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For a framework I'm writing I would like to measure how much a piece of (bash) code takes to execute and then print the elapsed time in seconds.

For measuring, I do the following:

start=$(date +%s%N)

# do something here

elapsed_time=$(($(date +%s%N) - start))

This gives me the elapsed seconds concatenated with the elapsed nanos. If I now divide this by 1000000, I'll get the time in ms

elapsed_time_in_ms=$(($elapsed time / 1000000))

This is all nice and seems to work but the real problem is that I want to print it in this format:


where before the . are the seconds and after the dot are last 3 digits of the ms value.

How would I achieve something like that?


I am aware that the time would probably not of much use, still I would like to implement this (even if only for cosmetic reasons :-)).


For anyone facing the same problem:

In the end I've chosen to use time as it doesn't require a fork and seems to be the most portable solution.

Have a look at the it function and the global total_elapsed_time variable here to see how I implemented this.

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Maybe you could use "time command" ? –  pitseeker Oct 10 '12 at 13:50
time is a very good option here! –  gniourf_gniourf Jan 1 '13 at 13:31

4 Answers 4

up vote 4 down vote accepted

You can use bc command:

elapsed_time_in_ms=$(echo "scale=3;$elapsed_time/1000000" | bc)

The scale basically sets the number of digits you want after the .

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This can also be done using shell parameter expansion or via printf. For example, running the following two sequences one after the other printed out 1349883230.715 and 1349883230.721 in one run, and 1349884003.025 and 1349884003.032 in another. (The %N date format fills with leading zeroes.)

  s=$(date +%s.%N); s=${s%??????}; echo $s
  t=$(printf "%20.3f" $(date +%s.%N)); echo $t

As mentioned in man bash under Pattern Matching, special pattern character ? matches any single character. As mentioned under Parameter Expansion, the form ${parameter%word} removes a matching suffix pattern: “If the pattern matches a trailing portion ... the expansion is the expanded value of parameter with the shortest matching pattern (the "%" case) or the longest matching pattern (the "%%" case) deleted.”

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Just cut the digits after the first three off from the nanoseconds.

printf "%d.%.3ss\n" date +%S date +%N # It might not be terribly unwise to run date only once, btw.

-- print a digit followed by a dot, then treat the next argument as a string and print only the first three characters.

$ i=0; while [ $i -lt 9 ];do i=$((i+1)); sleep 0.1;   \
       printf "%d.%.3ss\n" `date +%S` `date +%N` ;done 
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This would not work if the elapsed_time would be something like 1.<whatever> or 100.<whatever>. –  helpermethod Oct 11 '12 at 8:01
You control the variable. Where is the problem? Besides, it's trivial to separate what's before the dot from what's after. Anyway, the bc solution it more readable, just use that. –  Ярослав Рахматуллин Oct 11 '12 at 15:56

As using bc implie forks which take time, I prefer this pure bash solution:

start=$(date +%s%N);sleep 1.1;elapsed_time=$(($(date +%s%N) - start))
[ ${#elapsed_time} -lt 9 ] && \
printf "%.3fs\n" ${elapsed_time:0:${#elapsed_time}-9



For that kind of things, I've wrote a little bash source file that will do the job quickly.

It use on Linux /proc/timer_list, or on Linux /proc/uptime or date +%s%n not well tested on other systems (feed-back would be welcome ;).

It use two counters (one for each invocation and the other as an overall counter) and accept some arguments (read comments):

. elap.bash
elap -R ; for i in {1..10};do sleep .1; elap Counter $i;done;elap -t total
 0.110488478 Counter 1
 0.111014783 Counter 2
 0.117158015 Counter 3
 0.112897232 Counter 4
 0.111928207 Counter 5
 0.108822248 Counter 6
 0.113464053 Counter 7
 0.117487421 Counter 8
 0.115716626 Counter 9
 0.110493433 Counter 10
 0.008513430      1.137983926 total

And, as bc could be useful:

time echo 'scale=1000;pi=4*a(1);0'|bc -l 

real    0m1.590s
user    0m0.768s
sys     0m0.008s


elap -R;elap BC answer is: $(echo 'scale=1000;pi=4*a(1);0'|bc -l )
    1.539957483 BC answer is: 0

Using this script with /proc/timer_list could do:

elap -R ; for i in {1..10};do elap Counter $i;done;elap -t total
 0.001299574 Counter 1
 0.001574097 Counter 2
 0.005771637 Counter 3
 0.001428803 Counter 4
 0.010423721 Counter 5
 0.004037965 Counter 6
 0.001392464 Counter 7
 0.008092812 Counter 8
 0.001634280 Counter 9
 0.001365652 Counter 10
 0.008201473      0.045222478 total

While same script whithout access to /proc, using fork to date +%s%N give:

elap -R ; for i in {1..10};do elap Counter $i;done;elap -t total
 0.012148259 Counter 1
 0.013415551 Counter 2
 0.008279329 Counter 3
 0.013700332 Counter 4
 0.012837796 Counter 5
 0.015562929 Counter 6
 0.008062369 Counter 7
 0.016810494 Counter 8
 0.011537439 Counter 9
 0.009731194 Counter 10
 0.012959840      0.135045532 total

Where we could see that fork have a cost (near 1/100th sec in this case).

Well, finally, for matching exact format for SO question this little script could be patched, for sample in this way:

eval "$(sed -e < elap.bash '
    /6d/{ s/6d.%/10.3f/g;p;N;
          s/^.*\n//g;N;s/" \\\n[ \t]*"/./; p;
          s/^.*//g; N;/elaP_elap2/ba; }')"

elap -R ; for i in {1..10};do elap Counter $i;done;elap -t total
     0.001s Counter 1
     0.006s Counter 2
     0.007s Counter 3
     0.004s Counter 4
     0.003s Counter 5
     0.002s Counter 6
     0.001s Counter 7
     0.001s Counter 8
     0.006s Counter 9
     0.002s Counter 10
     0.004s      0.038s total

38s total

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