31

I'm trying to convert a time info I reveive as a UTC string to a timestamp using std::mktime in C++. My problem is that in <ctime> / <time.h> there is no function to convert to UTC; mktime will only return the timestamp as local time.

So I need to figure out the timezone offset and take it into account, but I can't find a platform-independent way that doesn't involve porting the whole code to boost::date_time. Is there some easy solution which I have overlooked?

  • 4
    "mktime will only return the timestamp as local time" - To be clear, the timestamp is a UNIX timestamp (for whom timezones are utterly irrelevant). What happens is that mktime interprets its input as local time. – Lightness Races in Orbit Sep 29 '11 at 9:24

10 Answers 10

3

mktime assumes that the date value is in the local time zone. Thus you can change the timezone environment variable beforehand (setenv) and get the UTC timezone.

Windows tzset

Can also try looking at various home-made utc-mktimes, mktime-utcs, etc.

  • Thanks! I saw something like this in a google result, but does it work on windows? – VolkA Feb 9 '09 at 23:36
  • The link worked, I found an mkgmtime() immediately. – Alexis Wilke Nov 18 '13 at 5:56
21
timestamp = mktime(&tm) - _timezone;

or platform independent way:

 timestamp = mktime(&tm) - timezone;

If you look in the source of mktime():

http://www.raspberryginger.com/jbailey/minix/html/mktime_8c-source.html

in line 00117 the time converted to local time:

seconds += _timezone;
  • That's just some implementation. Where will you get _timezone from in the calling code? – Lightness Races in Orbit Sep 29 '11 at 9:27
  • 2
    I simply used the "timezone" (not the "_timezone"). The "timezone" is defined in <time.h>. – Serg Sep 30 '11 at 12:49
  • first line of your answer – Lightness Races in Orbit Sep 30 '11 at 13:31
  • 4
    In some implementation. It's not something to rely on. Consider it as not simply existing. That's why its name starts with an underscore. – Lightness Races in Orbit Nov 12 '12 at 11:50
  • 9
    This doesn't account for daylight savings time. If the timestamp was created during daylight savings time, you'd want to 3600 seconds to the result. The problem is, how do you determine if the timestamp you are converting was made during daylight savings time? – Brian Schlenker Nov 8 '13 at 16:48
6

mktime() uses tzname for detecting timezone. tzset() initializes the tzname variable from the TZ enviroment variable. If the TZ variable appears in the enviroment but its value is empty or its value cannot be correctly interpreted, UTC is used.

A portable (not threadsafe) version according to the timegm manpage

   #include <time.h>
   #include <stdlib.h>

   time_t
   my_timegm(struct tm *tm)
   {
       time_t ret;
       char *tz;

       tz = getenv("TZ");
       setenv("TZ", "", 1);
       tzset();
       ret = mktime(tm);
       if (tz)
           setenv("TZ", tz, 1);
       else
           unsetenv("TZ");
       tzset();
       return ret;
   }

Eric S Raymond has a threadsafe version published in his article Time, Clock, and Calendar Programming In C

time_t my_timegm(register struct tm * t)
/* struct tm to seconds since Unix epoch */
{
    register long year;
    register time_t result;
#define MONTHSPERYEAR   12      /* months per calendar year */
    static const int cumdays[MONTHSPERYEAR] =
        { 0, 31, 59, 90, 120, 151, 181, 212, 243, 273, 304, 334 };

    /*@ +matchanyintegral @*/
    year = 1900 + t->tm_year + t->tm_mon / MONTHSPERYEAR;
    result = (year - 1970) * 365 + cumdays[t->tm_mon % MONTHSPERYEAR];
    result += (year - 1968) / 4;
    result -= (year - 1900) / 100;
    result += (year - 1600) / 400;
    if ((year % 4) == 0 && ((year % 100) != 0 || (year % 400) == 0) &&
        (t->tm_mon % MONTHSPERYEAR) < 2)
        result--;
    result += t->tm_mday - 1;
    result *= 24;
    result += t->tm_hour;
    result *= 60;
    result += t->tm_min;
    result *= 60;
    result += t->tm_sec;
    if (t->tm_isdst == 1)
        result -= 3600;
    /*@ -matchanyintegral @*/
    return (result);
}
  • 1
    See also this answer to another question which says to use setenv("TZ", "UTC", 1); instead, so that it will work on Windows. – Craig McQueen Jan 17 '13 at 5:55
  • 4
    Note that this solution is OH GOD, SO NOT THREADSAFE. If you want to call this from two different threads, you must wrap it in a mutex lock. – Quuxplusone Oct 10 '13 at 21:06
  • It's not possible to make anything that depends on environment variables thread safe :-( – Lothar Oct 23 '13 at 18:57
  • While it may not be 100% possible to make anything dependent on environment variables totally threadsafe, if you are the in complete control of the system you can make a psuedo mutex by setting your own environment variable (e.g. TZ_lock) and waiting until it is null or "0". – Erroneous Mar 19 '14 at 16:01
  • @Erroneous: That would just introduce more bugs, getenv() and setenv() are not thread-safe. – Thomas May 10 '15 at 9:38
4

If you are trying to do this in a multithreaded program and don't want to deal with locking and unlocking mutexes (if you use the environment variable method you'd have to), there is a function called timegm that does this. It isn't portable, so here is the source: http://trac.rtmpd.com/browser/trunk/sources/common/src/platform/windows/timegm.cpp

int is_leap(unsigned y) {
    y += 1900;
    return (y % 4) == 0 && ((y % 100) != 0 || (y % 400) == 0);
}

time_t timegm (struct tm *tm)
{
    static const unsigned ndays[2][12] = {
        {31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31},
        {31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}
    };
    time_t res = 0;
    int i;

    for (i = 70; i < tm->tm_year; ++i)
        res += is_leap(i) ? 366 : 365;

    for (i = 0; i < tm->tm_mon; ++i)
        res += ndays[is_leap(tm->tm_year)][i];
    res += tm->tm_mday - 1;
    res *= 24;
    res += tm->tm_hour;
    res *= 60;
    res += tm->tm_min;
    res *= 60;
    res += tm->tm_sec;
    return res;
}
  • This could trigger an out-of-bounds exception if tm_mon is set to 12 on a leap year, a common semantic for January of next year in mktime (and if it does not, result is likely very wrong). It makes many loops and function calls (57 on December 2015), and even more expensive modulo operations (nearly 100). It assumes time_t is in seconds, which is not carved in stone. – fgrieu Jul 21 '15 at 19:05
3

I have this same problem last day and by searching the doc "man mktime":

The functions mktime() and timegm() convert the broken-out time (in the structure pointed to by *timeptr) into a time value with the same encoding as that of the values returned by the time(3) function (that is, seconds from the Epoch, UTC). The mktime() function interprets the input structure according to the current timezone setting (see tzset(3)). The timegm() function interprets the input structure as representing Universal Coordinated Time (UTC).

Short:

You should use timegm, instead of using mktime.

Regards,

Pai

3

Here is a simple, tested, hopefully portable piece of code converting from struct tm to seconds since the beginning of an adjustable UTC year, without temporary change of time zone.

// Conversion from UTC date to second, signed 64-bit adjustable epoch version.
// Written by François Grieu, 2015-07-21; public domain.

#include <time.h>                   // needed for struct tm
#include <stdint.h>                 // needed for int_least64_t
#define MY_EPOCH    1970            // epoch year, changeable
typedef int_least64_t my_time_t;    // type for seconds since MY_EPOCH

// my_mktime  converts from  struct tm  UTC to non-leap seconds since 
// 00:00:00 on the first UTC day of year MY_EPOCH (adjustable).
// It works since 1582 (start of Gregorian calendar), assuming an
// apocryphal extension of Coordinated Universal Time, until some
// event (like celestial impact) deeply messes with Earth.
// It strive to be strictly C99-conformant.
//
// input:   Pointer to a  struct tm  with field tm_year, tm_mon, tm_mday,
//          tm_hour, tm_min, tm_sec set per  mktime  convention; thus
//          - tm_year is year minus 1900;
//          - tm_mon is [0..11] for January to December, but [-2..14] 
//            works for November of previous year to February of next year;
//          - tm_mday, tm_hour, tm_min, tm_sec similarly can be offset to
//            the full range [-32767 to 32767].
// output:  Number of non-leap seconds since beginning of the first UTC
//          day of year MY_EPOCH, as a signed at-least-64-bit integer.
//          The input is not changed (in particular, fields tm_wday,
//          tm_yday, and tm_isdst are unchanged and ignored).
my_time_t my_mktime(const struct tm * ptm) {
    int m, y = ptm->tm_year+2000;
    if ((m = ptm->tm_mon)<2) { m += 12; --y; }
// compute number of days within constant, assuming appropriate origin
#define MY_MKTIME(Y,M,D) ((my_time_t)Y*365+Y/4-Y/100*3/4+(M+2)*153/5+D)
    return ((( MY_MKTIME( y           ,  m, ptm->tm_mday)
              -MY_MKTIME((MY_EPOCH+99), 12, 1           )
             )*24+ptm->tm_hour)*60+ptm->tm_min)*60+ptm->tm_sec;
#undef MY_MKTIME // this macro is private
    }

Key observations allowing great simplification compared to the code in this and that answers:

  • numbering months from March, all months except the one before that origin repeat with a cycle of 5 months totaling 153 days alternating 31 and 30 days, so that, for any month, and without consideration for leap years, the number of days since the previous February can be computed (within a constant) using addition of an appropriate constant, multiplication by 153 and integer division by 5;
  • the correction in days accounting for the rule for leap year on years multiple-of-100 (which by exception to the multiple-of-4 rules are non-leap except if multiple of 400) can be computed (within a constant) by addition of an appropriate constant, integer division by 100, multiplication by 3, and integer division by 4;
  • we can compute correction for any epoch using the same formula we use in the main computation, and can do this with a macro so that this correction is computed at compilation time.

Here is another version not requiring 64-bit support, locked to 1970 origin.

// Conversion from UTC date to second, unsigned 32-bit Unix epoch version.
// Written by François Grieu, 2015-07-21; public domain.

#include <time.h>                   // needed for struct tm
#include <limits.h>                 // needed for UINT_MAX
#if UINT_MAX>=0xFFFFFFFF            // unsigned is at least 32-bit
typedef unsigned      my_time_t;    // type for seconds since 1970
#else
typedef unsigned long my_time_t;    // type for seconds since 1970
#endif

// my_mktime  converts from  struct tm  UTC to non-leap seconds since 
// 00:00:00 on the first UTC day of year 1970 (fixed).
// It works from 1970 to 2105 inclusive. It strives to be compatible
// with C compilers supporting // comments and claiming C89 conformance.
//
// input:   Pointer to a  struct tm  with field tm_year, tm_mon, tm_mday,
//          tm_hour, tm_min, tm_sec set per  mktime  convention; thus
//          - tm_year is year minus 1900
//          - tm_mon is [0..11] for January to December, but [-2..14] 
//            works for November of previous year to February of next year
//          - tm_mday, tm_hour, tm_min, tm_sec similarly can be offset to
//            the full range [-32767 to 32768], as long as the combination
//            with tm_year gives a result within years [1970..2105], and
//            tm_year>0.
// output:  Number of non-leap seconds since beginning of the first UTC
//          day of year 1970, as an unsigned at-least-32-bit integer.
//          The input is not changed (in particular, fields tm_wday,
//          tm_yday, and tm_isdst are unchanged and ignored).
my_time_t my_mktime(const struct tm * ptm) {
    int m, y = ptm->tm_year;
    if ((m = ptm->tm_mon)<2) { m += 12; --y; }
    return ((( (my_time_t)(y-69)*365u+y/4-y/100*3/4+(m+2)*153/5-446+
        ptm->tm_mday)*24u+ptm->tm_hour)*60u+ptm->tm_min)*60u+ptm->tm_sec;
    }
2

Use _mkgmtime, it takes care of everything.

  • 1
    And where might this be available and documented? – Arto Bendiken Nov 26 '14 at 15:29
1

The tm structure used by mktime has a timezone field.
What happens if you put 'UTC' into the timzone field?

http://www.delorie.com/gnu/docs/glibc/libc_435.html

  • 1
    Yes, that looks easy for linux, but Microsoft doesn't seam to agree - they provide a _mkgmtime function instead ... – VolkA Feb 10 '09 at 0:04
  • 3
    According to the mktime() manpage, the struct tm doesn't have a timezone field. According to the glibc document you referred to, "Like tm_gmtoff, this field is a BSD and GNU extension, and is not visible in a strict ISO C environment." – Craig McQueen Jan 17 '13 at 5:58
0

I used the following code to generate a timestamp in UTC:

#include <iostream>
#include <sstream>
#include <chrono>
using namespace std;

string getTimeStamp() {
    time_t now = time(NULL);
    tm* gmt_time = gmtime(&now);
    ostringstream oss;
    oss << put_time(gmt_time, "%Y-%m-%d %H:%M:%S");
    return oss.str();
}
0

I've just been trying to figure out how to do this. I'm not convinced this solution is perfect (it depends on how accurately the runtime library calculates Daylight Savings), but it's working pretty well for my problem.

Initially I thought I could just calculate the difference between gmtime and localtime, and add that on to my converted timestamp, but that doesn't work because the difference will change according to the time of year that the code is run, and if your source time is in the other half of the year you'll be out by an hour.

So, the trick is to get the runtime library to calculate the difference between UTC and local time for the time you're trying to convert.

So what I'm doing is calculating my input time and then modifying that calculated time by plugging it back into localtime and gmtime and adding the difference of those two functions:

std::tm     tm;

// Fill out tm with your input time.

std::time_t basetime = std::mktime( &tm );
std::time_t diff;

tm = *std::localtime( &basetime );
tm.tm_isdst = -1;
diff = std::mktime( &tm );

tm = *std::gmtime( &basetime );
tm.tm_isdst = -1;
diff -= std::mktime( &tm );

std::time_t finaltime = basetime + diff;

It's a bit of a roundabout way to calculate this, but I couldn't find any other way without resorting to helper libraries or writing my own conversion function.

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