With java8 we know use
ZoneId.default() can get system default
ZoneId, but how to get default
I see that a
ZoneId has some "rules" and each rule has a
ZoneOffset, is that means a
ZoneId may have more than one
But you likely should be using a time zone rather than a mere offset-from-UTC.
An offset-from-UTC is merely a number of hour, minutes, and seconds — nothing more. For example,
-08:00 means eight hours behind the UTC, and
+05:45 means five hours and forty-five minutes ahead of UTC.
A time zone is a history of past, present, and future changes to the offset used by the people of a particular region. Anomalies such as Daylight Saving Time (DST) causing shifts in the offset over specific periods of time are tracked over time, in the past as they happened, and in the future when politicians have announced planned changes.
So better to use a zone when known.
The offset for any region varies over time. For example, DST in the United States shifts the offset by an hour for about half the year and then restoring that hour back to the offset during the other half of the year. The entire purpose of a time zone is to document those shifts in offset.
So it really makes no sense to ask for an offset without a date-time. In
America/Los_Angeles, for example in part of this year the offset is
-08:00 but in another part of the year it is
-07:00 during DST.
OffsetDateTime odt = OffsetDateTime.now (); ZoneOffset zoneOffset = odt.getOffset ();
now method is actually applying implicitly the JVM’s current default time zone. I suggest you always make that explicit by specifying your desired/expected time zone. Even if you want the current default zone, say so explicitly to make your intentions clear. Eliminate the ambiguity about whether you intended the default or failed to consider time zone as so often happens with programmers. Call
OffsetDateTime odt = OffsetDateTime.now ( ZoneId.systemDefault () ); ZoneOffset zoneOffset = odt.getOffset ();
A caution about depending on the default zone: This default can be changed at any moment by any code in any thread within the JVM. If important, ask the user for their intended time zone.
You can ask the offset for its amount of time as a total number of seconds.
int offsetSeconds = zoneOffset.getTotalSeconds ();
Another example: Perhaps you want to know what the offset will be on Christmas Day this year in Québec. Specify the time zone
America/Montreal, get a
ZonedDateTime, ask for its offset as a
ZoneId z = ZoneId.of( "America/Montreal" ); LocalDate ld = LocalDate.of( 2017 , 12 , 25 ); ZonedDateTime zdtXmas = ld.atStartOfDay( z ); ZoneOffset zoneOffsetXmas = zdtXmas.getOffset();
As suggested in the comment by yanys, you can interrogate a
ZoneId for a particular
ZoneOffset by passing a moment as an
Instant class represents a moment on the timeline in UTC with a resolution of nanoseconds (up to nine (9) digits of a decimal fraction).
This is just another route to the same destination. Just like with
ZonedDateTime discussed above, we are specifying (a) a time zone, and (b) a moment.
Instant instant = zdtXmas.toInstant(); ZoneOffset zo = z.getRules().getOffset( instant );
For ZoneId: America/Montreal at instant: 2017-12-25T05:00:00Z the ZoneOffset is: -05:00
See all these examples’ code live at IdeOne.com.
ZoneOffset.systemDefault– Bug or feature?
ZoneOffset class, a subclass of
ZoneId, is documented as inheriting the
systemDefault method. However, this does not actually work.
ZoneOffset zoneOffset = ZoneOffset.systemDefault() ; // Fails to compile.
error: incompatible types: ZoneId cannot be converted to ZoneOffset
Not sure if this failure-to-compile is a bug or a feature. As discussed above, it does not seem to make sense to me to ever ask for default offset with a date-time, so perhaps the
ZoneOffset.systemDefault should indeed fail. But the documentation should say so, with an explanation.
I tried to file a bug on the failure of the doc to address this issue, but gave up, unable to determine where and how to file such a bug report.
A bit more about offsets and time zones…
Solar Time has been used since pre-history, tracking each day by noting when the sun is directly overhead. Poke a stick in the ground, and watch its shadow. When the shadow is shortest, when the shadow begins to grow rather than shrink, then you know it is now noon. Formalize that with a sundial to track the hours pass.
With solar time, as you travel from town to town moving westward, noon arrives a little bit later. Moving eastward, noon arrives a bit sooner. So every town has its own noon, shared only with towns to the north and south along the same longitude.
Solar time was largely abandoned in the modern era. As trains, telegraphs, and telephones arrived, so did the need to coordinate temporally. So a point was picked for its near solar time of noon, and a large swath of land so many miles to the west and to the east is declared to all share the same 12:00 on the clock, the same number of hours offset ahead or behind the Greenwich Prime Meridian line. So began the tradition of every train stop displaying prominently a clock to let the town know of the standard time for their larger region rather than solar time for their own town. Generally, towns in the western edge of that time zone region will see their train station clock read 12:00 a little before the sun is overhead. Clocks in towns in the eastern edge of the region read 12:00 a little after the sun is overhead.
Politicians around the world showed a penchant for changing the offset(s) of their jurisdiction. The reasons vary, such diplomacy, war & occupation, and the silliness of Daylight Saving Time (DST). The reasons vary, but their changes come with surprising frequency. A time zone is a name given to a region to track its history of such changes. So an offset-from-UTC is merely a number of hours-minutes-seconds ahead or behind the prime meridian. A time zone is much more: a history of the past, present, and future changes to the offsets of a particular region. While two neighboring regions may today share the same offset-from-UTC, in the past or future they may differ depending on the differing whims or logic of their politicians.
This means modern time-tracking defined by politicians has little to do with geography. For example, the huge country of India today has a single time zone (offset-from-UTC of +05:30). So solar noon (sun directly over your head) is hours apart in various places across the vast subcontinent. The politicians of India decided this to help unify their diverse democracy. In other examples around the world, we see regions use their time zone as a symbol for international relations such as being different than their offending neighbor country, or choosing the same zone as a neighbor as relations thaw as seen recently in North Korea changing to match South Korea. So, nowadays, solar time is only one of several considerations in time-tracking.
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. Hibernate 5 & JPA 2.2 support java.time.
Where to obtain the java.time classes?
Depending on your objective, you may be able to bypass
Assuming you just need a
ZoneOffset for e.g.
LocalDateTime.ofEpochSecond(), you may replace
ZoneOffset offset = OffsetDateTime.now().getOffset(); LocalDateTime dt1 = LocalDateTime.ofEpochSecond(seconds, 0, offset);
LocalDateTime dt2 = LocalDateTime.ofInstant( Instant.ofEpochSecond(seconds), ZoneId.systemDefault());