# Convert seconds to hours, minutes, seconds

How can I convert seconds to hours, minutes and seconds?

``````show_time() {
?????
}

show_time 36 # 00:00:36
show_time 1036 # 00:17:26
show_time 91925 # 25:32:05
``````

I use the following function myself:

``````function show_time () {
num=\$1
min=0
hour=0
day=0
if((num>59));then
((sec=num%60))
((num=num/60))
if((num>59));then
((min=num%60))
((num=num/60))
if((num>23));then
((hour=num%24))
((day=num/24))
else
((hour=num))
fi
else
((min=num))
fi
else
((sec=num))
fi
echo "\$day"d "\$hour"h "\$min"m "\$sec"s
}
``````

Note it counts days as well. Also, it shows a different result for your last number.

``````#!/bin/sh

convertsecs() {
((h=\${1}/3600))
((m=(\${1}%3600)/60))
((s=\${1}%60))
printf "%02d:%02d:%02d\n" \$h \$m \$s
}
TIME1="36"
TIME2="1036"
TIME3="91925"

echo \$(convertsecs \$TIME1)
echo \$(convertsecs \$TIME2)
echo \$(convertsecs \$TIME3)
``````

For float seconds:

``````convertsecs() {
h=\$(bc <<< "\${1}/3600")
m=\$(bc <<< "(\${1}%3600)/60")
s=\$(bc <<< "\${1}%60")
printf "%02d:%02d:%05.2f\n" \$h \$m \$s
}
``````
• Can it work with float seconds? When calling `convertsecs 3.83` I got `h=3.83/3600: syntax error: invalid arithmetic operator (error token is ".83/3600")` – user Sep 10 '17 at 0:34
• @user, updated the answer but you can also truncate the seconds if it is sufficient. – perreal Sep 10 '17 at 4:05
• The first part of the answer with ((...)) is not portable: github.com/koalaman/shellcheck/wiki/SC2039 and neither the second: `bash: bc: command not found` – user Mar 6 '18 at 16:53
• @user, `((...))` is ksh syntax indeed (also supported by zsh/bash). `bc` however is a non-optional standard POSIX command. `<<<` is zsh syntax though (also supported by bash and a few other shells these days, but not standard `sh` syntax). Leaving the parameter expansions unquoted implies zsh syntax. In other shells, they're subject to split+glob. But even in zsh the unquoted `\$(...)` would still be subject to splitting. The support of `%f` is optional in POSIX `printf`. – Stephane Chazelas Nov 20 at 11:36

Use date, converted to UTC:

``````\$ date -d@36 -u +%H:%M:%S
00:00:36
\$ date -d@1036 -u +%H:%M:%S
00:17:16
\$ date -d@12345 -u +%H:%M:%S
03:25:45
``````

The limitation is the hours will loop at 23, but that doesn't matter for most use cases where you want a one-liner.

On macOS, run `brew install coreutils` and replace `date` with `gdate`

• I think this is only GNU's `date`, and is not portable. – Limited Atonement Feb 10 '16 at 18:20
• OP asked for bash, so I assumed GNU date – ACyclic Feb 10 '16 at 20:06
• I upvoted your answer because it's very helpful to me, but I'm using GNU/Linux. It's not safe to assume that anyone using bash is using GNU/Linux (and GNU date). The first case that comes to mind is OSX, but I think BSD falls in this category, too. – Limited Atonement Feb 11 '16 at 14:44
• It is probably better to explain why the limitation is in place in more detail as it can be confusing. This function is a bit of a hack to the OP's request as it converts epoch seconds (number of seconds from 1970) to a chosen format, which means that if you give it more than 24 hours worth of seconds it will increase the day count and start the hours again – Arturski Oct 17 '16 at 9:27
• Invalid syntax on macOS. – Vitaly Zdanevich Nov 12 '18 at 8:55

The simplest way I know of:

``````secs=100000
printf '%dh:%dm:%ds\n' \$((\$secs/3600)) \$((\$secs%3600/60)) \$((\$secs%60))
``````

Note - if you want days then just add other unit and divide by 86400.

• This will not give you leading `0`s: use `%02d` instead of `%d`. – gniourf_gniourf Feb 11 '15 at 10:08
• busybox safe :) – pstanton Oct 12 '16 at 1:37
• if you want days you also need to change hours so they do not go above 24: `printf '%dd %dh:%dm:%ds\n' \$((\$secs/86400)) \$((\$secs%86400/3600)) \$((\$secs%3600/60)) \$((\$secs%60))` – blue Feb 10 '17 at 22:22

# Simple one-liner

``````\$ secs=236521
\$ printf '%dh:%dm:%ds\n' \$((\$secs/3600)) \$((\$secs%3600/60)) \$((\$secs%60))
65h:42m:1s
``````

``````\$ secs=236521
\$ printf '%02dh:%02dm:%02ds\n' \$((\$secs/3600)) \$((\$secs%3600/60)) \$((\$secs%60))
65h:42m:01s
``````

# With days

``````\$ secs=236521
\$ printf '%dd:%dh:%dm:%ds\n' \$((\$secs/86400)) \$((\$secs%86400/3600)) \$((\$secs%3600/60)) \
\$((\$secs%60))
2d:17h:42m:1s
``````

# With nanoseconds

``````\$ secs=21218.6474912
\$ printf '%02dh:%02dm:%02fs\n' \$(echo -e "\$secs/3600\n\$secs%3600/60\n\$secs%60"| bc | xargs echo)
05h:53m:38.647491s
``````

Based on https://stackoverflow.com/a/28451379/188159 but edit got rejected.

• hell yeah one-liners FTW, script looks way cleaner w/this. – Noon Time Jul 25 '19 at 22:46
• Superbly simple and effective +1 from me! – markc Dec 10 '19 at 14:09

``````#!/bin/bash

function displaytime {
local T=\$1
local D=\$((T/60/60/24))
local H=\$((T/60/60%24))
local M=\$((T/60%60))
local S=\$((T%60))
[[ \$D > 0 ]] && printf '%d days ' \$D
[[ \$H > 0 ]] && printf '%d hours ' \$H
[[ \$M > 0 ]] && printf '%d minutes ' \$M
[[ \$D > 0 || \$H > 0 || \$M > 0 ]] && printf 'and '
printf '%d seconds\n' \$S
}

displaytime \$1
``````

Basically just another spin on the other solutions, but has the added bonus of suppressing empty time units (f.e. `10 seconds` instead of `0 hours 0 minutes 10 seconds`). Couldn't quite track down the original source of the function, occurs in multiple git repos..

Using `dc`:

``````\$ echo '12345.678' | dc -e '?1~r60~r60~r[P]szn[:]ndZ2>zn[:]ndZ2>zn[[.]n]sad0=ap'
3:25:45.678
``````

The expression `?1~r60~r60~rn[:]nn[:]nn[[.]n]sad0=ap` does the following:

``````?   read a line from stdin
1   push one
~   pop two values, divide, push the quotient followed by the remainder
r   reverse the top two values on the stack
60  push sixty
~   pop two values, divide, push the quotient followed by the remainder
r   reverse the top two values on the stack
60  push sixty
~   pop two values, divide, push the quotient followed by the remainder
r   reverse the top two values on the stack
[   interpret everything until the closing ] as a string
   push the literal string '0' to the stack
n     pop the top value from the stack and print it with no newline
]   end of string, push the whole thing to the stack
sz  pop the top value (the string above) and store it in register z
n   pop the top value from the stack and print it with no newline
[:] push the literal string ':' to the stack
n   pop the top value from the stack and print it with no newline
d   duplicate the top value on the stack
Z   pop the top value from the stack and push the number of digits it has
2   push two
>z  pop the top two values and executes register z if the original top-of-stack is greater
n   pop the top value from the stack and print it with no newline
[:] push the literal string ':' to the stack
n   pop the top value from the stack and print it with no newline
d   duplicate the top value on the stack
Z   pop the top value from the stack and push the number of digits it has
2   push two
>z  pop the top two values and executes register z if the original top-of-stack is greater
n   pop the top value from the stack and print it with no newline
[   interpret everything until the closing ] as a string
[.]   push the literal string '.' to the stack
n     pop the top value from the stack and print it with no newline
]   end of string, push the whole thing to the stack
sa  pop the top value (the string above) and store it in register a
d   duplicate the top value on the stack
0   push zero
=a  pop two values and execute register a if they are equal
p   pop the top value and print it with a newline
``````

An example execution with the stack state after each operation:

``````    : <empty stack>
?   : 12345.678
1   : 1, 12345.678
~   : .678, 12345
r   : 12345, .678  # stack is now seconds, fractional seconds
60  : 60, 12345, .678
~   : 45, 205, .678
r   : 205, 45, .678  # stack is now minutes, seconds, fractional seconds
60  : 60, 205, 45, .678
~   : 25, 3, 45, .678
r   : 3, 25, 45, .678  # stack is now hours, minutes, seconds, fractional seconds

[n]  : n, 3, 25, 45, .678
sz  : 3, 25, 45, .678  # 'n' stored in register z

n   : 25, 45, .678  # accumulated stdout: '3'
[:] : :, 25, 45, .678
n   : 25, 45, .678  # accumulated stdout: '3:'
d   : 25, 25, 45, .678
Z   : 2, 25, 45, .678
2   : 2, 2, 25, 45, .678
>z  : 25, 45, .678  # not greater, so register z is not executed
n   : 45, .678  # accumulated stdout: '3:25'
[:] : :, 45, .678
n   : 45, .678  # accumulated stdout: '3:25:'
d   : 45, 45, .678
Z   : 2, 45, 45, .678
2   : 2, 2, 45, .678
>z  : 45, .678  # not greater, so register z is not executed
n   : .678  # accumulated stdout: '3:25:45'

[[.]n]  : [.]n, .678
sa  : .678  # '[.]n' stored to register a
d   : .678, .678
0   : 0, .678, .678
=a  : .678  # not equal, so register a not executed
p   : <empty stack>  # accumulated stdout: '3:25:45.678\n'
``````

In the case of 0 fractional seconds:

``````    : 3, 25, 45, 0  # starting just before we begin to print

n   : 25, 45, .678  # accumulated stdout: '3'
[:] : :, 25, 45, .678
n   : 25, 45, .678  # accumulated stdout: '3:'
d   : 25, 25, 45, .678
Z   : 2, 25, 45, .678
2   : 2, 2, 25, 45, .678
>z  : 25, 45, .678  # not greater, so register z is not executed
n   : 45, .678  # accumulated stdout: '3:25'
[:] : :, 45, .678
n   : 45, .678  # accumulated stdout: '3:25:'
d   : 45, 45, .678
Z   : 2, 45, 45, .678
2   : 2, 2, 45, .678
>z  : 45, .678  # not greater, so register z is not executed
n   : .678  # accumulated stdout: '3:25:45'

[[.]n]  : [.]n, 0
sa  : 0  # '[.]n' stored to register a
d   : 0, 0
0   : 0, 0, 0
=a  : 0  # equal, so register a executed
[.] : ., 0
n   : 0  # accumulated stdout: '3:35:45.'
p   : <empty stack>  # accumulated stdout: '3:25:45.0\n'
``````

In case of a minutes value less than 10:

``````    : 3, 9, 45, 0  # starting just before we begin to print

n   : 9, 45, .678  # accumulated stdout: '3'
[:] : :, 9, 45, .678
n   : 9, 45, .678  # accumulated stdout: '3:'
d   : 9, 9, 45, .678
Z   : 1, 9, 45, .678
2   : 2, 1, 9, 45, .678
>z  : 9, 45, .678  # greater, so register z is executed
   : 0, 9, 45, .678
n     : 9, 45, .678  # accumulated stdout: '3:0'
n   : 9, .678  # accumulated stdout: '3:09'
# ...and continues as above
``````

EDIT: this had a bug where strings like 7:7:34.123 could be printed. I have modified it to print a leading zero if necessary.

• +1, certainly a strong candidate for "unmaintainable code of the week award" :-) But seriously, thanks for reminding us about "dc", very powerful. – mgaert Dec 20 '19 at 15:29

All above is for bash, disregarding there "#!/bin/sh" without any bashism will be:

``````convertsecs() {
h=`expr \$1 / 3600`
m=`expr \$1  % 3600 / 60`
s=`expr \$1 % 60`
printf "%02d:%02d:%02d\n" \$h \$m \$s
}
``````
• The POSIX shell can do arithmetic as well; replace `expr \$1 / 3600` with `\$(( \$1 / 3600 ))`, for example. This is more efficient, as it does not require spawning a new process for each call to `expr`. – chepner Sep 8 '13 at 15:07
``````t=12345;printf %02d:%02d:%02d\\n \$((t/3600)) \$((t%3600/60)) \$((t%60)) # POSIX
echo 12345|awk '{printf "%02d:%02d:%02d",\$0/3600,\$0%3600/60,\$0%60}' # POSIX awk
date -d @12345 +%T # GNU date
date -r 12345 +%T # OS X's date
``````

If others were searching for how to do the reverse:

``````IFS=: read h m s<<<03:25:45;echo \$((h*3600+m*60+s)) # POSIX
echo 03:25:45|awk -F: '{print 3600*\$1+60*\$2+\$3}' # POSIX awk
``````
• Using the date command with the @-timespec seems so most convenient to me, since it is a simple one-liner: `date -u -d "@3661" "+%H:%M:%S"` gives `01:01:01` as expected. – themole Dec 30 '17 at 18:31

I couldn't get Vaulter's/chepner's code to work correctly. I think that the correct code is:

``````convertsecs() {
h=\$((\$1/3600))
m=\$(((\$1/60)%60))
s=\$((\$1%60))
printf "02d:%02d:%02d\n \$h \$m \$s
}
``````
• miss closing of " after \n ;-) – Pipo Oct 15 '13 at 5:56
• And it should be `%02d` at the beginning ;-) – mpe Feb 1 '16 at 13:50

In one line :

``````show_time () {

if [ \$1 -lt 86400 ]; then
date -d@\${1} -u '+%Hh:%Mmn:%Ss';
else
echo "\$((\$1/86400)) days \$(date -d@\$((\$1%86400)) -u '+%Hh:%Mmn:%Ss')" ;
fi
}
``````

This is old post ovbioius -- but, for those who might are looking for the actual time elapsed but in military format (00:05:15:22 - instead of 0:5:15:22 )

``````!#/bin/bash
num=\$1
min=0
hour=0
day=0
if((num>59));then
((sec=num%60))
((num=num/60))
if((num>59));then
((min=num%60))
((num=num/60))
if((num>23));then
((hour=num%24))
((day=num/24))
else
((hour=num))
fi
else
((min=num))
fi
else
((sec=num))
fi
day=`seq -w 00 \$day | tail -n 1`
hour=`seq -w 00 \$hour | tail -n 1`
min=`seq -w 00 \$min | tail -n 1`
sec=`seq -w 00 \$sec | tail -n 1`
printf "\$day:\$hour:\$min:\$sec"
exit 0
``````

on MacOSX 10.13 Slight edit from @eMPee584 's code to get it all in one GO (put the function in some .bashrc like file and source it, use it as myuptime. For non-Mac OS, replace the T formula by one that gives the seconds since last boot.

``````myuptime ()
{
local T=\$((\$(date +%s)-\$(sysctl -n kern.boottime | awk '{print \$4}' | sed 's/,//g')));
local D=\$((T/60/60/24));
local H=\$((T/60/60%24));
local M=\$((T/60%60));
local S=\$((T%60));
printf '%s' "UpTime: ";
[[ \$D > 0 ]] && printf '%d days ' \$D;
[[ \$H > 0 ]] && printf '%d hours ' \$H;
[[ \$M > 0 ]] && printf '%d minutes ' \$M;
[[ \$D > 0 || \$H > 0 || \$M > 0 ]] && printf '%d seconds\n' \$S
}
``````