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I am trying to implement in C two simple convertors, date/time to time-stamp and vice-versa, without any dependencies on time library routines (such as localtime, mktime, etc, mainly due to the fact that some of them are thread-unsafe).

I have previously posted a similar question under Convert date/time to time-stamp and vice versa, and would now like to submit it again with a few notable changes:

I have the following date/time structure:

typedef struct
{
    unsigned char second; // 0-59
    unsigned char minute; // 0-59
    unsigned char hour;   // 0-59
    unsigned char day;    // 1-31
    unsigned char month;  // 1-12
    unsigned char year;   // 0-99 (representing 2000-2099)
}
date_time_t;

I would like to have a second opinion on the following conversion routines (given a legal input):

static unsigned short days[4][12] =
{
    {   0,  31,  60,  91, 121, 152, 182, 213, 244, 274, 305, 335},
    { 366, 397, 425, 456, 486, 517, 547, 578, 609, 639, 670, 700},
    { 731, 762, 790, 821, 851, 882, 912, 943, 974,1004,1035,1065},
    {1096,1127,1155,1186,1216,1247,1277,1308,1339,1369,1400,1430},
};


unsigned int date_time_to_epoch(date_time_t* date_time)
{
    unsigned int second = date_time->second;  // 0-59
    unsigned int minute = date_time->minute;  // 0-59
    unsigned int hour   = date_time->hour;    // 0-23
    unsigned int day    = date_time->day-1;   // 0-30
    unsigned int month  = date_time->month-1; // 0-11
    unsigned int year   = date_time->year;    // 0-99
    return (((year/4*(365*4+1)+days[year%4][month]+day)*24+hour)*60+minute)*60+second;
}


void epoch_to_date_time(date_time_t* date_time,unsigned int epoch)
{
    date_time->second = epoch%60; epoch /= 60;
    date_time->minute = epoch%60; epoch /= 60;
    date_time->hour   = epoch%24; epoch /= 24;

    unsigned int years = epoch/(365*4+1)*4; epoch %= 365*4+1;

    unsigned int year;
    for (year=3; year>0; year--)
    {
        if (epoch >= days[year][0])
            break;
    }

    unsigned int month;
    for (month=11; month>0; month--)
    {
        if (epoch >= days[year][month])
            break;
    }

    date_time->year  = years+year;
    date_time->month = month+1;
    date_time->day   = epoch-days[year][month]+1;
}

I have tested this on an extensive amount of legal input (between 01/01/2000 and 31/12/2099). Any constructive comments would be appreciated (performance improvement suggestions, readability, etc)...

UPDATE - my ultimate goal here (due to which I am posting this question):

I have an STM32 (ARM-based cortex), with a timer configured to interrupt the CPU every 10ms. In addition, I have an RTC connected, from which I can read date/time (in 1sec resolution). Accessing the RTC is less efficient, so I would like to read it only once, and from then on, calculate the date/time using the 10ms timer interrupts. I wish to avoid using 'localtime', since I then have to protect it with a mutex. The only solution that comes to mind is implementing my own 'localtime', and as subsequent result - my own 'mktime' as well (my epoch in the code above counts seconds from the beginning of the year 2000).

share|improve this question
5  
This question appears to be off-topic because it is about doing a code review. If you know your code is buggy, specify what inputs break it and explain what you've tried to fix it. If you think your code is ok and want a review, post on codereview.stackexchange.com. If you're not sure whether your code is buggy or not, test it. –  Mat Dec 29 '13 at 15:45
2  
This approach looks much too complicated to me, if it is only for the goal of thread safety. mktime and difftime are thread safe. It is possible to implement wrappers for the remaining time functions from there. You can view such an implementation of the C11 functions from Annex K (with names ending in _s) that are thread safe in P99: p99.gforge.inria.fr –  Jens Gustedt Dec 29 '13 at 16:05
1  
If you want your implementation to be value-compatible with time_t/unix timestamps, you'll need to handle leap-seconds, too, plus: support for adding them in the future. –  wildplasser Dec 29 '13 at 17:58
1  
@J.F.Sebastian - Good reference, and much better wording. Yes, it's implementation defined, and most implementations (but not all) ignore it. –  Matt Johnson Dec 29 '13 at 21:43
1  
You may have problems with the year 2100 if you are relying on a 4-year cycle; see en.wikipedia.org/wiki/Century_leap_year –  wilsonmichaelpatrick Dec 29 '13 at 22:22

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