Contrary to some comments on this page, that input string with an offset of
+00:00 is indeed in standard format, the ISO 8601 standard. It is the old date-time classes bundled with early versions of Java that have the problem/limitation.
In Java 8 and later, use the java.time framework rather than those old classes.
We have only an offset-from-UTC in your input string, not a full time zone name. So we parse this string as a
Your input string is already in standard ISO 8601 format, and java.time uses ISO 8601 formats by default, so no need to specify a coded parsing pattern. We can let the
OffsetDateTime class parse directly. Just one short line of code.
String input = "2012-01-17T11:53:40+00:00";
OffsetDateTime odt = OffsetDateTime.parse ( input );
Dump to console.
System.out.println ( "input: " + input + " odt: " + odt );
input: 2012-01-17T11:53:40+00:00 odt: 2012-01-17T11:53:40Z
Z on the end of the output from the
toString method on a
Z is short for
Zulu which means an offset-from-UTC of zero,
Assign Time Zone
If you need to, you can adjust this
OffsetDateTime into a specific time zone, creating a
ZoneId zoneId = ZoneId.of ( "America/Montreal" );
ZonedDateTime zdt = odt.atZoneSameInstant ( zoneId );
OffsetDateTime object and the
ZonedDateTime object represent the same moment on the timeline. The difference is in how an individual person might experience that moment when she looks up at her office wall to read the clock. In Montréal she would see "6:53 AM", while her associate in Iceland (which uses UTC time) would see "11:53 AM" if looking up at same simultaneous moment.
Dump to console.
System.out.println ( "input: " + input + " odt: " + odt + " zdt: " + zdt );
input: 2012-01-17T11:53:40+00:00 odt: 2012-01-17T11:53:40Z zdt: 2012-01-17T06:53:40-05:00[America/Montreal]
Note that java.time extends the ISO 8601 format by appending the name of the time zone in square brackets.