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I would like to think that some of the software I'm writing today will be used in 30 years. But I am also aware that a lot of it is based upon the UNIX tradition of exposing time as the number of seconds since 1970.

#include <stdio.h>
#include <time.h>
#include <limits.h>

void print(time_t rt) {
    struct tm * t = gmtime(&rt);

int main() {

Execution results in:

  • Thu Jan 1 00:00:00 1970
  • Sat Aug 30 18:37:08 2008
  • Tue Jan 19 03:14:07 2038
  • Fri Dec 13 20:45:52 1901

The functions ctime(), gmtime(), and localtime() all take as an argument a time value representing the time in seconds since the Epoch (00:00:00 UTC, January 1, 1970; see time(3) ).

I wonder if there is anything proactive to do in this area as a programmer, or are we to trust that all software systems (aka Operating Systems) will some how be magically upgraded in the future?

Update It would seem that indeed 64-bit systems are safe from this:

import java.util.*;

class TimeTest {
    public static void main(String[] args) {
        print(Long.MAX_VALUE + 1);

    static void print(long l) {
        System.out.println(new Date(l));
  • Wed Dec 31 16:00:00 PST 1969
  • Sat Aug 30 12:02:40 PDT 2008
  • Sat Aug 16 23:12:55 PST 292278994
  • Sun Dec 02 08:47:04 PST 292269055

But what about the year 292278994?

share|improve this question
You would be happy if you were present to be held responsible for some accident by that year, wouldn't you? – R. Martinho Fernandes Jan 4 '09 at 11:05
Don't worry about year 292278994. Most systems fail at year 2147483647. – Schwern Feb 23 '09 at 6:57
I think that you've convinced us - we need to move to 128 bit immediately! – new123456 Jun 28 '11 at 23:37
The world ends in 2012, why would you need to measure any time past that? – Joe McGrath Jan 4 '12 at 4:38
By that time the sun is a red giant and humanity is gone :D – Saeid Yazdani Jan 26 at 15:36

10 Answers 10

up vote 36 down vote accepted

I have written portable replacement for time.h (currently just localtime(), gmtime(), mktime() and timegm()) which uses 64 bit time even on 32 bit machines. It is intended to be dropped into C projects as a replacement for time.h. It is being used in Perl and I intend to fix Ruby and Python's 2038 problems with it as well. This gives you a safe range of +/- 292 million years.

You can find the code at the y2038 project. Please feel free to post any questions to the issue tracker.

As to the "this isn't going to be a problem for another 29 years", peruse this list of standard answers to that. In short, stuff happens in the future and sometimes you need to know when. I also have a presentation on the problem, what is not a solution, and what is.

Oh, and don't forget that many time systems don't handle dates before 1970. Stuff happened before 1970, sometimes you need to know when.

share|improve this answer
@Schwern: Also, September 1752 is a month with fewer than 28 days. Niche knowledge thanks to the Pragmatic Programmer. – Dave Jarvis Oct 4 '10 at 13:51
@Dave Oh ho, depends on your locality! Only the British and possessions switched to Gregorian in 1752. Others did in 1582 all the way up to the 20th century (Eastern Europe, China, Turkey, Russia). ncal -p for a list and for the full story. Also there's no year 0... unless you're talking to an astronomer. Hopefully you never have to deal with the Julian/Gregorian conversion. – Schwern Oct 5 '10 at 18:19
i looked at that website (y2038) and see no code downloads – pm100 Oct 12 '10 at 21:41
@pm100: "The source control for this project has moved to github and is now using git." : – Bill Oct 12 '10 at 23:05
Schwern, people like you are my heroes. – MattC Oct 13 '10 at 13:23

You can always implement RFC 2550 and be safe forever ;-)

The known universe has a finite past and future. The current age of the universe is estimated in [Zebu] as between 10 ** 10 and 2 * 10 ** 10 years. The death of the universe is estimated in [Nigel] to occur in 10 ** 11 - years and in [Drake] as occurring either in 10 ** 12 years for a closed universe (the big crunch) or 10 ** 14 years for an open universe (the heat death of the universe).


Y10K compliant programs MAY choose to limit the range of dates they support to those consistent with the expected life of the universe. Y10K compliant systems MUST accept Y10K dates from 10 ** 12 years in the past to 10 ** 20 years into the future. Y10K compliant systems SHOULD accept dates for at least 10 ** 29 years in the past and future.

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That's the only LONG-LASTING solution I've seen so far. – R. Martinho Fernandes Jan 4 '09 at 11:04
Ah, but that's only the estimated age of the universe. If that estimate is a little off, we're in big trouble! – mickeyf Oct 4 '10 at 14:24
@mickeyf, only if it's longer than estimated... – CaffGeek Oct 12 '10 at 21:11
The only real solution is to store time in Plank time units out to the point where all protons and neutrons will have evaporated, about 1e40 years which will take a bit more than 256 bits to store. But since proton decay is still a hypothesis and the exact number is not known, push it up to 512 bits just to be safe. – Schwern Oct 15 '10 at 16:47
+1 for pointing to an RFC that has both made me laugh and made me start coding~ – Luis Machuca May 9 '12 at 5:35

For some thoughts on the issue see this page

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Visual Studio moved to a 64 bit representation of time_t in Visual Studio 2005 (whilst still leaving _time32_t for backwards compatibility).

As long as you are careful to always write code in terms of time_t and don't assume anything about the size then as sysrqb points out the problem will be solved by your compiler.

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Their localtime() and gmtime() implementations do not work before 1970 and fail in year 3001. See – Schwern Oct 20 '08 at 2:08

I think that we should leave the bug in. Then about 2036 we can start selling consultancy for large sums of money to test everything. After all isn't that how we successfully managed the 1999-2000 rollover.

I'm only joking!

I was sat in a bank in London in 1999 and was quite amazed when I saw a consultant start Y2K testing the coffee machine. I think if we learnt anything from that fiasco, it was that the vast majority of software will just work and most of the rest won't cause a melt down if it fails and can be fixed after the event if needed. As such, I wouldn't take any special precautions until much nearer the time.

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Y2K was not a problem because people prepared for it. The run-up involved a whole lot of work. The vast majority of software didn't just work, it was examined and perhaps fixed. The other stuff didn't cause a meltdown because there wasn't that much of it. – David Thornley Mar 25 '09 at 17:51
David is correct. Enterprises that took the y2k problem seriously, had a thorough review of virtually all their systems. Problems were found, and fixed. As part of a smaller non-critical system - we fixed 3 problems, all of which would have led to data-loss had they not been fixed. – nos Oct 3 '10 at 16:39
Let me be clear, I am not saying we should do nothing. I just think we can test far fewer systems than the consultants will suggest and blanket "we must test everything" policies are over the top. Let's just stick to the mission critical stuff this time. – Martin Brown Oct 4 '10 at 13:33

Given my age, I think I should pay a lot into my pension and pay of all my depts, so someone else will have to fit the software!

Sorry, if you think about the “net present value” of any software you write today, it has no effect what the software does in 2038. A “return on investment” of more than a few years is uncommon for any software project, so you make a lot more money for your employer by getting the software shipped quicker, rather than thinking that far ahead.

The only common exception is software that has to predict future, 2038 is already a problem for mortgage quotation systems.

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+1 for your age :)) – Andrei Rînea Dec 8 '10 at 14:09

By 2038, time libraries should all be using 64-bit integers, so this won't actually be that big of a deal (on software that isn't completely unmaintained).

COBOL programs might be fun though.

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Consider when a new 30 year mortgage on a house ends. – Schwern Oct 20 '08 at 2:09
First encounter I had was with working with child support payments in 1981. The system took the anticipated birth date of the child, in 1982, added 18, got 0, noticed that 81 > 0, and figured the obligation was over. As you say, banks got into this mess earlier. – David Thornley Mar 25 '09 at 17:53
@Schwern: and you think 30-year mortgage documentation uses time_t values storing # seconds since 1970? – Jason S May 8 '09 at 13:39
Even on software that's maintained, if it stores a timestamp in a fixed offset in the file format (as many that I've seen do), you'll need a new non-backwards-compatible file format. Or what about my iPod -- I can't get latest firmware upgrades for a 9-year-old iPod, so I don't think there's going to be much hope for a 28-year-old iPod. Or the antilock break system in my car. Just because software is maintained doesn't mean it's going to be easy to upgrade everybody. – Ken Oct 12 '10 at 21:22

Keep good documentation, and include a description of your time dependencies. I don't think many people have thought about how hard this transition might be, for example HTTP cookies are going to break on that date.

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What should we do to prepare for 2038?

Hide, because the apocalypse is coming.

But seriously, I hope that compilers (or the people who write them, to be precise) can handle this. They've got almost 30 years. I hope that's enough time.

At what point do we start preparing for Y10K? Have any hardware manufacturers / research labs looked into the easiest way to move to whatever new technology we'll have to have because of it?

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Operative word being "should".

If you need to ensure futureproofing then you can construct your own date/time class and use that but I'd only do that if you think that what you write will be used on legacy OS'

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Time zones are very, very, very hard to handle on your own. Also, just about every OS and many languages have this problem, even those running on 64 bit hardware. Like that 64 bit CPU in your shiny new Mac which still uses 32 bit time. – Schwern Oct 20 '08 at 2:07
i like how the accepted answer is a negative voted one :) – Ólafur Waage Oct 21 '08 at 0:06
I seem to always favor the "role your own" solutions, even if no one else does. :-) – Frank Krueger Jan 8 '09 at 18:54
@olafur i love it! – Simon_Weaver Jan 27 '09 at 5:57
I like the way that I have the accepted answer and 4 downvotes :D – Teifion Jan 29 '09 at 8:49

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