Jens Gustedt's Blog

October 28, 2013

different times in C: calendar times

Filed under: C11, C99, library, P99 — Jens Gustedt @ 08:41

Let’s take the occasion of the change back from DST here in Europe, not in the US, yet, to look how times are handled in C.
The C standard proposes a large variety of types for representing times: clock_t, time_t, struct timespec, struct tm, double and textual representations as char[]. It is a bit complicated to find out what the proper type for a particular purpose is, so let me try to explain this.

The first class of “times” can be classified as calendar times, times with a granularity and range as it would typically appear in a human calendar, as for appointments, birthdays and so on. Some of the functions that manipulate these in C99 are a bit dangerous, they operate on global state. Let us have a look how these interact:

       char[]
        ^              o
strftime| \_ ctime _   |time 
 asctime|           |  |
        |   mktime  |  v    difftime
struct tm --------> time_t ----------> double
        ^             |
        |  localtime  |
        |-------------|
           gmtime

struct tm structures a calendar time mainly as you would expect. It has hierarchical date fields such as tm_year for the year, tm_mon for the month and so on, down to the granularity of a second. They have one pitfall, though, how the different fields are counted. All but one start with 0, e.g tm_mon set to 0 stands for January and tm_wday 0 stands for Sunday.

Unfortunately, there are exceptions:

  • tm_mday starts counting days in the month at 1.
  • tm_year must add 1900 to get the year in the Gregorian calendar. Years represent in that way should lie between Gregorian years 0 and 9999.
  • tm_sec is in the range from 0 to 60, including. The later is for the rare occasion of leap seconds.

There are three supplemental date fields that are used to supply additional information to a time value in a struct tm.

  • tm_wday for the week day,
  • tm_yday for the day in the year, and
  • tm_isdst a flag that informs if a date is considered being in DST of the local time zone or not.

The consistency of all these fields can be enforced with the function mktime. It can be seen to operate in three steps

  1. The hierarchical date fields are normalized to their respective ranges.
  2. tm_wday and tm_yday are set to the corresponding values.
  3. If tm_isday has a negative value, this value is modified to 1 if the date falls into DST for the local platform, and to 0 otherwise.

mktime also serves an extra purpose. It returns the time as a time_t. time_t is thought to represent the same calendar times as struct tm, but is defined to be an arithmetic type, more suited to compute with them. It operates on a linear time scale. A time_t value of 0. the beginning of time_t is called epoch in the C jargon. Often this corresponds to the beginning of Jan 1, 1970,

The granularity of time_t is usually to the second, but nothing guarantees that. Sometimes processor hardware has special registers for clocks that obey a different granularity. difftime translates the difference between two time_t values into seconds that are represented as a double value.

Two functions for the inverse operation from time_t into struct tm come into view:

  • localtime stores the broken down local time
  • gmtime stores the broken time, expressed as UTC.

As indicated, they differ in the time zone that they assume for the conversion. Under normal circumstances localtime and mktime should be inverse to each other, gmtime has no direct counterpart for the inverse direction.

Textual representations of calendar times are also available. asctime stores the date in a fixed format, independent of any locale, language (it uses English abbreviations 🙂 or platform dependency. The format is a string of the form

"Www Mmm DD HH:MM:SS YYYY\n"

strftime is more flexible and allows to compose a textual representation with format specifiers similar to the printf functions.

One additional warning is in order. localtime, gmtime, ctime, and asctime use internal state and return pointers to static data. They are not thread safe, not reentrant, and calling one of them erases the return value of any previous call to one of them, be careful.

The new optional annexe K of C11, has functions that check for validity of their arguments and are reentrant: localtime_s, gmtime_s, ctime_s, and asctime_s. Use them when you may. P99 now implements them in its C11 emulation layer, for those of you that don’t have a complying C library, yet. Give it some testing, if you like.

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