Chris Billington, Sep 27, 2017
bprofile is a wrapper around cProfile, gprof2dot and graphviz, providing a simple context manager for profiling sections of Python code and producing visual graphs of profiling results. It works on Windows and Unix.
to install bprofile, run:
$ pip install bprofile
or to install from source:
$ python setup.py install
bprofile requires graphviz
to be installed. bprofile looks for a graphviz installation folder
C:\Program Files or
C:\Program Files (x86) on Windows, and
for graphviz executables in the
PATH on Unix.
Every time I need to profile some Python code I go through the same steps: looking up cProfile‘s docs, and then reading about gprof2dot and graphviz. And then it turns out the code I want to profile is a GUI callback or something, and I don’t want to profile the whole program because it spends most of its time doing nothing.
cProfile certainly has this functionality, which I took one look at, and thought: This should be a context manager, and when it exits, it should call gprof2dot and graphviz automatically so I don’t have to remember their command line arguments, and so I don’t accidentally print a .png to standard output and have to listen to all the ASCII beep characters.
BProfile provides this functionality.
# example.py import os import time import pylab as pl from bprofile import BProfile def do_some_stuff(): for i in range(100): time.sleep(.01) def do_some_stuff_that_wont_be_profiled(): os.system('ping -c 5 google.com') def do_some_more_stuff(n): x = pl.rand(100000) for i in range(100): time.sleep(.01) x = pl.fft(x) profiler = BProfile('example.png') with profiler: do_some_stuff() do_some_stuff_that_wont_be_profiled() with profiler: do_some_more_stuff(5)
The above outputs the following image
example.png in the current
BProfile for more information on usage.
BProfile(output_path, threshold_percent=2.5, report_interval=5, enabled=True)¶
A profiling context manager.
A context manager that after it exits, outputs a .png file of a graph made via cProfile, gprof2dot and graphviz. The context manager can be used multiple times, and if used repeatedly, regularly updates its output to include cumulative results.
An instance can also be used as a decorator, it will simply wrap calls to the decorated method in the profiling context.
- output_path (str) – The name of the .png report file you would like to output. ‘.png’ will be appended if not present.
- threshold_percent (int or float) – Nodes in which execution spends less than this percentage of the total profiled execution time will not be included in the output.
- report_interval (int or float) – The minimum time, in seconds, in between output file generation. If the context manager exits and it has not been at least this long since the last output was generated, output generation will be delayed until it has been. More profiling can run in the meantime. This is to decrease overhead on your program, (even though this overhead will only be incurred when no code is being profiled), while allowing you to have ongoing results of the profiling while your code is still running. If you only use the context manager once, then this argument has no effect. If you set it to zero, output will be produced after every exit of the context.
- enabled (bool) – Whether the profiler is enabled or not. Equivalent to calling
set_enabled()with this argument after instantiation. Useful for enabling and disabling profiling with a global flag when you do not have easy access to the instance - for example when using as a decorator.
The profiler will return immediately after the context manager, and will generate its .png report in a separate thread. If the same context manager is used multiple times output will be generated at most every
report_intervalseconds (default: 5). The delay is to allow blocks to execute many times in between reports, rather than slowing your program down with generating graphs all the time. This means that if your profile block is running rapidly and repeatedly, a new report will be produced every
Pending reports will be generated at interpreter shutdown.
Note that even if
report_intervalis short, reporting will not interfere with the profiling results themselves, as a lock is acquired that will prevent profiled code from running at the same time as the report generation code. So the overhead produced by report generation does not affect the results of profiling - this overhead will only affect portions of your code that are not being profiled.
The lock is shared between instances, and so you can freely instantiate many
BProfileinstances to profile different parts of your code. Instances with the same
output_pathwill share an underlying cProfile profiler, and so their reports will be combined. Profile objects are thread safe, so a single instance can be shared as well anywhere in your program.
Since only one profiler can be running at a time, two profiled pieces of code in different threads waiting on each other in any way will deadlock.
Collect statistics and output a .png file of the profiling report.
This occurs automatically at a rate of
report_interval, but one can call this method to report results sooner. The report will include results from all
BProfileinstances that have the same
output_pathand no more automatic reports (if further profiling is done) will be produced until after the minimum
report_intervalof those instances.
This method can be called at any time and is threadsafe. It is not advisable to call it during profiling however as this will incur overhead that will affect the profiling results. Only automatic reports are guaranteed to be generated when no profiling is taking place.
Set whether profiling is enabled.
if enabled==True, all methods work as normal. Otherwise
do_report()become dummy methods that do nothing. This is useful for having a global variable to turn profiling on or off, based on whether one is debugging or not, or to enable or disable profiling of different parts of code selectively.
If profiling is running when this method is called to disable it, the profiling will be stopped.
Stop profiling and outptut a profiling report, if at least
report_intervalhas elapsed since the last report. Otherwise output the report after a delay.
Does not preclude starting profiling again at a later time. Results are cumulative.