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I've been using cProfile to profile my code, and it's been working great. I also use gprof2dot.py to visualize the results (makes it a little clearer).

However, cProfile (and most other python profilers I've seen so far) seem to only profile at the function-call level. This causes confusion when certain functions are called from different places - I have no idea if call #1 or call #2 is taking up the majority of the time. This gets even worse when the function in question is 6 levels deep, called from 7 other places.

So my question is: how do I get a line-by-line profiling? Instead of this:

function #12, total time: 2.0s

I'd like to see something like this:

function #12 (called from somefile.py:102) 0.5s
function #12 (called from main.py:12) 1.5s

cProfile does show how much of the total time "transfers" to the parent, but again this connection is lost when you have a bunch of layers and interconnected calls.

Ideally, I'd love to have a GUI that would parse through the data, then show me my source file with a total time given to each line. Something like this:

main.py:

a = 1 # 0.0s
result = func(a) # 0.4s
c = 1000 # 0.0s
result = func(c) # 5.0s

Then I'd be able to click on the second "func(c)" call to see what's taking up time in that call, separate from the "func(a)" call.

Does that make sense? Is there any profiling library that collects this type of info? Is there some awesome tool I've missed? Any feedback is appreciated. Thanks!!

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2  
My guess is that you would be interested in pstats.print_callers. An example is here. –  Muhammad Alkarouri Oct 13 '10 at 20:18
    
Muhammad, that's definitely helpful! At least it fixes one problem: separating function calls depending on origin. I think Joe Kington's answer is closer to my goal, but print_callers() definitely gets me halfway there. Thanks! –  rocketmonkeys Oct 14 '10 at 15:25

3 Answers 3

up vote 56 down vote accepted

I believe that's what Robert Kern's line_profiler is intended for. From the link:

File: pystone.py
Function: Proc2 at line 149
Total time: 0.606656 s

Line #      Hits         Time  Per Hit   % Time  Line Contents
==============================================================
   149                                           @profile
   150                                           def Proc2(IntParIO):
   151     50000        82003      1.6     13.5      IntLoc = IntParIO + 10
   152     50000        63162      1.3     10.4      while 1:
   153     50000        69065      1.4     11.4          if Char1Glob == 'A':
   154     50000        66354      1.3     10.9              IntLoc = IntLoc - 1
   155     50000        67263      1.3     11.1              IntParIO = IntLoc - IntGlob
   156     50000        65494      1.3     10.8              EnumLoc = Ident1
   157     50000        68001      1.4     11.2          if EnumLoc == Ident1:
   158     50000        63739      1.3     10.5              break
   159     50000        61575      1.2     10.1      return IntParIO

Hope that helps!

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1  
Joe, this is exactly what I was looking for. I can just use a decorator, attach a LineProfiler() object to a few functions, and it'll spit out a line-by-line profile of the function. I really wish there was a graphical way to see the results, but this is a great start! Thanks! –  rocketmonkeys Oct 14 '10 at 15:40
1  
As a followup: I've used this a few times, and I've even made a django decorator @profiler to automatically wrap the view in this line-by-line profiler and spit out the results. It's been perfect! This is truly what's needed when I'm profiling a view. It can't show me recursively what's taking time, but I can at least narrow it down to a single line. That's often just what I need. Thanks again! –  rocketmonkeys Nov 30 '10 at 15:15
2  
Does line_profiler work with Python 3? I couldn't get any information on that. –  user1251007 Jul 23 '12 at 15:02
2  
line_profiler does not show hits and time for me. Can anyone tell me why? And how to solve? –  I159 Jan 6 '13 at 12:03
3  
Here's the decorator I wrote: gist.github.com/kylegibson/6583590. If you're running nosetests, be sure to use the -s option so stdout is printed immediately. –  Kyle Gibson Sep 16 '13 at 17:14

You could also use pprofile(pypi). If you want to profile the entire execution, it does not require source code modification. You can also profile a subset of a larger program in two ways:

  • toggle profiling when reaching a specific point in the code, such as:

    import pprofile
    profiler = pprofile.Profile()
    with profiler:
        some_code
    # Process profile content: generate a cachegrind file and send it to user.
    
  • toggle profiling asynchronously from call stack (requires a way to trigger this code in considered application, for example a signal handler or an available worker thread) by using statistical profiling:

    import pprofile
    profiler = pprofile.StatisticalProfile()
    statistical_profiler_thread = pprofile.StatisticalThread(
        profiler=profiler,
    )
    with statistical_profiler_thread:
        sleep(n)
    # Likewise, process profile content
    

Code annotation output format is much like line profiler:

$ pprofile --threads 0 demo/threads.py
Command line: ['demo/threads.py']
Total duration: 1.00573s
File: demo/threads.py
File duration: 1.00168s (99.60%)
Line #|      Hits|         Time| Time per hit|      %|Source code
------+----------+-------------+-------------+-------+-----------
     1|         2|  3.21865e-05|  1.60933e-05|  0.00%|import threading
     2|         1|  5.96046e-06|  5.96046e-06|  0.00%|import time
     3|         0|            0|            0|  0.00%|
     4|         2|   1.5974e-05|  7.98702e-06|  0.00%|def func():
     5|         1|      1.00111|      1.00111| 99.54%|  time.sleep(1)
     6|         0|            0|            0|  0.00%|
     7|         2|  2.00272e-05|  1.00136e-05|  0.00%|def func2():
     8|         1|  1.69277e-05|  1.69277e-05|  0.00%|  pass
     9|         0|            0|            0|  0.00%|
    10|         1|  1.81198e-05|  1.81198e-05|  0.00%|t1 = threading.Thread(target=func)
(call)|         1|  0.000610828|  0.000610828|  0.06%|# /usr/lib/python2.7/threading.py:436 __init__
    11|         1|  1.52588e-05|  1.52588e-05|  0.00%|t2 = threading.Thread(target=func)
(call)|         1|  0.000438929|  0.000438929|  0.04%|# /usr/lib/python2.7/threading.py:436 __init__
    12|         1|  4.79221e-05|  4.79221e-05|  0.00%|t1.start()
(call)|         1|  0.000843048|  0.000843048|  0.08%|# /usr/lib/python2.7/threading.py:485 start
    13|         1|  6.48499e-05|  6.48499e-05|  0.01%|t2.start()
(call)|         1|   0.00115609|   0.00115609|  0.11%|# /usr/lib/python2.7/threading.py:485 start
    14|         1|  0.000205994|  0.000205994|  0.02%|(func(), func2())
(call)|         1|      1.00112|      1.00112| 99.54%|# demo/threads.py:4 func
(call)|         1|  3.09944e-05|  3.09944e-05|  0.00%|# demo/threads.py:7 func2
    15|         1|  7.62939e-05|  7.62939e-05|  0.01%|t1.join()
(call)|         1|  0.000423908|  0.000423908|  0.04%|# /usr/lib/python2.7/threading.py:653 join
    16|         1|  5.26905e-05|  5.26905e-05|  0.01%|t2.join()
(call)|         1|  0.000320196|  0.000320196|  0.03%|# /usr/lib/python2.7/threading.py:653 join

Note that because pprofile does not rely on code modification it can profile top-level module statements, allowing to profile program startup time (how long it takes to import modules, initialise globals, ...).

It can generate cachegrind-formatted output, so you can use kcachegrind to browse large results easily.

Disclosure: I am pprofile author.

share|improve this answer
    
+1 Thank you for your contribution. It looks well-done. I have a little different perspective - measuring inclusive time taken by statements and functions is one objective. Finding out what can be done to make the code faster is a different objective. The difference becomes painfully obvious as the code gets large - like 10^6 lines of code. The code can be wasting large percents of time. The way I find it is by taking a small number of very detailed samples, and examining them with a human eye - not summarizing. The problem is exposed by the fraction of time it wastes. –  Mike Dunlavey Feb 2 at 14:18
    
You are right, I didn't mention pprofile usage when one wants to profile a smaller subset. I edited my post to add examples of this. –  vpelletier Feb 3 at 6:54

PyVmMonitor has a live-view which can help you there (you can connect to a running program and get statistics from it).

See: http://www.pyvmmonitor.com/

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