401

Which is better to use for timing in Python? time.clock() or time.time()? Which one provides more accuracy?

for example:

start = time.clock()
... do something
elapsed = (time.clock() - start)

vs.

start = time.time()
... do something
elapsed = (time.time() - start)

17 Answers 17

137

As of 3.3, time.clock() is deprecated, and it's suggested to use time.process_time() or time.perf_counter() instead.

Previously in 2.7, according to the time module docs:

time.clock()

On Unix, return the current processor time as a floating point number expressed in seconds. The precision, and in fact the very definition of the meaning of “processor time”, depends on that of the C function of the same name, but in any case, this is the function to use for benchmarking Python or timing algorithms.

On Windows, this function returns wall-clock seconds elapsed since the first call to this function, as a floating point number, based on the Win32 function QueryPerformanceCounter(). The resolution is typically better than one microsecond.

Additionally, there is the timeit module for benchmarking code snippets.

  • 4
    "this is the function to use for benchmarking Python or timing algorithms."<br> The Python docs don't seem to be accurate based on the answers given here. time.clock() is not always what you want for benchmarking. especially with the existence of the timeit module – Corey Goldberg Sep 19 '08 at 19:44
  • 1
    @Corey Goldberg: so did you submit a documentation bug? (They meant "use clock() rather than time():, but yeah it's sloppy) – smci Nov 16 '12 at 19:47
  • 2
  • 2
    As can be read here it seems the behaviour of time.clock() was depedent on the platform, and time.process_time() is not. This is the reason why time.clock() was deprecated. – Jim Aho Mar 4 '16 at 18:59
43

The short answer is: most of the time time.clock() will be better. However, if you're timing some hardware (for example some algorithm you put in the GPU), then time.clock() will get rid of this time and time.time() is the only solution left.

Note: whatever the method used, the timing will depend on factors you cannot control (when will the process switch, how often, ...), this is worse with time.time() but exists also with time.clock(), so you should never run one timing test only, but always run a series of test and look at mean/variance of the times.

  • 3
    The phrase on GPU helped a lot! – Yair Daon May 18 '15 at 14:16
  • also when requesting network resource by an async way(process will be blocked to wait), the network time will be got rid of. – dasons May 10 '18 at 10:01
24

Others have answered re: time.time() vs. time.clock().

However, if you're timing the execution of a block of code for benchmarking/profiling purposes, you should take a look at the timeit module.

19

One thing to keep in mind: Changing the system time affects time.time() but not time.clock().

I needed to control some automatic tests executions. If one step of the test case took more than a given amount of time, that TC was aborted to go on with the next one.

But sometimes a step needed to change the system time (to check the scheduler module of the application under test), so after setting the system time a few hours in the future, the TC timeout expired and the test case was aborted. I had to switch from time.time() to time.clock() to handle this properly.

  • 1
    I was looking for this. Thanks :) It will help me even if a user changes his time from OS. – Aashiq Hussain Apr 14 '13 at 19:21
  • How can I compare this time and the one stored by user in hour:minute format? – Aashiq Hussain Apr 14 '13 at 19:30
17

Depends on what you care about. If you mean WALL TIME (as in, the time on the clock on your wall), time.clock() provides NO accuracy because it may manage CPU time.

  • 1
    exactly, I just used time.clock() on a Linux servers and the numbers I got definitely weren't seconds – Roman Plášil Jun 17 '14 at 9:54
17

clock() -> floating point number

Return the CPU time or real time since the start of the process or since the first call to clock(). This has as much precision as the system records.

time() -> floating point number

Return the current time in seconds since the Epoch. Fractions of a second may be present if the system clock provides them.

Usually time() is more precise, because operating systems do not store the process running time with the precision they store the system time (ie, actual time)

13

For my own practice. time() has better precision than clock() on Linux. clock() only has precision less than 10 ms. While time() gives prefect precision. My test is on CentOS 6.4, python 2.6

using time():

1 requests, response time: 14.1749382019 ms
2 requests, response time: 8.01301002502 ms
3 requests, response time: 8.01491737366 ms
4 requests, response time: 8.41021537781 ms
5 requests, response time: 8.38804244995 ms

using clock():

1 requests, response time: 10.0 ms
2 requests, response time: 0.0 ms 
3 requests, response time: 0.0 ms
4 requests, response time: 10.0 ms
5 requests, response time: 0.0 ms 
6 requests, response time: 0.0 ms
7 requests, response time: 0.0 ms 
8 requests, response time: 0.0 ms
  • so I assume time() on wine?? – Tcll Jul 20 '16 at 13:20
6

The difference is very platform-specific.

clock() is very different on Windows than on Linux, for example.

For the sort of examples you describe, you probably want the "timeit" module instead.

  • 3
    could you expand, in what ways clock is "very different"? – n611x007 Sep 3 '14 at 9:11
3

On Unix time.clock() measures the amount of CPU time that has been used by the current process, so it's no good for measuring elapsed time from some point in the past. On Windows it will measure wall-clock seconds elapsed since the first call to the function. On either system time.time() will return seconds passed since the epoch.

If you're writing code that's meant only for Windows, either will work (though you'll use the two differently - no subtraction is necessary for time.clock()). If this is going to run on a Unix system or you want code that is guaranteed to be portable, you will want to use time.time().

2

Short answer: use time.clock() for timing in Python.

On *nix systems, clock() returns the processor time as a floating point number, expressed in seconds. On Windows, it returns the seconds elapsed since the first call to this function, as a floating point number.

time() returns the the seconds since the epoch, in UTC, as a floating point number. There is no guarantee that you will get a better precision that 1 second (even though time() returns a floating point number). Also note that if the system clock has been set back between two calls to this function, the second function call will return a lower value.

2

To the best of my understanding, time.clock() has as much precision as your system will allow it.

1

I use this code to compare 2 methods .My OS is windows 8 , processor core i5 , RAM 4GB

import time

def t_time():
    start=time.time()
    time.sleep(0.1)
    return (time.time()-start)


def t_clock():
    start=time.clock()
    time.sleep(0.1)
    return (time.clock()-start)




counter_time=0
counter_clock=0

for i in range(1,100):
    counter_time += t_time()

    for i in range(1,100):
        counter_clock += t_clock()

print "time() =",counter_time/100
print "clock() =",counter_clock/100

output:

time() = 0.0993799996376

clock() = 0.0993572257367

  • this doesn't answer the question. downvoted. – Corey Goldberg Jul 20 '16 at 22:37
1

Right answer : They're both the same length of a fraction.

But which faster if subject is time ?

A little test case :

import timeit
import time

clock_list = []
time_list = []

test1 = """
def test(v=time.clock()):
    s = time.clock() - v
"""

test2 = """
def test(v=time.time()):
    s = time.time() - v
"""
def test_it(Range) :
    for i in range(Range) :
        clk = timeit.timeit(test1, number=10000)
        clock_list.append(clk)
        tml = timeit.timeit(test2, number=10000)
        time_list.append(tml)

test_it(100)

print "Clock Min: %f Max: %f Average: %f" %(min(clock_list), max(clock_list), sum(clock_list)/float(len(clock_list)))
print "Time  Min: %f Max: %f Average: %f" %(min(time_list), max(time_list), sum(time_list)/float(len(time_list)))

I am not work an Swiss labs but I've tested..

Based of this question : time.clock() is better than time.time()

Edit : time.clock() is internal counter so can't use outside, got limitations max 32BIT FLOAT, can't continued counting if not store first/last values. Can't merge another one counter...

1

As others have noted time.clock() is deprecated in favour of time.perf_counter() or time.process_time(), but Python 3.7 introduces nanosecond resolution timing with time.perf_counter_ns(), time.process_time_ns(), and time.time_ns(), along with 3 other functions.

These 6 new nansecond resolution functions are detailed in PEP 564:

time.clock_gettime_ns(clock_id)

time.clock_settime_ns(clock_id, time:int)

time.monotonic_ns()

time.perf_counter_ns()

time.process_time_ns()

time.time_ns()

These functions are similar to the version without the _ns suffix, but return a number of nanoseconds as a Python int.

As others have also noted, use the timeit module to time functions and small code snippets.

0

Comparing test result between Ubuntu Linux and Windows 7.

On Ubuntu

>>> start = time.time(); time.sleep(0.5); (time.time() - start)
0.5005500316619873

On Windows 7

>>> start = time.time(); time.sleep(0.5); (time.time() - start)
0.5
  • please read the other answers to understand the difference on windows vs. unix/linux. – Corey Goldberg Jan 27 '14 at 14:36
-1

To extend on @Hill's results, here's a test using python 3.4.3 on Xubuntu 16.04 through wine:
(timeit.default_timer will use time.clock() because it sees the OS as 'win32')

when using Windows, clock() is usually more accurate, but this is not the case on wine...
you can see here time() is more accurate than clock(), which is usually the case with Linux and Mac.

  • 3
    I had to downvote this. Your example shows nothing about accuracy, and you offer no explanation. The comments about your environment are also irrelevant to answer. – Corey Goldberg Jul 20 '16 at 22:41
  • The OP just wants to know which is better, so I'm giving an example when ran with linux-wine, which should be considered with application development. I will admit I can try to get better numbers between clock and time, I'll fix that right now – Tcll Jul 21 '16 at 23:20
  • Well after some extra testing, time() seems to not budge from that value, while clock() seems to be all over the place... You might also want to downvote @Hill's answer if you find mine to be unsatisfactory, because mine's as much of an example as his, or rather, an extension of his... – Tcll Jul 21 '16 at 23:37
  • the question asked about "accuracy", not "precision" – Corey Goldberg Jul 27 '16 at 2:32
  • Whether it's precise or not is up to the OP to decide, this is really just an extra note atop @Hill's answer taking wine into consideration, since it's not mentioned, and functions differently from Windows. (more info where needed) – Tcll Jul 28 '16 at 16:38
-2

Use the time.time() is preferred.

protected by eyllanesc Mar 12 '18 at 3:51

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