Usually I use shell command
time. My purpose is to test if data is small, medium, large or very large set, how much time and memory usage will be.
Any tools for linux or just python to do this?
def test(): """Stupid test function""" lst =  for i in range(100): lst.append(i) if __name__ == '__main__': import timeit print(timeit.timeit("test()", setup="from __main__ import test"))
Essentially, you can pass it python code as a string parameter, and it will run in the specified amount of times and prints the execution time. The important bits from the docs:
timeit.timeit(stmt='pass', setup='pass', timer=<default timer>, number=1000000)
Timerinstance with the given statement, setup code and timer function and run its
timeitmethod with number executions.
Time number executions of the main statement. This executes the setup statement once, and then returns the time it takes to execute the main statement a number of times, measured in seconds as a float. The argument is the number of times through the loop, defaulting to one million. The main statement, the setup statement and the timer function to be used are passed to the constructor.
timeittemporarily turns off
garbage collectionduring the timing. The advantage of this approach is that it makes independent timings more comparable. This disadvantage is that GC may be an important component of the performance of the function being measured. If so, GC can be re-enabled as the first statement in the setup string. For example:
timeit.Timer('for i in xrange(10): oct(i)', 'gc.enable()').timeit()
Profiling will give you a much more detailed idea about what's going on. Here's the "instant example" from the official docs:
import cProfile import re cProfile.run('re.compile("foo|bar")')
Which will give you:
197 function calls (192 primitive calls) in 0.002 seconds Ordered by: standard name ncalls tottime percall cumtime percall filename:lineno(function) 1 0.000 0.000 0.001 0.001 <string>:1(<module>) 1 0.000 0.000 0.001 0.001 re.py:212(compile) 1 0.000 0.000 0.001 0.001 re.py:268(_compile) 1 0.000 0.000 0.000 0.000 sre_compile.py:172(_compile_charset) 1 0.000 0.000 0.000 0.000 sre_compile.py:201(_optimize_charset) 4 0.000 0.000 0.000 0.000 sre_compile.py:25(_identityfunction) 3/1 0.000 0.000 0.000 0.000 sre_compile.py:33(_compile)
Both of these modules should give you an idea about where to look for bottlenecks.
Also, to get to grips with the output of
profile, have a look at this post
This module uses graphviz to create callgraphs like the following:
You can easily see which paths used up the most time by colour. You can either create them using the pycallgraph API, or using a packaged script:
pycallgraph graphviz -- ./mypythonscript.py
The overhead is quite considerable though. So for already long-running processes, creating the graph can take some time.
I use a simple decorator to time the func
def st_time(func): """ st decorator to calculate the total time of a func """ def st_func(*args, **keyArgs): t1 = time.time() r = func(*args, **keyArgs) t2 = time.time() print "Function=%s, Time=%s" % (func.__name__, t2 - t1) return r return st_func
timeit module was slow and weird, so I wrote this:
def timereps(reps, func): from time import time start = time() for i in range(0, reps): func() end = time() return (end - start) / reps
import os listdir_time = timereps(10000, lambda: os.listdir('/')) print "python can do %d os.listdir('/') per second" % (1 / listdir_time)
For me, it says:
python can do 40925 os.listdir('/') per second
This is a primitive sort of benchmarking, but it's good enough.
I usually do a quick
time ./script.py to see how long it takes. That does not show you the memory though, at least not as a default. You can use
/usr/bin/time -v ./script.py to get a lot of information, including memory usage.
Once installed, nose is a script in your path, and that you can call in a directory which contains some python scripts:
This will look in all the python files in the current directory and will execute any function that it recognizes as a test: for example, it recognizes any function with the word test_ in its name as a test.
So you can just create a python script called test_yourfunction.py and write something like this in it:
$: cat > test_yourfunction.py def test_smallinput(): yourfunction(smallinput) def test_mediuminput(): yourfunction(mediuminput) def test_largeinput(): yourfunction(largeinput)
Then you have to run
$: nosetest --with-profile --profile-stats-file yourstatsprofile.prof testyourfunction.py
and to read the profile file, use this python line:
python -c "import hotshot.stats ; stats = hotshot.stats.load('yourstatsprofile.prof') ; stats.sort_stats('time', 'calls') ; stats.print_stats(200)"
Memory Profiler for all your memory needs.
Run a pip install:
pip install memory_profiler
Import the library:
Add a decorator to the item you wish to profile:
@profile def my_func(): a =  * (10 ** 6) b =  * (2 * 10 ** 7) del b return a if __name__ == '__main__': my_func()
Execute the code:
python -m memory_profiler example.py
Recieve the output:
Line # Mem usage Increment Line Contents ============================================== 3 @profile 4 5.97 MB 0.00 MB def my_func(): 5 13.61 MB 7.64 MB a =  * (10 ** 6) 6 166.20 MB 152.59 MB b =  * (2 * 10 ** 7) 7 13.61 MB -152.59 MB del b 8 13.61 MB 0.00 MB return a
Examples are from the docs, linked above.