Instant`
To adjust the wall-clock time to that of a particular time zone.
instant.atZone( z ) // Instantiates a `ZonedDateTime`
LocalDateTime is the wrong classOther Answers are correct, but they fail to point out that LocalDateTime is the wrong class for your purpose.
In both java.time and Joda-Time, a LocalDateTime purposely lacks any concept of time zone or offset-from-UTC. As such, it does not represent a moment, and is not a point on the timeline. A LocalDateTime represents a rough idea about potential moments along a range of about 26-27 hours.
Use a LocalDateTime for either when the zone/offset is unknown (not a good situation), or when the zone-offset is indeterminate. For example, “Christmas starts at first moment of December 25, 2018” would be represented as a LocalDateTime.
Use a ZonedDateTime to represent a moment in a particular time zone. For example, Christmas starting in any particular zone such as Pacific/Auckland or America/Montreal would be represented with a ZonedDateTime object.
For a moment always in UTC, use Instant.
Instant instant = Instant.now() ; // Capture the current moment in UTC.
Apply a time zone. Same moment, same point on the timeline, but viewed with a different wall-clock time.
ZoneId z = ZoneId.of( "Africa/Tunis" ) ;
ZonedDateTime zdt = instant.atZone( z ) ; // Same moment, different wall-clock time.
So, if I can just convert between LocalDate and LocalDateTime,
No, wrong strategy. If you have a date-only value, and you want a date-time value, you must specify a time-of-day. That time-of-day may not be valid on that date for a particular zone – in which case ZonedDateTime class automatically adjusts the time-of-day as needed.
LocalDate ld = LocalDate.of( 2018 , Month.JANUARY , 23 ) ;
LocalTime lt = LocalTime.of( 14 , 0 ) ; // 14:00 = 2 PM.
ZonedDateTime zdt = ZonedDateTime.of( ld , lt , z ) ;
If you want the first moment of the day as your time-of-day, let java.time determine that moment. Do not assume the day starts at 00:00:00. Anomalies such as Daylight Saving Time (DST) mean the day may start at another time such as 01:00:00.
ZonedDateTime zdt = ld.atStartOfDay( z ) ;
java.sql.Timestamp is the wrong classThe java.sql.Timestamp is part of the troublesome old date-time classes that are now legacy, supplanted entirely by the java.time classes. That class was used to represent a moment in UTC with a resolution of nanoseconds. That purpose is now served with java.time.Instant.
getObject/setObject
As of JDBC 4.2 and later, your JDBC driver can directly exchange java.time objects with the database by calling:
PreparedStatement::setObjectResultSet::getObjectFor example:
myPreparedStatement.setObject( … , instant ) ;
… and …
Instant instant = myResultSet.getObject( … , Instant.class ) ;
If you must interface with old code not yet updated to java.time, convert back and forth using new methods added to the old classes.
Instant instant = myJavaSqlTimestamp.toInstant() ; // Going from legacy class to modern class.
…and…
java.sql.Timestamp myJavaSqlTimestamp = java.sql.Timestamp.from( instant ) ; // Going from modern class to legacy class.
The java.time framework is built into Java 8 and later. These classes supplant the troublesome old legacy date-time classes such as java.util.Date, Calendar, & SimpleDateFormat.
The Joda-Time project, now in maintenance mode, advises migration to the java.time classes.
To learn more, see the Oracle Tutorial. And search Stack Overflow for many examples and explanations. Specification is JSR 310.
You may exchange java.time objects directly with your database. Use a JDBC driver compliant with JDBC 4.2 or later. No need for strings, no need for java.sql.* classes.
Where to obtain the java.time classes?
The ThreeTen-Extra project extends java.time with additional classes. This project is a proving ground for possible future additions to java.time. You may find some useful classes here such as Interval, YearWeek, YearQuarter, and more.
Depending on your timezone, you may lose a few minutes (1650-01-01 00:00:00 becomes 1649-12-31 23:52:58)
Use the following code to avoid that
new Timestamp(localDateTime.getYear() - 1900, localDateTime.getMonthOfYear() - 1, localDateTime.getDayOfMonth(), localDateTime.getHourOfDay(), localDateTime.getMinuteOfHour(), localDateTime.getSecondOfMinute(), fractional);
function call asStartOfDay() on java.time.LocalDate object returns a java.time.LocalDateTime object
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