We're required to use gettime() to get the current time in C. I'm trying to print the current time but the error:
error: storage size of 't' isn't known
occurs. I don't know how to solve this. Here is the code:
#include<stdio.h>
#include<dos.h>
int main(){
struct time t;
gettime(&t);
printf("%d:%d:%d", t.ti_hour,t.ti_min,t.ti_sec);
getch();
return 0;
}
It's not clear if you want to get the time, or just print it.
For the second case, there are few legacy methods that will provide formatted time (asctime, ctime). But those may not fit your needs.
The more flexible option is to use strftime based on data from time/localtime_r. The strftime support many of the escapes (%Y, ...) that are available with GNU date.
#include <stdio.h>
#include <time.h>
void main(void)
{
time_t now = time(NULL) ;
struct tm tm_now ;
localtime_r(&now, &tm_now) ;
char buff[100] ;
strftime(buff, sizeof(buff), "%Y-%m-%d, time is %H:%M", &tm_now) ;
printf("Time is '%s'\n", buff) ;
}
The standard C function to get the local time is simply time, included in the header time.h
Example taken from here.
/* time example */
#include <stdio.h> /* printf */
#include <time.h> /* time_t, struct tm, difftime, time, mktime */
int main ()
{
time_t timer;
struct tm y2k = {0};
double seconds;
y2k.tm_hour = 0; y2k.tm_min = 0; y2k.tm_sec = 0;
y2k.tm_year = 100; y2k.tm_mon = 0; y2k.tm_mday = 1;
time(&timer); /* get current time; same as: timer = time(NULL) */
seconds = difftime(timer,mktime(&y2k));
printf ("%.f seconds since January 1, 2000 in the current timezone", seconds);
return 0;
}
More info on the different time format :
http://www.cplusplus.com/reference/ctime/mktime/
http://www.cplusplus.com/reference/ctime/localtime/
Ok, you're trying to use the DOS.H library, so the time.h and ctime library does not apply to this particular issue due to DOS.H is an exclusive C library you cannot use it in any other C (C++ or C#), please read the library after you read this post so you can see clearly what am i talking about, so within the DOS.H library is an STRUCT that you use for save all the variables of time, this is hour, minutes, seconds, so the first thing that we have to do is to declare a variable that allow us save this type of data:
struct time tm;
Once you do that you can use the gettime() function wich is on the library to, this to save que values in a place where we can get access to:
gettime(&tm);
And finally to print o do wherever you want with this data you need to get each register of the structure:
printf("System time is: %d : %d : %d\n",tm.ti_hour, tm.ti_min, tm.ti_sec);
Check this code:
#include<stdio.h>
#include<dos.h>
#include<conio.h>
int main()
{
struct date fecha;
struct time hora;
union REGS regs;
getdate(&fecha);
printf("La fecha del sistema es: %d / %d / %d\n",fecha.da_day,fecha.da_mon,fecha.da_year);
regs.x.cx = 0x004c;
regs.x.dx = 0x4b40;
regs.h.ah = 0x86; /* 004c4b40h = 5000000 microsegundos */
int86(0x15,®s,®s); /* Interrupcion 15h suspension de sistema */
gettime(&hora);
printf("la hora del sistema es: %d : %d : %d\n",hora.ti_hour,hora.ti_min,hora.ti_sec);
getche();
clrscr();
return 0;
}
i need to convet current time in milliseconds to human readable time format. I have following code
#include <netinet/in.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
#include <stdbool.h>
#include <sys/time.h>
#include <time.h>
int Cnvrt_To_Time_Frmt(char *Epochval)
{
unsigned long epoch = 0;
time_t tt = 0;
char timestamp[64],usec_buf[20];
if (!sscanf(Epochval, "%lu", &epoch))
{
return 1;
}
tt = epoch;
strftime(timestamp, 64, "%c", localtime(&tt));
printf("%s\n",timestamp);
return 0;
}
int main()
{
uint64_t Epoch_time=1468496250207;
char str_ms[256];
sprintf(str_ms, "%llu", (Epoch_time/1000));
Cnvrt_To_Time_Frmt(str_ms);
}
It produce result : Thu Jul 14 17:07:30 2016.
But i need to print result with milli seconds. like Thu Jul 14 17:07:30:40 2016.(17 hour,07 minute, 30 second, 40 milliSecond)
How it will be possible?
Type time_t by its definition doesn't represent time with milliseconds resolution, function localtime returns pointer to struct tm which does not include milliseconds, function strftime is not designed to produce strings with milliseconds.
If you need time with milliseconds you can use timeb stucture with its associated ftime function if those are supported by your tool-chain.
Use this as format string:
strftime(timestamp, 64, "%a %b %d %H:%M:%S.XXX %Y", localtime(&tt));
The XXX will be copied as-is into the time string.
Then in main, you can overwrite the Xs with the millisecond count.
sprintf(×tamp[20], "%03u", (unsigned)Epoch_time%1000);
timestamp[23] = ' '; // restore the NUL to space again
After that, refactor your code so the divisions and remainder operations are done inside Cnvrt_To_Time_Frmt. You could use this as prototype:
int msecs_tostr(char *buffer, const char *msecs_since_epoch);
I don't have 50 reps yet so I can't comment so I will write my suggestion as an answer here.
You can use the other guys suggestions they are pretty good or you can make your own struct and a function that converts the mili seconds into time , by using basic math functions.
Make a struct that contains dayOfWeek , month , dayOfMonth , hour, minute, second , milliSecond , year.
Make a convertFunction that will receive a value of milliSeconds that need to be converted to your struct format.
Maybe its not the best way to do it , but if you don't find a way of using existing libraries , make your own .
... need to print result with milli seconds. ... How it will be possible?
Take it step by step
uint64_t Epoch_time=1468496250207;
// Break time into a whole number of seconds and ms fraction
time_t t_unix = Epoch_time/1000;
unsigned t_ms = Epoch_time%1000;
// Convert to YMD HMS structure
struct tm tm = *localtime(&t_unix);
// Form left portion of string
char left[64];
strftime(left, sizeof left, "%a %b %d %H:%M", &tm);
// Form right portion of string
char right[20];
strftime(right, sizeof right, "%Y", &tm);
// Put together with ms
char timestamp[64];
snprintf(timestamp, sizeof timestamp, "%s:%u %s", left, t_ms, right);
// Thu Jul 14 17:07:30:40 2016
// Print as needed
puts(timestamp);
Robust code would add error checking with each function's return value.
[edit]
Evidently OP's time stamp's last 3 digits are a fraction / 512.
unsigned t_fraction = Epoch_time%1000;
...
snprintf(timestamp, sizeof timestamp, "%s:%02u %s", left, t_fraction*100/512, right);
This example program will both retrieve the current timestamp from they system OS, and print it out in human readable format. It is similar to #user:2410359 answer, but a little more concise.
#include <stdio.h>
#include <time.h>
#include <sys/time.h>
/*
* timestamp - read and print the current timestamp
* Wade Ryan 2020-09-27
* compile using: g++ timestamp.cpp -o timestamp
*/
int main(int argc, char **argv) {
char timestamp[24];
struct timeval currentTime;
struct tm ts;
gettimeofday(¤tTime, NULL);
long long epoch = (unsigned long long)(currentTime.tv_sec) * 1000 +
(unsigned long long)(currentTime.tv_usec) / 1000;
strftime(timestamp, sizeof(timestamp), "%F %T", localtime(¤tTime.tv_sec));
printf("epoch %lld ms :: %s.%03ld\n", epoch, timestamp, currentTime.tv_usec/1000);
}
Example output:
epoch 1601259041504 ms :: 2020-09-27 21:10:41.504
It's a simple question, but the solution appears to be far from simple. I would like to know how to convert from UTC to local time. I am looking for a solution in C that's standard and more or less guaranteed to work on any computer at any location.
I have read the following links carefully but I can't find a solution there:
Converting string containing localtime into UTC in C
Converting Between Local Times and GMT/UTC in C/C++
I have tried a number of variations, such as (datetime is a string with time and date in UTC):
strptime(datetime, "%A %B %d %Y %H %M %S", tp);
strftime(printtime, strlen(datetime), "%A %B %d %Y %H %M %S", tp);
Or
strptime(datetime, "%A %B %d %Y %H %M %S", tp);
lt=mktime(tp);
printtime=ctime(<);
No matter what I try printtime ends up being the same as UTC.
Edit 11-29-2013: based on the very helpful answer by "R" below I finally got around to create a working example. I found it to be working correct in the two timezones I tested it, CET and PST:
#include <time.h>
#include <stdio.h>
#include <stdlib.h>
long long diff_tm(struct tm *a, struct tm *b)
{
return a->tm_sec - b->tm_sec
+60LL*(a->tm_min - b->tm_min)
+3600LL*(a->tm_hour - b->tm_hour)
+86400LL*(a->tm_yday - b->tm_yday)
+(a->tm_year-70)*31536000LL
-(a->tm_year-69)/4*86400LL
+(a->tm_year-1)/100*86400LL
-(a->tm_year+299)/400*86400LL
-(b->tm_year-70)*31536000LL
+(b->tm_year-69)/4*86400LL
-(b->tm_year-1)/100*86400LL
+(b->tm_year+299)/400*86400LL;
}
int main()
{
time_t utc, local;
char buf[100];
const char datetime[]="2013 11 30 23 30 26 UTC"; /* hard coded date and time in UTC */
struct tm *tp=malloc(sizeof(struct tm));
if(tp==NULL)
exit(-1);
struct tm *localt=malloc(sizeof(struct tm));
if(localt==NULL)
exit(-1);
memset(tp, 0, sizeof(struct tm));
memset(localt, 0, sizeof(struct tm));
printf("UTC date and time to be converted in local time: %s\n", datetime);
/* put values of datetime into time structure *tp */
strptime(datetime, "%Y %m %d %H %M %S %z", tp);
/* get seconds since EPOCH for this time */
utc=mktime(tp);
printf("UTC date and time in seconds since EPOCH: %d\n", utc);
/* lets convert this UTC date and time to local date and time */
struct tm e0={ .tm_year = 70, .tm_mday = 1 }, e1, new;
/* get time_t EPOCH value for e0 (Jan. 1, 1970) */
time_t pseudo=mktime(&e0);
/* get gmtime for this value */
e1=*gmtime(&pseudo);
/* calculate local time in seconds since EPOCH */
e0.tm_sec += utc - diff_tm(&e1, &e0);
/* assign to local, this can all can be coded shorter but I attempted to increase clarity */
local=e0.tm_sec;
printf("local date and time in seconds since EPOCH: %d\n", local);
/* convert seconds since EPOCH for local time into localt time structure */
localt=localtime(&local);
/* get nicely formatted human readable time */
strftime(buf, sizeof buf, "%Y-%m-%d %H:%M:%S %Z", localt);
printf("local date and time: %s\n", buf);
}
It should compile without problems on most systems. I hard coded a time and date in UTC which then will be converted to the local time and date.
If you can assume POSIX (and thus the POSIX specification of time_t as seconds since the epoch), I would first use the POSIX formula to convert to seconds since the epoch:
tm_sec + tm_min*60 + tm_hour*3600 + tm_yday*86400 +
(tm_year-70)*31536000 + ((tm_year-69)/4)*86400 -
((tm_year-1)/100)*86400 + ((tm_year+299)/400)*86400
Next, use localtime((time_t []){0}) to get a struct tm representing the epoch in local time. Add the seconds since the epoch to the tm_sec field of this struct tm, then call mktime to canonicalize it.
Edit: Actually the only POSIX dependency is having a known epoch which (time_t)0 corresponds to. Perhaps you can find a way around that if you really need to... for instance using calls to both gmtime and localtime at time_t 0..
Edit 2: A sketch of how to do this:
#include <time.h>
#include <stdio.h>
long long diff_tm(struct tm *a, struct tm *b)
{
return a->tm_sec - b->tm_sec
+60LL*(a->tm_min - b->tm_min)
+3600LL*(a->tm_hour - b->tm_hour)
+86400LL*(a->tm_yday - b->tm_yday)
+(a->tm_year-70)*31536000LL
-(a->tm_year-69)/4*86400LL
+(a->tm_year-1)/100*86400LL
-(a->tm_year+299)/400*86400LL
-(b->tm_year-70)*31536000LL
+(b->tm_year-69)/4*86400LL
-(b->tm_year-1)/100*86400LL
+(b->tm_year+299)/400*86400LL;
}
int main(int argc, char **argv)
{
char buf[100];
struct tm e0 = { .tm_year = 70, .tm_mday = 1 }, e1, new;
time_t pseudo = mktime(&e0);
e1 = *gmtime(&pseudo);
e0.tm_sec += atoi(argv[1]) - diff_tm(&e1, &e0);
mktime(&e0);
strftime(buf, sizeof buf, "%c", &e0);
puts(buf);
}
Please don't mind the ugly output code. This program takes an argument in the form of "seconds relative to the POSIX epoch" and outputs the resulting time in local time. You can convert any UTC time to seconds since the epoch using the formula I cited above. Note that this code does not in any way depend on POSIX, but it does assume the offset returned by diff_tm combined with the seconds-since-the-epoch value does not overflow int. A fix for this would be to use a long long offset and a loop that keeps adding increments no larger than INT_MAX/2 (or smaller than INT_MIN/2) and calling mktime to renormalize until the offset reaches 0.
Ahm ... I might just be a beginner in C, but I got this working example:
#include <time.h>
#include <stdio.h>
int main(void)
{
time_t abs_ts,loc_ts,gmt_ts;
struct tm loc_time_info,gmt_time_info;
/*Absolute time stamp.*/
time(&abs_ts);
/*Now get once the local time for this time stamp,
**and once the GMT (UTC without summer time) time stamp.*/
localtime_r(&abs_ts,&loc_time_info);
gmtime_r(&abs_ts,&gmt_time_info);
/*Convert them back.*/
loc_ts=mktime(&loc_time_info);
gmt_ts=mktime(&gmt_time_info);
/*Unfortunately, GMT still has summer time. Get rid of it:*/
if(gmt_time_info.tm_isdst==1)
{gmt_ts-=3600;}
printf("Local timestamp: %lu\n"
"UTC timestamp: %lu\n"
"Difference in hours: %lu\n\n",
loc_ts,
gmt_ts,
(loc_ts-gmt_ts)/3600);
return 0;
}
Which produces this output:
Local timestamp: 1412554119
GMT timestamp: 1412546919
Difference in hours: 2
Now you have the difference between UTC and local time in seconds. That should be enough to convert it.
One note to your code, aseq: you are using malloc without need here (you can memset values on the stack as well, and malloc can be expensive while stack allocation is often much faster), and you do not free it. That's very, very bad practise.
Another thing:
memset(tp, 0, sizeof(struct tm));
Would be better done if you'd pass sizeof(*tp) (or, if you put tp on the stack, sizeof(tp)) to memset. That ensures that even if the type of your object changes, it will still be fully memset.
To sum-up: the conversion of a broken down date (struct tm) in UTC to a (local) calendar time (time_t) is achieved with timegm() - the opposite of mktime() - BUT timegm() is not a standard function (how logic is that).
The C standard leaves us with only time(), gmtime(), mktime() and difftime().
A workaround found in other docs advises to emulate timegm() by setting first the environment variable TZ to a null string, then calling mktime() resulting in an UTC calendar time, then resetting TZ to its initial value, but once again, this is not standard.
Basically, as I understand it, the difference between a local time and UTC time is just an offset so if we can evaluate that offset, we can adjust the result of mktime(), so here's my proposition:
time_t my_timegm(struct tm *tm) {
time_t epoch = 0;
time_t offset = mktime(gmtime(&epoch));
time_t utc = mktime(tm);
return difftime(utc, offset);
}
A quick test:
int main(void) {
time_t now = time(0);
struct tm local = *localtime(&now);
struct tm utc = *gmtime(&now);
time_t t1 = mktime(&local);
time_t t2 = my_timegm(&utc);
assert(t1 == t2);
printf("t =%lu\nt1=%lu\nt2=%lu\n",now,t1,t2);
return 0;
}
//working stand alone function adjusting UTC to local date and time
//globals(unsigned integers): gps.Mth, gps.Yr, gps.Hm (eg:2115 for 21:15)
//adjust date and time according to UTC
//tz(timezone) eg: 1100, for 11 hours, tzdir: 1 forward, 0 backwards
void AdjustUTCToTimeZone(u16 tz, u8 tzdir){
u8 maxDayInAnyMonth[13] = {0,31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31}; //gps.Mth 1-12 (not zero)
if(gps.Yr%4==0){maxDayInAnyMonth[2]=29;}//adjust for leapyear
u8 maxDayUtcMth =maxDayInAnyMonth[gps.Mth];
u8 maxDayPrevMth=maxDayInAnyMonth[gps.Mth-1];
if(!maxDayPrevMth){maxDayPrevMth=31;} //month before utc month
u16 hr=(gps.Hm/100)*100;u16 m=gps.Hm-hr; //2115 --> 2100 hr and 15 min
if(tzdir){//adjusting forwards
tz+=gps.Hm;
if(tz>2400){gps.Hm=tz-2400;gps.Day++; //spill over to next day
if(gps.Day>maxDayUtcMth){ gps.Day=1;gps.Mth++; //spill over to next month
if(gps.Mth>12){gps.Mth=1; gps.Yr++; //spill over to next year
}
}
}else{gps.Hm=tz;}
}else{//adjusting backwards
if(tz>gps.Hm){gps.Hm=(2400-(tz-hr))+m;gps.Day--; // back to previous day
if(gps.Day==0){ //back to previous month
gps.Mth--;gps.Day=maxDayPrevMth;
if(!gps.Mth){gps.Mth=12; //back to previous year
gps.Yr--;
}
}
}else{gps.Hm-=tz;}
}
}
I think it's easier than that; time.h defines three variables:
extern int daylight;
extern long timezone;
extern char *tzname[];
which are loaded based on the TZ env variable when you call
tzset();
if you have a utc time in
struct tm date;
date.tm_isdst = 0;
convert it to a time_t using mktime
time_t utc = mktime( &date );
then convert it to local time
time_t local = utc - timezone + ( daylight?3600:0 );
timezone is the number of seconds away from utc for the current timezone and daylight is 1 to indicate daylight savings time is in play and zero for not.
A small caution: When I coded this for a microcontroller and cross compiled, it's time.h defined those variables with initial underscores.
See the man page for time.h
I found that the solution the OP gave did not work in cases when DST applies. For example, in my case, at the current time, DST was not in effect, but if I set the initial date which should convert to local time with DST, then it would not work, i.e. today's date is 3/1/2018 and DST is not in effect, but if I set the date for conversion to, say, 8/1/2018 0:00:00 when DST is in effect, then the solution given would convert to local time, but would not take DST into account. I found that initializing e0 to the date and hour of the initial date/time string and its member tm_isdst to -1 solved the problem. I then created the following program with complementary functions which you can include in your code. The initial format of the date and time is the same that MySQL uses, because I needed it for such purposes.
#include <stdio.h>
#include <time.h>
#include <string.h>
long long diff_tm(struct tm *a, struct tm *b) {
return a->tm_sec - b->tm_sec
+ 60LL * (a->tm_min - b->tm_min)
+ 3600LL * (a->tm_hour - b->tm_hour)
+ 86400LL * (a->tm_yday - b->tm_yday)
+ (a->tm_year - 70) * 31536000LL
- (a->tm_year - 69) / 4 * 86400LL
+ (a->tm_year - 1) / 100 * 86400LL
- (a->tm_year + 299) / 400 * 86400LL
- (b->tm_year - 70) * 31536000LL
+ (b->tm_year - 69) / 4 * 86400LL
- (b->tm_year - 1) / 100 * 86400LL
+ (b->tm_year + 299) /400 * 86400LL;
}
void localToUTC(char *buf, const char *localTime) {
struct tm tp;
strptime(localTime, "%Y-%m-%d %H:%M:%S", &tp);
tp.tm_isdst = -1;
time_t utc = mktime(&tp);
struct tm res = *gmtime(&utc);
strftime(buf, 20, "%Y-%m-%d %H:%M:%S", &res);
}
void utcToLocal(char *buf, const char *utcTime) {
struct tm tp;
strptime(utcTime, "%Y-%m-%d %H:%M:%S", &tp);
tp.tm_isdst = -1;
time_t utc = mktime(&tp);
struct tm e0 = { .tm_year = tp.tm_year, .tm_mday = tp.tm_mday, .tm_mon = tp.tm_mon, .tm_hour = tp.tm_hour, .tm_isdst = -1 };
time_t pseudo = mktime(&e0);
struct tm e1 = *gmtime(&pseudo);
e0.tm_sec += utc - diff_tm(&e1, &e0);
time_t local = e0.tm_sec;
struct tm localt = *localtime(&local);
strftime(buf, 20, "%Y-%m-%d %H:%M:%S", &localt);
}
int main(void) {
char mytime_1[20] = "2018-02-28 13:00:00";
char utctime_1[20], back_1[20];
localToUTC(utctime_1, mytime_1);
utcToLocal(back_1, utctime_1);
printf("My time: %s\n", mytime_1);
printf("UTC time: %s\n", utctime_1);
printf("Back: %s\n", back_1);
printf("-------------------------------------------\n");
char mytime_2[20] = "2018-07-28 17:00:00";
char utctime_2[20], back_2[20];
localToUTC(utctime_2, mytime_2);
utcToLocal(back_2, utctime_2);
printf("My time: %s\n", mytime_2);
printf("UTC time: %s\n", utctime_2);
printf("Back: %s\n", back_2);
printf("-------------------------------------------\n");
return 0;
}
I followed the answer by #Dachschaden and I made an example which also shows human-readable output and I remove the DST option for the difference in seconds between UTC and local time. Here it is:
#include <time.h>
#include <stdio.h>
#define DATE_MAX_STR_SIZE 26
#define DATE_FMT "%FT%TZ%z"
int main() {
time_t now_time, now_time_local;
struct tm now_tm_utc, now_tm_local;
char str_utc[DATE_MAX_STR_SIZE];
char str_local[DATE_MAX_STR_SIZE];
time(&now_time);
gmtime_r(&now_time, &now_tm_utc);
localtime_r(&now_time, &now_tm_local);
/* human readable */
strftime(str_utc, DATE_MAX_STR_SIZE, DATE_FMT, &now_tm_utc);
strftime(str_local, DATE_MAX_STR_SIZE, DATE_FMT, &now_tm_local);
printf("\nUTC: %s", str_utc);
printf("\nLOCAL: %s\n", str_local);
/* seconds (epoch) */
/* let's forget about DST for time difference calculation */
now_tm_local.tm_isdst = 0;
now_tm_utc.tm_isdst = 0;
now_time_local = now_time + (mktime(&now_tm_local) - mktime(&now_tm_utc));
printf("\nUTC in seconds: %lu", now_time);
printf("\nLOCAL in seconds: %lu\n", now_time_local);
return 0;
}
Output on my machine is:
UTC: 2016-05-05T15:39:11Z-0500
LOCAL: 2016-05-05T11:39:11Z-0400
UTC in seconds: 1462462751
LOCAL in seconds: 1462448351
Note that DST is on in this case (there's a 1 hour time zone offset difference between UTC and LOCAL).
try this, test output:
utcEpochTime: 1487652688, localEpochTime: 1487699488, diff: 46800
$ python
>>>46800 / 60 / 60
13
the diff is 13 hours, which is good, as my timezone is UTC+8.
#include <stdio.h>
#include <time.h>
int main(int argc, char *argv[])
{
time_t utcEpochTime = time(0);
time_t localEpochTime = 0;
struct tm tm = {0};
localtime_r(&utcEpochTime, &tm);
tm.tm_isdst = -1;
localEpochTime = timegm(&tm);
printf("utcEpochTime: %d, localEpochTime: %d, diff: %d\n", (int)utcEpochTime, (int)localEpochTime, (int)(localEpochTime - utcEpochTime));
return 0;
}
A simple and effective way: Add (or subtract) the number of seconds between your time zone and UTC (considering daylight saving time).
As an example that worked just fine a minute ago, on December 30, 2017, with U.S. Mountain Standard Time (no DST), which is 7 hours behind UTC:
time_t current_time_UTC;
time_t current_time_MST;
struct tm *current_broken_time_MST;
uint32_t seven_hours_in_seconds = 25200; // Get this any way you want
current_time_UTC = time (NULL); // UTC
current_time_MST = current_time_UTC - seven_hours_in_seconds; // MST
current_broken_time_MST = localtime (¤t_time_MST); // MST
Enjoy.
void CTestDlg::OnBtnTest()
{
HANDLE hFile;
WIN32_FIND_DATA wfd;
SYSTEMTIME systime;
FILETIME localtime;
char stime[32]; //
memset(&wfd, 0, sizeof(wfd));
if((hFile=FindFirstFile( "F:\\VC\\MFC\\Test\\Release\\Test.exe ", &wfd))==INVALID_HANDLE_VALUE)
{
char c[2];
DWORD dw=GetLastError();
wsprintf(c, "%d ", dw);
AfxMessageBox(c);
return ;//
}
FileTimeToLocalFileTime(&wfd.ftLastWriteTime,&localtime);
FileTimeToSystemTime(&localtime,&systime);
sprintf(stime, "%4d-%02d-%02d %02d:%02d:%02d ",
systime.wYear,systime.wMonth,systime.wDay,systime.wHour,
systime.wMinute,systime.wSecond);
AfxMessageBox(stime);
}
How do I create a UTC time in C for the following date:
1st July 2038
using standard ANSI C function calls (given that the tm_year element of the tm structure cannot be greater than 137) ?
You don't. The 32-bit ANSI C time_t rolls over in 2038. It's like asking how you create July 23, 2003 in your old 2-digit-year COBOL system.
Others have noted that the particular date you give as an example falls beyond the maximum date/time representable by a 32-bit time_t, often referred to as the Year 2038 problem. One solution is to use a 64-bit time_t, which some 64-bit POSIX systems do (linux amd64), and call mktime.
#include <time.h>
#include <stdio.h>
#include <stdlib.h>
int main(void)
{
struct tm future; /* as in future date */
time_t t;
future.tm_sec = 0;
future.tm_min = 0;
future.tm_hour = 0;
future.tm_mday = 1; /* 1st */
future.tm_mon = 6; /* July */
future.tm_year = 2038 - 1900; /* 2038 in years since 1900 */
future.tm_isdst = 0; /* Daylight Saving not in affect (UTC) */
#ifdef _BSD_SOURCE
future.tm_zone = "UTC";
#endif
t = mktime( &future );
if ( -1 == t ) {
printf("Error converting 1 July 2038 to time_t time since Epoch\n");
return EXIT_FAILURE;
}
printf("UTC time and date: %s\n", asctime( &future ) );
return EXIT_SUCCESS;
}
You can try, making use of the following example :
#include <time.h>
#include <stdio.h>
int main(void)
{
struct tm *local;
time_t t;
t = time(NULL);
local = localtime(&t);
printf("Local time and date: %s\n", asctime(local));
local = gmtime(&t);
printf("UTC time and date: %s\n", asctime(local));
return 0;
}
It should give you, the expected result.
the scenario is: I get datetime in format "YYYY-MM-DD HH:MM:SS" with libexif. To minimize the saving cost, I wanna convert the datetime to unix timestamp or alike which only cost 64bit or 32bit. Is there any explicit way with c?
You could try a combination of strptime and mktime
struct tm tm;
time_t epoch;
if ( strptime(timestamp, "%Y-%m-%d %H:%M:%S", &tm) != NULL )
epoch = mktime(&tm);
else
// badness
Convert each part of the date/time into an integer to populate a struct tm, then convert that into a time_t using mktime.
Here is a wired solution in c/pseudo code I just hacked together. Good luck!
char * runner = NULL;
char *string_orig = "YYYY-MM-DD HH:MM:SS";
time_t time = 0;
struct tm tmp;
use strstr(string_orig, "-") and atoi foreach
tmp->tm_year ..
tmp->tm_mon ..
tmp->tm_mday ..
tmp->tm_hour ..
tmp->tm_min ..
tmp->tm_sec ..
with *runner as help
time = mktime(&tm)
What about sscanf?
struct tm tmVar;
char *strVar = "YYYY-MM-DD HH:MM:SS";
time_t timeVar;
if(sscanf(strVar, "%d-%d-%d %d:%d:%d", &tm.tm_year, /* the other fields */)==6)
timeVar = mktime(&tmVar);
else
// bad format
Here's a ready snippet when strptime is not available:
#include <stddef.h>
#include <time.h>
#include <stdio.h>
time_t string_to_seconds(const char *timestamp_str)
{
struct tm tm;
time_t seconds;
int r;
if (timestamp_str == NULL) {
printf("null argument\n");
return (time_t)-1;
}
r = sscanf(timestamp_str, "%d-%d-%d %d:%d:%d", &tm.tm_year, &tm.tm_mon, &tm.tm_mday, &tm.tm_hour, &tm.tm_min, &tm.tm_sec);
if (r != 6) {
printf("expected %d numbers scanned in %s\n", r, timestamp_str);
return (time_t)-1;
}
tm.tm_year -= 1900;
tm.tm_mon -= 1;
tm.tm_isdst = 0;
seconds = mktime(&tm);
if (seconds == (time_t)-1) {
printf("reading time from %s failed\n", timestamp_str);
}
return seconds;
}
Adjust youself a string in sscanf to what you need. To ignore time zone and convert always as GMT/UTC substract a timezone (or _timezone) from seconds (timezone global is defined in time.h. DST is already ignored by zeroing tm_isdst field of tm.
Linux supports the getdate() function, which I think is more practical than calling strptime() directly. This is because the getdate() function automatically checks many formats for you. It is an equivalent to calling strptime() with various formats until the function works or all formats were tested.
// setenv() should be called only once
setenv("DATEMSK", "/usr/share/myprog/datemsk.fmt", 0);
// convert a date
struct tm * t1(getdate("2018-03-31 14:35:46"));
if(t1 == nullptr) ...handle error...
time_t date1(timegm(t1));
// convert another date
struct tm * t2(getdate("03/31/2018 14:35:46"));
if(t2 == nullptr) ...handle error...
time_t date2(timegm(t2));
Note: timegm() is similar to mktime() except that it ignores the locale and uses UTC. In most cases that's the right way to convert your dates.
The datemsk.fmt file would include at least these two formats to support the above dates:
%Y-%b-%d %H:%M:%S
%b/%d/%Y %H:%M:%S
The number of supported formats is not limited, although you may not want to have too many. It's going to be rather slow if you have too many formats. You could also dynamically manage your formats and call strptime() in a loop.
Linux also offers a getdate_r() function which is thread safe.
Man Page: http://pubs.opengroup.org/onlinepubs/7908799/xsh/getdate.html
for anyone using gcc, following code is working for me:
#define YEAR_OFFSET 1900
struct tm* dt = (struct tm*)malloc(sizeof(struct tm));
char *strVar = "2022-08-13 23:09:47"; //! "YYYY-MM-DD HH:MM:SS"
time_t timeVar;
if(sscanf(strVar, "%d-%hhd-%hhd %hhd:%hhd:%hhd", &dt->tm_year, &dt->tm_mon, &dt->tm_mday, &dt->tm_hour, &dt->tm_min, &dt->tm_sec)==6)
{
dt->tm_year -= YEAR_OFFSET;
dt->tm_mon -= 1;
timeVar = mktime(&tmVar);
}
else
;// bad format
free(dt);