I print the start and end time using date +"%T", which results in something like:


How could I calculate and print the difference between these two?

I would like to get something like:

2m 14s
  • 5
    On another note, could you not use the time command?
    – anishsane
    Oct 11 '13 at 5:57
  • 1
    Use unix time instead, date +%s , then subtract to get the difference in seconds.
    – roblogic
    Apr 21 '17 at 4:07

19 Answers 19


Bash has a handy SECONDS builtin variable that tracks the number of seconds that have passed since the shell was started. This variable retains its properties when assigned to, and the value returned after the assignment is the number of seconds since the assignment plus the assigned value.

Thus, you can just set SECONDS to 0 before starting the timed event, simply read SECONDS after the event, and do the time arithmetic before displaying.

#!/usr/bin/env bash

# do some work
echo "$(($duration / 60)) minutes and $(($duration % 60)) seconds elapsed."

As this solution doesn't depend on date +%s (which is a GNU extension), it's portable to all systems supported by Bash.

  • 64
    +1. Incidentally, you can trick date into performing the time arithmetic for you, by writing date -u -d @"$diff" +'%-Mm %-Ss'. (That interprets $diff as seconds-since-the-epoch, and computes the minutes and seconds in UTC.) That's probably not any more elegant, though, just better obfuscated. :-P
    – ruakh
    Jan 17 '12 at 23:58
  • 14
    Nice and simple. If someone needs hours: echo "$(($diff / 3600)) hours, $((($diff / 60) % 60)) minutes and $(($diff % 60)) seconds elapsed."
    – chus
    May 19 '15 at 10:13
  • 7
    It should read $(date -u +%s) to prevent a race condition on dates where the daylight saving time is switched. And beware of the evil leap seconds ;)
    – Tino
    Oct 21 '15 at 9:53
  • 3
    @daniel-kamil-kozar Nice find. However this is a bit fragile. There is only one such variable, so it cannot be used recursively to measure performance, and even worse, after unset SECONDS it is gone: echo $SECONDS; unset SECONDS; SECONDS=0; sleep 3; echo $SECONDS
    – Tino
    Dec 15 '15 at 7:28
  • 7
    @ParthianShot : I'm sorry that you think so. However, I believe that this answer is what most people need while searching for answers to a question like this one : to measure how much time passed between events, not to calculate time. Feb 23 '16 at 14:42


To measure elapsed time (in seconds) we need:

  • an integer that represents the count of elapsed seconds and
  • a way to convert such integer to an usable format.

An integer value of elapsed seconds:

  • There are two bash internal ways to find an integer value for the number of elapsed seconds:

    1. Bash variable SECONDS (if SECONDS is unset it loses its special property).

      • Setting the value of SECONDS to 0:

        sleep 1  # Process to execute
      • Storing the value of the variable SECONDS at the start:

        sleep 1  # Process to execute
        elapsedseconds=$(( SECONDS - a ))
    2. Bash printf option %(datefmt)T:

      a="$(TZ=UTC0 printf '%(%s)T\n' '-1')"    ### `-1`  is the current time
      sleep 1                                  ### Process to execute
      elapsedseconds=$(( $(TZ=UTC0 printf '%(%s)T\n' '-1') - a ))

Convert such integer to an usable format

The bash internal printf can do that directly:

$ TZ=UTC0 printf '%(%H:%M:%S)T\n' 12345


$ elapsedseconds=$((12*60+34))
$ TZ=UTC0 printf '%(%H:%M:%S)T\n' "$elapsedseconds"

but this will fail for durations of more than 24 hours, as we actually print a wallclock time, not really a duration:

$ hours=30;mins=12;secs=24
$ elapsedseconds=$(( ((($hours*60)+$mins)*60)+$secs ))
$ TZ=UTC0 printf '%(%H:%M:%S)T\n' "$elapsedseconds"

For the lovers of detail, from bash-hackers.org:

%(FORMAT)T outputs the date-time string resulting from using FORMAT as a format string for strftime(3). The associated argument is the number of seconds since Epoch, or -1 (current time) or -2 (shell startup time). If no corresponding argument is supplied, the current time is used as default.

So you may want to just call textifyDuration $elpasedseconds where textifyDuration is yet another implementation of duration printing:

textifyDuration() {
   local duration=$1
   local shiff=$duration
   local secs=$((shiff % 60));  shiff=$((shiff / 60));
   local mins=$((shiff % 60));  shiff=$((shiff / 60));
   local hours=$shiff
   local splur; if [ $secs  -eq 1 ]; then splur=''; else splur='s'; fi
   local mplur; if [ $mins  -eq 1 ]; then mplur=''; else mplur='s'; fi
   local hplur; if [ $hours -eq 1 ]; then hplur=''; else hplur='s'; fi
   if [[ $hours -gt 0 ]]; then
      txt="$hours hour$hplur, $mins minute$mplur, $secs second$splur"
   elif [[ $mins -gt 0 ]]; then
      txt="$mins minute$mplur, $secs second$splur"
      txt="$secs second$splur"
   echo "$txt (from $duration seconds)"

GNU date.

To get formated time we should use an external tool (GNU date) in several ways to get up to almost a year length and including Nanoseconds.

Math inside date.

There is no need for external arithmetic, do it all in one step inside date:

date -u -d "0 $FinalDate seconds - $StartDate seconds" +"%H:%M:%S"

Yes, there is a 0 zero in the command string. It is needed.

That's assuming you could change the date +"%T" command to a date +"%s" command so the values will be stored (printed) in seconds.

Note that the command is limited to:

  • Positive values of $StartDate and $FinalDate seconds.
  • The value in $FinalDate is bigger (later in time) than $StartDate.
  • Time difference smaller than 24 hours.
  • You accept an output format with Hours, Minutes and Seconds. Very easy to change.
  • It is acceptable to use -u UTC times. To avoid "DST" and local time corrections.

If you must use the 10:33:56 string, well, just convert it to seconds,
also, the word seconds could be abbreviated as sec:

StartDate=$(date -u -d "$string1" +"%s")
FinalDate=$(date -u -d "$string2" +"%s")
date -u -d "0 $FinalDate sec - $StartDate sec" +"%H:%M:%S"

Note that the seconds time conversion (as presented above) is relative to the start of "this" day (Today).

The concept could be extended to nanoseconds, like this:

StartDate=$(date -u -d "$string1" +"%s.%N")
FinalDate=$(date -u -d "$string2" +"%s.%N")
date -u -d "0 $FinalDate sec - $StartDate sec" +"%H:%M:%S.%N"

If is required to calculate longer (up to 364 days) time differences, we must use the start of (some) year as reference and the format value %j (the day number in the year):

Similar to:

string1="+10 days 10:33:56.5400022"
string2="+35 days 10:36:10.8800056"
StartDate=$(date -u -d "2000/1/1 $string1" +"%s.%N")
FinalDate=$(date -u -d "2000/1/1 $string2" +"%s.%N")
date -u -d "2000/1/1 $FinalDate sec - $StartDate sec" +"%j days %H:%M:%S.%N"

026 days 00:02:14.340003400

Sadly, in this case, we need to manually subtract 1 ONE from the number of days. The date command view the first day of the year as 1. Not that difficult ...

a=( $(date -u -d "2000/1/1 $FinalDate sec - $StartDate sec" +"%j days %H:%M:%S.%N") )
a[0]=$((10#${a[0]}-1)); echo "${a[@]}"

The use of long number of seconds is valid and documented here:

Busybox date

A tool used in smaller devices (a very small executable to install): Busybox.

Either make a link to busybox called date:

$ ln -s /bin/busybox date

Use it then by calling this date (place it in a PATH included directory).

Or make an alias like:

$ alias date='busybox date'

Busybox date has a nice option: -D to receive the format of the input time. That opens up a lot of formats to be used as time. Using the -D option we can convert the time 10:33:56 directly:

date -D "%H:%M:%S" -d "10:33:56" +"%Y.%m.%d-%H:%M:%S"

And as you can see from the output of the Command above, the day is assumed to be "today". To get the time starting on epoch:

$ string1="10:33:56"
$ date -u -D "%Y.%m.%d-%H:%M:%S" -d "1970.01.01-$string1" +"%Y.%m.%d-%H:%M:%S"

Busybox date can even receive the time (in the format above) without -D:

$ date -u -d "1970.01.01-$string1" +"%Y.%m.%d-%H:%M:%S"

And the output format could even be seconds since epoch.

$ date -u -d "1970.01.01-$string1" +"%s"

For both times, and a little bash math (busybox can not do the math, yet):

t1=$(date -u -d "1970.01.01-$string1" +"%s")
t2=$(date -u -d "1970.01.01-$string2" +"%s")
echo $(( t2 - t1 ))

Or formatted:

$ date -u -D "%s" -d "$(( t2 - t1 ))" +"%H:%M:%S"
  • 7
    This is such an amazing answer covered a lot of bases and with fine explanations. Thank you!
    – Devy
    Jun 23 '16 at 20:49
  • I had to look up the %(FORMAT)T string passed to the printf command integrated in bash. From bash-hackers.org: %(FORMAT)T output the date-time string resulting from using FORMAT as a format string for strftime(3). The associated argument is the number of seconds since Epoch, or -1 (current time) or -2 (shell startup time). If no corresponding argument is supplies, the current time is used as default. That's esoteric. In this case, %s as given to strftime(3) is "the number of seconds since the epoch". May 26 '18 at 9:24

Here is how I did it:

START=$(date +%s);
sleep 1; # Your stuff
END=$(date +%s);
echo $((END-START)) | awk '{print int($1/60)":"int($1%60)}'

Really simple, take the number of seconds at the start, then take the number of seconds at the end, and print the difference in minutes:seconds.

  • 6
    How is that any different from my solution? I really can't see the benefit from calling awk in this case, since Bash handles integer arithmetic equally well. Dec 21 '13 at 11:35
  • 1
    Your answer is correct too. Some people, like me, prefer to work with awk than with bash inconsistencies.
    – Dorian
    Dec 22 '13 at 18:36
  • 2
    Could you elaborate some more about the inconsistencies in Bash concerning integer arithmetic? I'd like to know more about this, since I wasn't aware of any. Dec 22 '13 at 19:00
  • 12
    I was just looking for this. I don't understand the criticism to this answer. I like to see more than one solution to a problem. And, I am one that prefers awk commands to bash (if for nothing else, because awk works in other shells). I liked this solution better. But that is my personal opinion.
    – rpsml
    Jun 25 '14 at 8:16
  • 4
    Leading zeros: echo $((END-START)) | awk '{printf "%02d:%02d\n",int($1/60), int($1%60)}' Aug 4 '14 at 20:07

Another option is to use datediff from dateutils (http://www.fresse.org/dateutils/#datediff):

$ datediff 10:33:56 10:36:10
$ datediff 10:33:56 10:36:10 -f%H:%M:%S
$ datediff 10:33:56 10:36:10 -f%0H:%0M:%0S

You could also use gawk. mawk 1.3.4 also has strftime and mktime but older versions of mawk and nawk don't.

$ TZ=UTC0 awk 'BEGIN{print strftime("%T",mktime("1970 1 1 10 36 10")-mktime("1970 1 1 10 33 56"))}'

Or here's another way to do it with GNU date:

$ date -ud@$(($(date -ud'1970-01-01 10:36:10' +%s)-$(date -ud'1970-01-01 10:33:56' +%s))) +%T
  • 1
    I was looking for something like your GNU date method. Genius.
    – Haohmaru
    Aug 7 '17 at 11:12
  • Please delete my comment...sorry
    – Bill Gale
    Feb 7 '18 at 18:13
  • After installing dateutils via apt, there was no datediff command - had to use dateutils.ddiff.
    – Suzana
    Mar 10 '20 at 14:48

I'd like to propose another way that avoid recalling date command. It may be helpful in case if you have already gathered timestamps in %T date format:

  read -r h m s <<< $(echo $1 | tr ':' ' ' )
  echo $(((h*60*60)+(m*60)+s))


START=$(ts_get_sec $start_ts)
STOP=$(ts_get_sec $stop_ts)

echo "$((DIFF/60))m $((DIFF%60))s"

we can even handle millisecondes in the same way.

  read -r h m s ms <<< $(echo $1 | tr '.:' ' ' )
  echo $(((h*60*60*1000)+(m*60*1000)+(s*1000)+ms))


START=$(ts_get_msec $start_ts)
STOP=$(ts_get_msec $stop_ts)


echo "${min}:${sec}.$ms"
  • 1
    Is there a way to handle millisecons, e.g. 10:33:56.104 May 21 '14 at 7:08
  • Millisecond handling misbehaves if the millisecond field begins with a zero. For instance ms="033" will give trailing digits of "027" because the ms field is being interpreted as octal. changing "echo" ... "+ms))" to ... "+${ms##+(0)}))" will fix this as long as "shopt -s extglob" appears somewhere above this in the script. One should probably strip leading zeroes from h, m, and s as well... Jul 8 '15 at 21:23
  • 3
    echo $(((60*60*$((10#$h)))+(60*$((10#$m)))+$((10#$s)))) worked for me since I got value too great for base (error token is "08")
    – Niklas
    Mar 1 '16 at 15:12

Here's some magic:

time2=$( date +%H:%M ) # 16:00
diff=$(  echo "$time2 - $time1"  | sed 's%:%+(1/60)*%g' | bc -l )
echo $diff hours
# outputs 1.5 hours

sed replaces a : with a formula to convert to 1/60. Then the time calculation that is made by bc


As of date (GNU coreutils) 7.4 you can now use -d to do arithmetic :

$ date -d -30days
Sat Jun 28 13:36:35 UTC 2014

$ date -d tomorrow
Tue Jul 29 13:40:55 UTC 2014

The units you can use are days, years, months, hours, minutes, and seconds :

$ date -d tomorrow+2days-10minutes
Thu Jul 31 13:33:02 UTC 2014

Following on from Daniel Kamil Kozar's answer, to show hours/minutes/seconds:

echo "Duration: $(($DIFF / 3600 )) hours $((($DIFF % 3600) / 60)) minutes $(($DIFF % 60)) seconds"

So the full script would be:

date1=$(date +"%s")
date2=$(date +"%s")
echo "Duration: $(($DIFF / 3600 )) hours $((($DIFF % 3600) / 60)) minutes $(($DIFF % 60)) seconds"
% start=$(date +%s)
% echo "Diff: $(date -d @$(($(date +%s)-$start)) +"%M minutes %S seconds")"
Diff: 00 minutes 11 seconds
  • 6
    It would be helpful to know what this answer does that the other answers don't do.
    – Louis
    Dec 21 '13 at 15:58
  • It lets you easily output the duration in any format allowed by date. Apr 22 '15 at 21:18

Or wrap it up a bit

alias timerstart='starttime=$(date +"%s")'
alias timerstop='echo seconds=$(($(date +"%s")-$starttime))'

Then this works.

timerstart; sleep 2; timerstop

Here is a solution using only the date commands capabilities using "ago", and not using a second variable to store the finish time:


# save the current time
start_time=$( date +%s.%N )

# tested program
sleep 1

# the current time after the program has finished
# minus the time when we started, in seconds.nanoseconds
elapsed_time=$( date +%s.%N --date="$start_time seconds ago" )

echo elapsed_time: $elapsed_time

this gives:

$ ./time_elapsed.sh 
elapsed_time: 1.002257120

START_TIME=$(date +%s)

sleep 4

echo "Total time elapsed: $(date -ud "@$(($(date +%s) - $START_TIME))" +%T) (HH:MM:SS)"
$ ./total_time_elapsed.sh 
Total time elapsed: 00:00:04 (HH:MM:SS)

date can give you the difference and format it for you (OS X options shown)

date -ujf%s $(($(date -jf%T "10:36:10" +%s) - $(date -jf%T "10:33:56" +%s))) +%T
# 00:02:14

date -ujf%s $(($(date -jf%T "10:36:10" +%s) - $(date -jf%T "10:33:56" +%s))) \
    +'%-Hh %-Mm %-Ss'
# 0h 2m 14s

Some string processing can remove those empty values

date -ujf%s $(($(date -jf%T "10:36:10" +%s) - $(date -jf%T "10:33:56" +%s))) \
    +'%-Hh %-Mm %-Ss' | sed "s/[[:<:]]0[hms] *//g"
# 2m 14s

This won't work if you place the earlier time first. If you need to handle that, change $(($(date ...) - $(date ...))) to $(echo $(date ...) - $(date ...) | bc | tr -d -)


Generalizing @nisetama's solution using GNU date (trusty Ubuntu 14.04 LTS):

# <processing code>
duration=`date -ud@$(($(date -ud"$stop" +%s)-$(date -ud"$start" +%s))) +%T`

echo $start
echo $stop
echo $duration


Wed Feb 7 12:31:16 CST 2018
Wed Feb 7 12:32:25 CST 2018

I needed a time difference script for use with mencoder (its --endpos is relative), and my solution is to call a Python script:

$ ./timediff.py 1:10:15 2:12:44

fractions of seconds are also supported:

$ echo "diff is `./timediff.py 10:51.6 12:44` (in hh:mm:ss format)"
diff is 0:01:52.4 (in hh:mm:ss format)

and it can tell you that the difference between 200 and 120 is 1h 20m:

$ ./timediff.py 120:0 200:0

and can convert any (probably fractional) number of seconds or minutes or hours to hh:mm:ss

$ ./timediff.py 0 3600
$ ./timediff.py 0 3.25:0:0



import sys

def x60(h,m):
    return 60*float(h)+float(m)

def seconds(time):
       h,m,s = time.split(':')
       return x60(x60(h,m),s)
    except ValueError:
          m,s = time.split(':')
          return x60(m,s)
       except ValueError:
          return float(time)

def difftime(start, end):
    d = seconds(end) - seconds(start)
    print '%d:%02d:%s' % (d/3600,d/60%60,('%02f' % (d%60)).rstrip('0').rstrip('.'))

if __name__ == "__main__":

With GNU units:

$ units
2411 units, 71 prefixes, 33 nonlinear units
You have: (10hr+36min+10s)-(10hr+33min+56s)
You want: s
    * 134
    / 0.0074626866
You have: (10hr+36min+10s)-(10hr+33min+56s)
You want: min
    * 2.2333333
    / 0.44776119

Define this function (say in ~/.bashrc):

time::clock() {
    [ -z "$ts" ]&&{ ts=`date +%s%N`;return;}||te=`date +%s%N`
    printf "%6.4f" $(echo $((te-ts))/1000000000 | bc -l)
    unset ts te

Now you can measure time of parts of your scripts:

$ cat script.sh
# ... code ...
sleep 0.5
echo "Total time: ${time::clock}"
# ... more code ...

$ ./script.sh
Total time: 0.5060

very useful to find execution bottlenecks.


I realize this is an older post, but I came it across it today while working on a script that would take dates and times from a log file and compute the delta. The script below is certainly overkill, and I highly recommend checking my logic and maths.



#firstEntry="$(head -n 1 "$LOG" | sed 's/.*] \([0-9: -]\+\).*/\1/')"
firstEntry="2013-01-16 01:56:37"
#lastEntry="$(tac "$LOG" | head -n 1 | sed 's/.*] \([0-9: -]\+\).*/\1/')"
lastEntry="2014-09-17 18:24:02"

# I like to make the variables easier to parse
firstEntry="${firstEntry//-/ }"
lastEntry="${lastEntry//-/ }"
firstEntry="${firstEntry//:/ }"
lastEntry="${lastEntry//:/ }"

# remove the following lines in production
echo "$lastEntry"
echo "$firstEntry"

# compute days in last entry
for i in `seq 1 $(echo $lastEntry|awk '{print $2}')`; do {
  case "$i" in
   1|3|5|7|8|10|12 )
   4|6|9|11 )
   2 )
} done

# do leap year calculations for all years between first and last entry
for i in `seq $(echo $firstEntry|awk '{print $1}') $(echo $lastEntry|awk '{print $1}')`; do {
  if [ $(($i%4)) -eq 0 ] && [ $(($i%100)) -eq 0 ] && [ $(($i%400)) -eq 0 ]; then {
    if [ "$i" = "$(echo $firstEntry|awk '{print $1}')" ] && [ $(echo $firstEntry|awk '{print $2}') -lt 2 ]; then {
    } elif [ $(echo $firstEntry|awk '{print $2}') -eq 2 ] && [ $(echo $firstEntry|awk '{print $3}') -lt 29 ]; then {
    } fi
  } elif [ $(($i%4)) -eq 0 ] && [ $(($i%100)) -ne 0 ]; then {
    if [ "$i" = "$(echo $lastEntry|awk '{print $1}')" ] && [ $(echo $lastEntry|awk '{print $2}') -gt 2 ]; then {
    } elif [ $(echo $lastEntry|awk '{print $2}') -eq 2 ] && [ $(echo $lastEntry|awk '{print $3}') -ne 29 ]; then {
    } fi
  } fi
} done

# substract days in first entry
for i in `seq 1 $(echo $firstEntry|awk '{print $2}')`; do {
  case "$i" in
   1|3|5|7|8|10|12 )
   4|6|9|11 )
   2 )
} done

dTime=$(($dTime+$(echo $lastEntry|awk '{print $3}')-$(echo $firstEntry|awk '{print $3}')))

# The above gives number of days for sample. Now we need hours, minutes, and seconds
# As a bit of hackery I just put the stuff in the best order for use in a for loop
dTime="$(($(echo $lastEntry|awk '{print $6}')-$(echo $firstEntry|awk '{print $6}'))) $(($(echo $lastEntry|awk '{print $5}')-$(echo $firstEntry|awk '{print $5}'))) $(($(echo $lastEntry|awk '{print $4}')-$(echo $firstEntry|awk '{print $4}'))) $dTime"
for i in $dTime; do {
  if [ $i -lt 0 ]; then {
    case "$tmp" in
     1 )
      tmp="$(($(echo $dTime|awk '{print $1}')+60)) $(($(echo $dTime|awk '{print $2}')-1))"
      dTime="$tmp $(echo $dTime|awk '{print $3" "$4}')"
     2 )
      tmp="$(($(echo $dTime|awk '{print $2}')+60)) $(($(echo $dTime|awk '{print $3}')-1))"
      dTime="$(echo $dTime|awk '{print $1}') $tmp $(echo $dTime|awk '{print $4}')"
     3 )
      tmp="$(($(echo $dTime|awk '{print $3}')+24)) $(($(echo $dTime|awk '{print $4}')-1))"
      dTime="$(echo $dTime|awk '{print $1" "$2}') $tmp"
  } fi
} done

echo "The sample time is $(echo $dTime|awk '{print $4}') days, $(echo $dTime|awk '{print $3}') hours, $(echo $dTime|awk '{print $2}') minutes, and $(echo $dTime|awk '{print $1}') seconds."

You will get output as follows.

2012 10 16 01 56 37
2014 09 17 18 24 02
The sample time is 700 days, 16 hours, 27 minutes, and 25 seconds.

I modified the script a bit to make it standalone (ie. just set variable values), but maybe the general idea comes across as well. You'd might want some additional error checking for negative values.


Here's my bash implementation (with bits taken from other SO ;-)

function countTimeDiff() {
    timeA=$1 # 09:59:35
    timeB=$2 # 17:32:55

    # feeding variables by using read and splitting with IFS
    IFS=: read ah am as <<< "$timeA"
    IFS=: read bh bm bs <<< "$timeB"

    # Convert hours to minutes.
    # The 10# is there to avoid errors with leading zeros
    # by telling bash that we use base 10
    secondsA=$((10#$ah*60*60 + 10#$am*60 + 10#$as))
    secondsB=$((10#$bh*60*60 + 10#$bm*60 + 10#$bs))
    DIFF_SEC=$((secondsB - secondsA))
    echo "The difference is $DIFF_SEC seconds.";

    echo $TIME_DIFF;

$ countTimeDiff 2:15:55 2:55:16
The difference is 2361 seconds.

Not tested, may be buggy.


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