729

I have a command line program in Python that takes a while to finish. I want to know the exact time it takes to finish running.

I've looked at the timeit module, but it seems it's only for small snippets of code. I want to time the whole program.

26 Answers 26

1270

The simplest way in Python:

import time
start_time = time.time()
main()
print("--- %s seconds ---" % (time.time() - start_time))

This assumes that your program takes at least a tenth of second to run.

Prints:

--- 0.764891862869 seconds ---
  • 39
    this calculates the real time though (including time used by other programs) so it will seem to take more time when your computer is busy doing other stuff – newacct Oct 13 '09 at 1:23
  • 28
    on Windows, do the same thing, but use time.clock() instead of time.time(). You will get slightly better accuracy. – Corey Goldberg Oct 13 '09 at 14:02
  • 9
    Paul's answer is better, see stackoverflow.com/questions/1557571/… – sorin Jun 9 '10 at 14:32
  • 27
    I had to add: 'import time' to get this to work. – screechOwl Sep 23 '12 at 18:14
  • 25
    I recommend doing round(time.time() - start_time, 2) (or whatever decimal you want), I was getting scientific numbers back like 1.24e-5. – ThorSummoner Feb 6 '15 at 17:49
185

I put this timing.py module into my own site-packages directory, and just insert import timing at the top of my module:

import atexit
from time import clock

def secondsToStr(t):
    return "%d:%02d:%02d.%03d" % \
        reduce(lambda ll,b : divmod(ll[0],b) + ll[1:],
            [(t*1000,),1000,60,60])

line = "="*40
def log(s, elapsed=None):
    print line
    print secondsToStr(clock()), '-', s
    if elapsed:
        print "Elapsed time:", elapsed
    print line
    print

def endlog():
    end = clock()
    elapsed = end-start
    log("End Program", secondsToStr(elapsed))

def now():
    return secondsToStr(clock())

start = clock()
atexit.register(endlog)
log("Start Program")

I can also call timing.log from within my program if there are significant stages within the program I want to show. But just including import timing will print the start and end times, and overall elapsed time. (Forgive my obscure secondsToStr function, it just formats a floating point number of seconds to hh:mm:ss.sss form.)

Note: A Python 3 version of the above code can be found here or here.

  • 7
    This is a real clean solution that also works if you press Ctrl-C to stop the program. – sorin Jun 9 '10 at 14:31
  • 1
    @c24b - look into profilehooks: pypi.python.org/pypi/profilehooks – PaulMcG May 18 '14 at 19:45
  • 7
    For Python 3 add from functools import reduce at the top and put brackets around each print statement. Works great! – PowerApp101 Apr 5 '15 at 2:02
  • 1
    @PowerApp101 - Thanks - Nicojo's answer provides a Py3-friendly version of this module. – PaulMcG Apr 5 '15 at 4:21
  • 2
    Note: time.clock() is "Deprecated since version 3.3: The behaviour of this function depends on the platform: use perf_counter() [with time slept] or process_time() [without time slept] instead, depending on your requirements, to have a well defined behaviour." – mab Oct 19 '15 at 13:12
141

In Linux or UNIX:

time python yourprogram.py

In Windows, see this Stackoverflow discussion: How to measure execution time of command in windows command line?

  • so if I am launching another widget, example in QT application how do we calculate time taken by that widget to show up ? – Ciasto piekarz Dec 18 '13 at 16:47
  • For the widget case, if you are launching from a Python program, use the accepted answer by rogeriopvl. – steveha Dec 18 '13 at 19:25
  • but that doesn't seem to give time in min:seconds it ends up a floating number !! – Ciasto piekarz Dec 19 '13 at 5:48
  • 2
    Yes, it gives a number of seconds. You can convert to min:seconds if you want. Look at Paul McGuire's answer and its secondsToStr() function. – steveha Dec 19 '13 at 6:48
57
import time

start_time = time.clock()
main()
print time.clock() - start_time, "seconds"

time.clock() returns the processor time, which allows us to calculate only the time used by this process (on Unix anyway). The documentation says "in any case, this is the function to use for benchmarking Python or timing algorithms"

  • 12
    time.time() is best used on *nix. time.clock() is best used on Windows. – Corey Goldberg Oct 13 '09 at 14:03
  • I believe this can not be used to calculate "only the time used by this process" because it uses system time and will be effected by other system processes? Correct me if I'm wrong about this :) – Annan Jul 23 '13 at 10:49
  • Note: time.clock() is "Deprecated since version 3.3: The behaviour of this function depends on the platform: use perf_counter() [with time slept] or process_time() [without time slept] instead, depending on your requirements, to have a well defined behaviour." – mab Oct 19 '15 at 13:14
53

I really like Paul McGuire's answer, but I use Python3. So for those who are interested: here's a modification of his answer that works with Python 3 on *nix (I imagine, under Windows, that clock() should be used instead of time()):

#python3
import atexit
from time import time, strftime, localtime
from datetime import timedelta

def secondsToStr(elapsed=None):
    if elapsed is None:
        return strftime("%Y-%m-%d %H:%M:%S", localtime())
    else:
        return str(timedelta(seconds=elapsed))

def log(s, elapsed=None):
    line = "="*40
    print(line)
    print(secondsToStr(), '-', s)
    if elapsed:
        print("Elapsed time:", elapsed)
    print(line)
    print()

def endlog():
    end = time()
    elapsed = end-start
    log("End Program", secondsToStr(elapsed))

start = time()
atexit.register(endlog)
log("Start Program")

If you find this useful, you should still up-vote his answer instead of this one, as he did most of the work ;).

  • 1
    I found timedelta(seconds=t).total_seconds() helpful. – nu everest Nov 28 '15 at 12:38
  • Can you explain what these functions do? what is s in the log command? what is atexit? – SumNeuron Dec 10 '16 at 16:35
  • @SumNeuron, in short, these functions print out the execution time of the program you use it with. s is the first argument to log, and should be a string. log is a function that prints out the timing info. atexit is a python module that lets you register functions to be called at the exit of the program. – Nicojo Dec 10 '16 at 21:07
44

You can use the python profiler cProfile to measure CPU time and additionally how much time is spent inside each function and how many times each function is called. This is very useful if you want to improve performance of your script without knowing where to start. This answer to another SO question is pretty good. It's always good to have a look in the docs too.

Here's an example how to profile a script using cProfile from a command line:

$ python -m cProfile euler048.py

1007 function calls in 0.061 CPU seconds

Ordered by: standard name
ncalls  tottime  percall  cumtime  percall filename:lineno(function)
    1    0.000    0.000    0.061    0.061 <string>:1(<module>)
 1000    0.051    0.000    0.051    0.000 euler048.py:2(<lambda>)
    1    0.005    0.005    0.061    0.061 euler048.py:2(<module>)
    1    0.000    0.000    0.061    0.061 {execfile}
    1    0.002    0.002    0.053    0.053 {map}
    1    0.000    0.000    0.000    0.000 {method 'disable' of '_lsprof.Profiler objects}
    1    0.000    0.000    0.000    0.000 {range}
    1    0.003    0.003    0.003    0.003 {sum}
  • 5
    This answer keeps my code clean. – Yu Jiaao Mar 28 '18 at 0:22
  • @jacwah How do you sum the total time? – Chuck Nov 3 '18 at 21:11
  • @Chuck The first line says X function calls in Y CPU seconds. If you want wall clock time, use one of the other answers here. – jacwah Nov 5 '18 at 18:52
35

I like the output the datetime module provides, where time delta objects show days, hours, minutes etc. as necessary in a human-readable way.

For example:

from datetime import datetime
start_time = datetime.now()
# do your work here
end_time = datetime.now()
print('Duration: {}'.format(end_time - start_time))

Sample output e.g.

Duration: 0:00:08.309267

or

Duration: 1 day, 1:51:24.269711

Update: As J.F. Sebastian mentioned, this approach might encounter some tricky cases with local time, so it's safer to use:

import time
from datetime import timedelta
start_time = time.monotonic()
end_time = time.monotonic()
print(timedelta(seconds=end_time - start_time))
  • 1
    @phansen: you could use timedelta(seconds=time.monotonic()-start) here (or time.time() if the interval is large). Don't subtract naive datetime objects that represent local time; local time is not monotonous – jfs Mar 3 '15 at 8:31
  • OK, you mean like start_time = time.monotonic(); end_time = time.monotonic(); timedelta(seconds=end_time - start_time). I trust you're right, but then you also have to format it, as you get back datetime.timedelta(0, 0, 76). Also, seems the monotonic method was only added in Python 3. – metakermit Mar 4 '15 at 10:23
  • Ah, OK. I see you can pass it to str() to make it "human". I'll update the answer, thanks. – metakermit Mar 4 '15 at 10:24
24

Even better for Linux: /usr/bin/time

$ /usr/bin/time -v python rhtest2.py

    Command being timed: "python rhtest2.py"
    User time (seconds): 4.13
    System time (seconds): 0.07
    Percent of CPU this job got: 91%
    Elapsed (wall clock) time (h:mm:ss or m:ss): 0:04.58
    Average shared text size (kbytes): 0
    Average unshared data size (kbytes): 0
    Average stack size (kbytes): 0
    Average total size (kbytes): 0
    Maximum resident set size (kbytes): 0
    Average resident set size (kbytes): 0
    Major (requiring I/O) page faults: 15
    Minor (reclaiming a frame) page faults: 5095
    Voluntary context switches: 27
    Involuntary context switches: 279
    Swaps: 0
    File system inputs: 0
    File system outputs: 0
    Socket messages sent: 0
    Socket messages received: 0
    Signals delivered: 0
    Page size (bytes): 4096
    Exit status: 0

Normally, just time is a simpler shell builtin that shadows the more capable /usr/bin/time.

12

The solution of rogeriopvl works fine, but if you want more specific info you can use the python built-in profiler. Check this page:

http://docs.python.org/library/profile.html

a profiler tells you a lot of useful information like the time spent in every function

11

The following snippet prints elapsed time in a nice human readable <HH:MM:SS> format.

import time
from datetime import timedelta

start_time = time.time()

#
# Perform lots of computations.
#

elapsed_time_secs = time.time() - start_time

msg = "Execution took: %s secs (Wall clock time)" % timedelta(seconds=round(elapsed_time_secs))

print(msg)    
  • all the way down here one finds the most sane answer ('sane' meaning relying as much as possible on built-ins and therefore the least typing). – ijoseph Jul 20 '17 at 17:25
9

time.clock()

Deprecated since version 3.3: The behavior of this function depends on the platform: use perf_counter() or process_time() instead, depending on your requirements, to have a well-defined behavior.

time.perf_counter()

Return the value (in fractional seconds) of a performance counter, i.e. a clock with the highest available resolution to measure a short duration. It does include time elapsed during sleep and is system-wide.

time.process_time()

Return the value (in fractional seconds) of the sum of the system and user CPU time of the current process. It does not include time elapsed during sleep.

start = time.process_time()
... do something
elapsed = (time.process_time() - start)
8
from time import time
start_time = time()
...
end_time = time()
time_taken = end_time - start_time # time_taken is in seconds
hours, rest = divmod(time_taken,3600)
minutes, seconds = divmod(rest, 60)
8

Just Use timeit module. It works with both Python 2 And Python 3

import timeit

start = timeit.default_timer()
#ALL THE PROGRAM STATEMETNS
stop = timeit.default_timer()
execution_time = stop - start

print("Program Executed in "+execution_time) #It returns time in sec

It returns in Seconds and you can have your Execution Time. Simple but you should write these in Main Function which starts program execution. If you want to get the Execution time even when you get error then take your parameter "Start" to it and calculate there like

def sample_function(start,**kwargs):
     try:
         #your statements
     Except:
         #Except Statements
         stop = timeit.default_timer()
         execution_time = stop - start
         print("Program Executed in "+execution_time)
7

I've looked at the timeit module, but it seems it's only for small snippets of code. I want to time the whole program.

$ python -mtimeit -n1 -r1 -t -s "from your_module import main" "main()"

It runs your_module.main() function one time and print the elapsed time using time.time() function as a timer.

To emulate /usr/bin/time in Python see Python subprocess with /usr/bin/time: how to capture timing info but ignore all other output?.

To measure CPU time (e.g., don't include time during time.sleep()) for each function, you could use profile module (cProfile on Python 2):

$ python3 -mprofile your_module.py

You could pass -p to timeit command above if you want to use the same timer as profile module uses.

See How can you profile a Python script?

7

Ipython "timeit" any script:

def foo():
    %run bar.py
timeit foo()
5

There is a timeit module which can be used to time the execution times of python codes. It has detailed documentation and examples in python docs (https://docs.python.org/2/library/timeit.html)

  • OP explicitly mentions timeit in the question. The question is how it can be used here (or should it be used here and what are the alternatives). Here's possible answer. – jfs Mar 3 '15 at 9:06
5

I like Paul McGuire's answer too and came up with a context manager form which suited more my needs.

import datetime as dt
import timeit

class TimingManager(object):
    """Context Manager used with the statement 'with' to time some execution.

    Example:

    with TimingManager() as t:
       # Code to time
    """

    clock = timeit.default_timer

    def __enter__(self):
        """
        """
        self.start = self.clock()
        self.log('\n=> Start Timing: {}')

        return self

    def __exit__(self, exc_type, exc_val, exc_tb):
        """
        """
        self.endlog()

        return False

    def log(self, s, elapsed=None):
        """Log current time and elapsed time if present.
        :param s: Text to display, use '{}' to format the text with
            the current time.
        :param elapsed: Elapsed time to display. Dafault: None, no display.
        """
        print s.format(self._secondsToStr(self.clock()))

        if(elapsed is not None):
            print 'Elapsed time: {}\n'.format(elapsed)

    def endlog(self):
        """Log time for the end of execution with elapsed time.
        """
        self.log('=> End Timing: {}', self.now())

    def now(self):
        """Return current elapsed time as hh:mm:ss string.
        :return: String.
        """
        return str(dt.timedelta(seconds = self.clock() - self.start))

    def _secondsToStr(self, sec):
        """Convert timestamp to h:mm:ss string.
        :param sec: Timestamp.
        """
        return str(dt.datetime.fromtimestamp(sec))
4

Use line_profiler.

line_profiler will profile the time individual lines of code take to execute. The profiler is implemented in C via Cython in order to reduce the overhead of profiling.

from line_profiler import LineProfiler
import random

def do_stuff(numbers):
    s = sum(numbers)
    l = [numbers[i]/43 for i in range(len(numbers))]
    m = ['hello'+str(numbers[i]) for i in range(len(numbers))]

numbers = [random.randint(1,100) for i in range(1000)]
lp = LineProfiler()
lp_wrapper = lp(do_stuff)
lp_wrapper(numbers)
lp.print_stats()

The results will be:

Timer unit: 1e-06 s

Total time: 0.000649 s
File: <ipython-input-2-2e060b054fea>
Function: do_stuff at line 4

Line #      Hits         Time  Per Hit   % Time  Line Contents
==============================================================
     4                                           def do_stuff(numbers):
     5         1           10     10.0      1.5      s = sum(numbers)
     6         1          186    186.0     28.7      l = [numbers[i]/43 for i in range(len(numbers))]
     7         1          453    453.0     69.8      m = ['hello'+str(numbers[i]) for i in range(len(numbers))]
3

For the data folks using Jupyter Notebooks

In a cell, you can use Jupyter's %%time magic command to measure the execution time:

%%time 
[ x**2 for x in range(10000)] 

Output
CPU times: user 4.54 ms, sys: 0 ns, total: 4.54 ms
Wall time: 4.12 ms

This will only capture the execution time of a particular cell. If you'd like to capture the execution time of the whole notebook (i.e. program), you can create a new notebook in the same directory and in the new notebook execute all cells:

Suppose the notebook above is called example_notebook.ipynb. In a new notebook within the same directory:

# Convert your notebook to a .py script:
!jupyter nbconvert --to script example_notebook.ipynb

# Run the example_notebook with -t flag for time
%run -t example_notebook

Output
IPython CPU timings (estimated): User : 0.00 s.
System : 0.00 s.
Wall time: 0.00 s.

2

This is Paul McGuire's answer that works for me. Just in case someone was having trouble running that one.

import atexit
from time import clock

def reduce(function, iterable, initializer=None):
    it = iter(iterable)
    if initializer is None:
        value = next(it)
    else:
        value = initializer
    for element in it:
        value = function(value, element)
    return value

def secondsToStr(t):
    return "%d:%02d:%02d.%03d" % \
        reduce(lambda ll,b : divmod(ll[0],b) + ll[1:],
            [(t*1000,),1000,60,60])

line = "="*40
def log(s, elapsed=None):
    print (line)
    print (secondsToStr(clock()), '-', s)
    if elapsed:
        print ("Elapsed time:", elapsed)
    print (line)

def endlog():
    end = clock()
    elapsed = end-start
    log("End Program", secondsToStr(elapsed))

def now():
    return secondsToStr(clock())

def main():
    start = clock()
    atexit.register(endlog)
    log("Start Program")

call timing.main() from your program after importing the file.

2

Timeit is a class in python used to calculate the execution time of small blocks of code.

Default_timer is a method in this class which is used to measure the wall clock timing not CPU execution time. Thus other process execution might interfere with this. Thus it is useful for small blocks of code.

A sample of the code is as follows:

from timeit import default_timer as timer

start= timer()

#some logic 

end = timer() 

print("Time taken:", end-start) 
2

I used a very simple function to timing a part of code execution:

import time
def timing():
    start_time = time.time()
    return lambda x: print("[{:.2f}s] {}".format(time.time() - start_time, x))

And to use it, just call it before the code to measure to retrieve timing function, then call the function after the code with comments, and the time will appear in front of the comments, for example:

t = timing()
train = pd.read_csv('train.csv',
                        dtype={
                            'id': str,
                            'vendor_id': str,
                            'pickup_datetime': str,
                            'dropoff_datetime': str,
                            'passenger_count': int,
                            'pickup_longitude': np.float64,
                            'pickup_latitude': np.float64,
                            'dropoff_longitude': np.float64,
                            'dropoff_latitude': np.float64,
                            'store_and_fwd_flag': str,
                            'trip_duration': int,
                        },
                        parse_dates = ['pickup_datetime', 'dropoff_datetime'],
                   )
t("Loaded {} rows data from 'train'".format(len(train)))

Then the output will look like this:

[9.35s] Loaded 1458644 rows data from 'train'

I feel a little bit elegant this way.

  • elegant indeed! – vy32 Jan 8 at 21:23
1

To use metakermit's updated answer for python 2.7 you will require the monotonic package.

The code would then be as follows:

from datetime import timedelta
from monotonic import monotonic

start_time = monotonic()
end_time = monotonic()
print(timedelta(seconds=end_time - start_time))
0

The time of a Python program's execution measure could be inconsistent depending on:

  • Same program can be evaluated using different algorithms
  • Running time varies between algorithms
  • Running time varies between implementations
  • Running time varies between computers
  • Running time is not predictable based on small inputs

This is because the most effective way is using the "Order of Growth" and learn the Big "O" notation to do it properly, https://en.wikipedia.org/wiki/Big_O_notation

Anyway you can try to evaluate the performance of any Python program in specific machine counting steps per second using this simple algorithm: adapt this to the program you want to evaluate

import time

now = time.time()
future = now + 10
step = 4 # why 4 steps? because until here already 4 operations executed
while time.time() < future:
    step += 3 # why 3 again? because while loop execute 1 comparison and 1 plus equal statement
step += 4 # why 3 more? because 1 comparison starting while when time is over plus final assignment of step + 1 and print statement
print(str(int(step / 10)) + " steps per second")

Hope this help you.

0

If you want to measure time in microseconds, then you can use the following version, based completely on the answers of Paul McGuire and Nicojo - it's a Python3 code. I've also added some colour to it:

import atexit
from time import time
from datetime import timedelta, datetime


def seconds_to_str(elapsed=None):
    if elapsed is None:
        return datetime.now().strftime("%Y-%m-%d %H:%M:%S.%f")
    else:
        return str(timedelta(seconds=elapsed))


def log(txt, elapsed=None):
    colour_cyan = '\033[36m'
    colour_reset = '\033[0;0;39m'
    colour_red = '\033[31m'
    print('\n ' + colour_cyan + '  [TIMING]> [' + seconds_to_str() + '] ----> ' + txt + '\n' + colour_reset)
    if elapsed:
        print("\n " + colour_red + " [TIMING]> Elapsed time ==> " + elapsed + "\n" + colour_reset)


def end_log():
    end = time()
    elapsed = end-start
    log("End Program", seconds_to_str(elapsed))


start = time()
atexit.register(end_log)
log("Start Program")

log() => function that prints out the timing info.

txt ==> first argument to log, and it's string to mark timing.

atexit ==> python module to register functions that you can call when program exits.

0

you can get a very simple way in Python no need to do much complicated

import time start = time.localtime() end = time.localtime() """Total execution time in second$ """ print(end.tm_sec - start.tm_sec)

protected by eyllanesc Apr 7 '18 at 4:01

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