Year 2038 Bug is all over the web, But this seems to be a unix issue. How will this affect java Date ?

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    Will there be another Roland Emmerich movie about that one? – Sean Patrick Floyd Nov 30 '10 at 12:28
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    Should not bother anyone .. as we all know, earth ends in 2012 anyways. Write some cool stuff instead – chzbrgla Nov 30 '10 at 12:32
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    Why should I worry about it now, when I can get paid 10k a day to fix it in 2037? – skaffman Nov 30 '10 at 12:34
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    @skaffmann in 2037, 10k will probably get you a hamburger and fries :-) – Stephen C Nov 30 '10 at 13:25
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    You still want to use Java in 2038? That would be lame ... – Martin Nov 30 '10 at 14:48

What makes you think it does? Java's Date class stores a 64-bit long (not 32-bit, as with Y2K38). It also stores milliseconds, which decreases the range, but only slightly (equivalent of ~10 bits).

In Java, we have the year 292278994 bug.

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    +1 - but surely Java on Unix sometimes needs to talk dates with the underlying O/S. Unlikely a real issue (until 2038), but maybe worth a mention. – Steve314 Nov 30 '10 at 12:32
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    @Steve, true, but I think the question is specifically about java.util.Date, not anything involving time_t. – Matthew Flaschen Nov 30 '10 at 12:38
  • How does a Java app get it's time in the first place? Java might be able to handle dates well but GIGO might still be a problem. – BCS Nov 30 '10 at 22:36
  • @BCS - yes, but the current date won't be 2038 until 2038. So for now, what's the problem? Likewise for e.g. file dates - unless you're sharing files with a time-traveller. So - unlikely a real issue until 2038. – Steve314 Dec 1 '10 at 6:19
  • @Steve314: I was (and am) agreeing with you. – BCS Dec 1 '10 at 14:58

I don't believe it will impact the Java Date class as for as the programmer is concerned. It's already using 64-bit values. I can see it being a problem if you're using a data store that still uses 32-bit values. I don't expect to see too many 32-bit OSes around in 27 years.

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    Even less in 28 years. – Steve314 Nov 30 '10 at 12:35
  • That haven't been patched to fix this. I imagine some embedded systems might still use 32-bit. – Peter Lawrey Nov 30 '10 at 12:38
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    I'm quite sure that 28 years from now not even embedded systems would use 32-bit – Goran Jovic Nov 30 '10 at 12:44
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    @Goran - washing machines may still use 8 bit, just as they probably do now. Not sure that clothes or dirt are going to change much in the next 28 years. But if something does change (digital rights management to prevent you using unauthorised detergents, maybe?) then a 32 bit Unix box may be needed. – Steve314 Dec 1 '10 at 6:24

Java and times aren't restricted just to the Date class.

Where do dates/times often come from? Often from System.currentTimeMillis, which is a native method. It's typically not implemented in Java. The return type is a long, but that means little, since the native method can return any value that simply fits into a long.

It will all depend on the OS, and its implementation of the JRE.

To rely on the presence of 64-bit systems might be naive, since apparently there are many embedded systems that are 32-bit, and will continue to be.

In general, Java is exposed to the 2038 issue.

This is probably a leftover from the old C days when the date data types rolled over in 2038. Might be a problem with some really old apps, but not for Java. Yawn.

This is not really an answer. But some posts have gotten it right. Java is 2038 compliant, but not 10000 compliant (if you put a long into the Date constructor that represents something after 9999, it will not work and return some weird number), but yes, 2147483648 is definitely not the maximum allowed value in Java's Date class.

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