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Is there any C++ implementation of 64 bit unix timestamp conversions for 32 bit systems? I need to convert struct tm to 64 bit integer and vice versa, including leap years, timezones, UTC. Also need it portable, at least for GNU/Linux and Windows.

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What should that timestamp represent? If its just seconds since epoch, then you can just use a 32bit conversion function and copy the result into a 64bit integer (as long as you are before 2038) – PlasmaHH Oct 27 '11 at 10:19
Isn't time_t already 64 bit on most systems? Windows has most functions also in a 64bit variant. Just google for it. – RedX Oct 27 '11 at 10:22
An integer cannot represent timezones as it's a relative offset from an arbitrary epoch (in UNIX that's Jan 01 1970), but the timezone is undefined. If you want to represent these elements you'll have to break them down into a struct anyway. Also no one 'represents' leap years; how would they? Hold a meaningless count of them or something? – trojanfoe Oct 27 '11 at 10:25
PlasmaHH: Exactly, just not before 2038 – Dadam Oct 27 '11 at 10:31
RedX: I belive that only on 64bit systems. Please correct me if I am wrong. – Dadam Oct 27 '11 at 10:33
up vote 6 down vote accepted

You need:

typedef long long time64_t; 
time64_t mktime64 (struct tm *t); 
struct tm *localtime64_r (const time64_t *t, struct tm *p);
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This looks like a perfect solution for me. It just seems to me that mktime64 expects UTC in its parameter. Converting time_t to struct tm by localtime64_r and back using mktime64 doesn't give the original time, while converting time_t to struct tm by gmtime64_r and back by mktime64 does. Can you please confirm it? – Dadam Nov 7 '11 at 23:22
Yes, confirming! localtime was mentioned so much in this thread that I mixed it up. :) Of course you need gmtime64_r. – Alexei Khlebnikov Nov 16 '11 at 10:22
But as I understand it, ‘mktime‘ should expect local time, doesn’t it? – Dadam Nov 16 '11 at 15:15
Yes, seems like an inconsistency. Standard mktime expects local time and will supposedly get timezone from your local settings and convert it to UTC. But this mktime64 is "timezone-agnostic". I.e. it will give you output time64_t in UTC if you supply input struct tm in UTC, output in UTC+10 if you supply input in UTC+10, etc. – Alexei Khlebnikov Nov 22 '11 at 12:42

The function converting a struct tm* to a time_t is mktime. You can find many implementations of it, eg. in Glibc and in libvxc's mktime.c file. You could take the code (assuming it is legal to you, so please respect licenses) and change time_t to some 64 bits integer like int64_t.

The functions doing the other conversions from time_t to struct tm* are localtime or gmtime and you could do likewise.

However, you might have a more fundamental issue: your 32 bits machine running in the year 2040 should have some way of giving you the current time (as the time system call does) appropriately in the 64 bits variant of time_t, and that is much harder (it depends upon the kernel and the hardware).

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Is there any implementation which handles localtime in a portable manner? – Dadam Nov 5 '11 at 10:34
I don't understand the question. What do you call portable? time_t can be a 32 bits or a 64 bits integer type (so the machine code has to be different). – Basile Starynkevitch Nov 5 '11 at 10:51
I was thinking about using sources. But when I went through some of them, they used non-standard built-in functions for determining timezone and DST – Dadam Nov 5 '11 at 11:38
1 seems quite portable code. – Basile Starynkevitch Nov 5 '11 at 12:00
it is perfectly portable, but they don't care about a difference between UTC and local time – Dadam Nov 5 '11 at 12:14

You seem to be making the assumption that time_t is 32-bits on 32-bit systems, and this may or may not be true.

On Windows, starting with Visual Studio 2005 the size of time_t is 64-bits, even when you compile for 32-bit Windows.

The unfortunate part is that glibc defines it as long int, which on 32-bit systems is a 32-bit integer. That means that 32-bit Linux and other 32-bit platforms that are based on gcc/glibc (like Cygwin) will not be able to work with 64-bit timestamps.

If your application must run on 32-bit glibc, then you should use your own conversion functions, which could be the same functions in the C library recompiled to use 64-bit timestamps.

If you need source code with a permissive license (BSD), then you can look at these functions in minix3. Here is localtime. The source is hyperlinked, so you can find the others easily.

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+1 for the link to minix sources. – J.F. Sebastian Nov 6 '11 at 7:20

Yeah use stuct tm *_localtime64 ( const __time64_t *timer);

That's if your windows fan.

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Perfect solution for windows, but as I mention in the question, I need both windows and linux – Dadam Nov 7 '11 at 9:27
There is something called ifndef.. use that. – Alex Force Nov 8 '11 at 1:45
True, true. Byt my rule of thumb is to forget about conditional compilation unless absolutely necessary. – Dadam Nov 8 '11 at 7:57
_localtime64_s is safer BTW – Guy L Jan 9 '14 at 21:13

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