mirror of https://github.com/python/cpython
616 lines
27 KiB
ReStructuredText
616 lines
27 KiB
ReStructuredText
.. _profile:
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********************
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The Python Profilers
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********************
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.. sectionauthor:: James Roskind
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.. module:: profile
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:synopsis: Python source profiler.
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.. _profiler-introduction:
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Introduction to the profilers
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=============================
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.. index::
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single: deterministic profiling
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single: profiling, deterministic
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A :dfn:`profiler` is a program that describes the run time performance of a
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program, providing a variety of statistics. This documentation describes the
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profiler functionality provided in the modules :mod:`cProfile`, :mod:`profile`
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and :mod:`pstats`. This profiler provides :dfn:`deterministic profiling` of
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Python programs. It also provides a series of report generation tools to allow
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users to rapidly examine the results of a profile operation.
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The Python standard library provides two different profilers:
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1. :mod:`cProfile` is recommended for most users; it's a C extension with
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reasonable overhead that makes it suitable for profiling long-running
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programs. Based on :mod:`lsprof`, contributed by Brett Rosen and Ted
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Czotter.
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2. :mod:`profile`, a pure Python module whose interface is imitated by
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:mod:`cProfile`. Adds significant overhead to profiled programs. If you're
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trying to extend the profiler in some way, the task might be easier with this
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module. Copyright © 1994, by InfoSeek Corporation.
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The :mod:`profile` and :mod:`cProfile` modules export the same interface, so
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they are mostly interchangeable; :mod:`cProfile` has a much lower overhead but
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is newer and might not be available on all systems. :mod:`cProfile` is really a
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compatibility layer on top of the internal :mod:`_lsprof` module.
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.. note::
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The profiler modules are designed to provide an execution profile for a given
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program, not for benchmarking purposes (for that, there is :mod:`timeit` for
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resonably accurate results). This particularly applies to benchmarking
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Python code against C code: the profilers introduce overhead for Python code,
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but not for C-level functions, and so the C code would seem faster than any
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Python one.
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.. _profile-instant:
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Instant User's Manual
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=====================
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This section is provided for users that "don't want to read the manual." It
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provides a very brief overview, and allows a user to rapidly perform profiling
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on an existing application.
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To profile an application with a main entry point of :func:`foo`, you would add
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the following to your module::
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import cProfile
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cProfile.run('foo()')
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(Use :mod:`profile` instead of :mod:`cProfile` if the latter is not available on
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your system.)
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The above action would cause :func:`foo` to be run, and a series of informative
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lines (the profile) to be printed. The above approach is most useful when
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working with the interpreter. If you would like to save the results of a
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profile into a file for later examination, you can supply a file name as the
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second argument to the :func:`run` function::
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import cProfile
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cProfile.run('foo()', 'fooprof')
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The file :file:`cProfile.py` can also be invoked as a script to profile another
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script. For example::
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python -m cProfile myscript.py
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:file:`cProfile.py` accepts two optional arguments on the command line::
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cProfile.py [-o output_file] [-s sort_order]
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``-s`` only applies to standard output (``-o`` is not supplied).
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Look in the :class:`Stats` documentation for valid sort values.
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When you wish to review the profile, you should use the methods in the
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:mod:`pstats` module. Typically you would load the statistics data as follows::
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import pstats
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p = pstats.Stats('fooprof')
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The class :class:`Stats` (the above code just created an instance of this class)
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has a variety of methods for manipulating and printing the data that was just
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read into ``p``. When you ran :func:`cProfile.run` above, what was printed was
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the result of three method calls::
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p.strip_dirs().sort_stats(-1).print_stats()
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The first method removed the extraneous path from all the module names. The
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second method sorted all the entries according to the standard module/line/name
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string that is printed. The third method printed out all the statistics. You
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might try the following sort calls:
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.. (this is to comply with the semantics of the old profiler).
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::
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p.sort_stats('name')
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p.print_stats()
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The first call will actually sort the list by function name, and the second call
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will print out the statistics. The following are some interesting calls to
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experiment with::
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p.sort_stats('cumulative').print_stats(10)
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This sorts the profile by cumulative time in a function, and then only prints
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the ten most significant lines. If you want to understand what algorithms are
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taking time, the above line is what you would use.
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If you were looking to see what functions were looping a lot, and taking a lot
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of time, you would do::
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p.sort_stats('time').print_stats(10)
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to sort according to time spent within each function, and then print the
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statistics for the top ten functions.
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You might also try::
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p.sort_stats('file').print_stats('__init__')
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This will sort all the statistics by file name, and then print out statistics
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for only the class init methods (since they are spelled with ``__init__`` in
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them). As one final example, you could try::
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p.sort_stats('time', 'cum').print_stats(.5, 'init')
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This line sorts statistics with a primary key of time, and a secondary key of
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cumulative time, and then prints out some of the statistics. To be specific, the
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list is first culled down to 50% (re: ``.5``) of its original size, then only
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lines containing ``init`` are maintained, and that sub-sub-list is printed.
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If you wondered what functions called the above functions, you could now (``p``
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is still sorted according to the last criteria) do::
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p.print_callers(.5, 'init')
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and you would get a list of callers for each of the listed functions.
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If you want more functionality, you're going to have to read the manual, or
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guess what the following functions do::
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p.print_callees()
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p.add('fooprof')
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Invoked as a script, the :mod:`pstats` module is a statistics browser for
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reading and examining profile dumps. It has a simple line-oriented interface
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(implemented using :mod:`cmd`) and interactive help.
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.. _deterministic-profiling:
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What Is Deterministic Profiling?
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================================
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:dfn:`Deterministic profiling` is meant to reflect the fact that all *function
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call*, *function return*, and *exception* events are monitored, and precise
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timings are made for the intervals between these events (during which time the
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user's code is executing). In contrast, :dfn:`statistical profiling` (which is
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not done by this module) randomly samples the effective instruction pointer, and
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deduces where time is being spent. The latter technique traditionally involves
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less overhead (as the code does not need to be instrumented), but provides only
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relative indications of where time is being spent.
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In Python, since there is an interpreter active during execution, the presence
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of instrumented code is not required to do deterministic profiling. Python
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automatically provides a :dfn:`hook` (optional callback) for each event. In
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addition, the interpreted nature of Python tends to add so much overhead to
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execution, that deterministic profiling tends to only add small processing
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overhead in typical applications. The result is that deterministic profiling is
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not that expensive, yet provides extensive run time statistics about the
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execution of a Python program.
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Call count statistics can be used to identify bugs in code (surprising counts),
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and to identify possible inline-expansion points (high call counts). Internal
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time statistics can be used to identify "hot loops" that should be carefully
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optimized. Cumulative time statistics should be used to identify high level
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errors in the selection of algorithms. Note that the unusual handling of
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cumulative times in this profiler allows statistics for recursive
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implementations of algorithms to be directly compared to iterative
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implementations.
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Reference Manual -- :mod:`profile` and :mod:`cProfile`
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======================================================
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.. module:: cProfile
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:synopsis: Python profiler
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The primary entry point for the profiler is the global function
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:func:`profile.run` (resp. :func:`cProfile.run`). It is typically used to create
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any profile information. The reports are formatted and printed using methods of
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the class :class:`pstats.Stats`. The following is a description of all of these
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standard entry points and functions. For a more in-depth view of some of the
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code, consider reading the later section on Profiler Extensions, which includes
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discussion of how to derive "better" profilers from the classes presented, or
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reading the source code for these modules.
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.. function:: run(command, filename=None, sort=-1)
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This function takes a single argument that can be passed to the :func:`exec`
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function, and an optional file name. In all cases this routine attempts to
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:func:`exec` its first argument, and gather profiling statistics from the
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execution. If no file name is present, then this function automatically
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prints a simple profiling report, sorted by the standard name string
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(file/line/function-name) that is presented in each line. The following is a
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typical output from such a call::
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2706 function calls (2004 primitive calls) in 4.504 CPU seconds
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Ordered by: standard name
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ncalls tottime percall cumtime percall filename:lineno(function)
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2 0.006 0.003 0.953 0.477 pobject.py:75(save_objects)
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43/3 0.533 0.012 0.749 0.250 pobject.py:99(evaluate)
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...
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The first line indicates that 2706 calls were monitored. Of those calls, 2004
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were :dfn:`primitive`. We define :dfn:`primitive` to mean that the call was not
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induced via recursion. The next line: ``Ordered by: standard name``, indicates
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that the text string in the far right column was used to sort the output. The
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column headings include:
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ncalls
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for the number of calls,
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tottime
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for the total time spent in the given function (and excluding time made in
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calls to sub-functions),
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percall
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is the quotient of ``tottime`` divided by ``ncalls``
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cumtime
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is the total time spent in this and all subfunctions (from invocation till
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exit). This figure is accurate *even* for recursive functions.
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percall
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is the quotient of ``cumtime`` divided by primitive calls
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filename:lineno(function)
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provides the respective data of each function
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When there are two numbers in the first column (for example, ``43/3``), then the
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latter is the number of primitive calls, and the former is the actual number of
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calls. Note that when the function does not recurse, these two values are the
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same, and only the single figure is printed.
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If *sort* is given, it can be one of ``'stdname'`` (sort by filename:lineno),
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``'calls'`` (sort by number of calls), ``'time'`` (sort by total time) or
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``'cumulative'`` (sort by cumulative time). The default is ``'stdname'``.
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.. function:: runctx(command, globals, locals, filename=None)
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This function is similar to :func:`run`, with added arguments to supply the
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globals and locals dictionaries for the *command* string.
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Analysis of the profiler data is done using the :class:`pstats.Stats` class.
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.. module:: pstats
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:synopsis: Statistics object for use with the profiler.
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.. class:: Stats(*filenames, stream=sys.stdout)
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This class constructor creates an instance of a "statistics object" from a
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*filename* (or set of filenames). :class:`Stats` objects are manipulated by
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methods, in order to print useful reports. You may specify an alternate output
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stream by giving the keyword argument, ``stream``.
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The file selected by the above constructor must have been created by the
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corresponding version of :mod:`profile` or :mod:`cProfile`. To be specific,
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there is *no* file compatibility guaranteed with future versions of this
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profiler, and there is no compatibility with files produced by other profilers.
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If several files are provided, all the statistics for identical functions will
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be coalesced, so that an overall view of several processes can be considered in
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a single report. If additional files need to be combined with data in an
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existing :class:`Stats` object, the :meth:`add` method can be used.
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.. (such as the old system profiler).
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.. _profile-stats:
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The :class:`Stats` Class
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------------------------
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:class:`Stats` objects have the following methods:
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.. method:: Stats.strip_dirs()
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This method for the :class:`Stats` class removes all leading path information
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from file names. It is very useful in reducing the size of the printout to fit
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within (close to) 80 columns. This method modifies the object, and the stripped
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information is lost. After performing a strip operation, the object is
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considered to have its entries in a "random" order, as it was just after object
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initialization and loading. If :meth:`strip_dirs` causes two function names to
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be indistinguishable (they are on the same line of the same filename, and have
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the same function name), then the statistics for these two entries are
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accumulated into a single entry.
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.. method:: Stats.add(*filenames)
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This method of the :class:`Stats` class accumulates additional profiling
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information into the current profiling object. Its arguments should refer to
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filenames created by the corresponding version of :func:`profile.run` or
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:func:`cProfile.run`. Statistics for identically named (re: file, line, name)
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functions are automatically accumulated into single function statistics.
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.. method:: Stats.dump_stats(filename)
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Save the data loaded into the :class:`Stats` object to a file named *filename*.
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The file is created if it does not exist, and is overwritten if it already
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exists. This is equivalent to the method of the same name on the
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:class:`profile.Profile` and :class:`cProfile.Profile` classes.
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.. method:: Stats.sort_stats(*keys)
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This method modifies the :class:`Stats` object by sorting it according to the
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supplied criteria. The argument is typically a string identifying the basis of
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a sort (example: ``'time'`` or ``'name'``).
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When more than one key is provided, then additional keys are used as secondary
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criteria when there is equality in all keys selected before them. For example,
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``sort_stats('name', 'file')`` will sort all the entries according to their
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function name, and resolve all ties (identical function names) by sorting by
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file name.
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Abbreviations can be used for any key names, as long as the abbreviation is
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unambiguous. The following are the keys currently defined:
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+------------------+----------------------+
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| Valid Arg | Meaning |
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+==================+======================+
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| ``'calls'`` | call count |
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+------------------+----------------------+
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| ``'cumulative'`` | cumulative time |
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+------------------+----------------------+
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| ``'file'`` | file name |
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+------------------+----------------------+
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| ``'module'`` | file name |
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+------------------+----------------------+
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| ``'pcalls'`` | primitive call count |
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+------------------+----------------------+
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| ``'line'`` | line number |
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+------------------+----------------------+
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| ``'name'`` | function name |
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+------------------+----------------------+
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| ``'nfl'`` | name/file/line |
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+------------------+----------------------+
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| ``'stdname'`` | standard name |
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+------------------+----------------------+
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| ``'time'`` | internal time |
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+------------------+----------------------+
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Note that all sorts on statistics are in descending order (placing most time
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consuming items first), where as name, file, and line number searches are in
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ascending order (alphabetical). The subtle distinction between ``'nfl'`` and
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``'stdname'`` is that the standard name is a sort of the name as printed, which
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means that the embedded line numbers get compared in an odd way. For example,
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lines 3, 20, and 40 would (if the file names were the same) appear in the string
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order 20, 3 and 40. In contrast, ``'nfl'`` does a numeric compare of the line
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numbers. In fact, ``sort_stats('nfl')`` is the same as ``sort_stats('name',
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'file', 'line')``.
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For backward-compatibility reasons, the numeric arguments ``-1``, ``0``, ``1``,
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and ``2`` are permitted. They are interpreted as ``'stdname'``, ``'calls'``,
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``'time'``, and ``'cumulative'`` respectively. If this old style format
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(numeric) is used, only one sort key (the numeric key) will be used, and
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additional arguments will be silently ignored.
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.. For compatibility with the old profiler,
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.. method:: Stats.reverse_order()
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This method for the :class:`Stats` class reverses the ordering of the basic list
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within the object. Note that by default ascending vs descending order is
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properly selected based on the sort key of choice.
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.. This method is provided primarily for compatibility with the old profiler.
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.. method:: Stats.print_stats(*restrictions)
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This method for the :class:`Stats` class prints out a report as described in the
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:func:`profile.run` definition.
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The order of the printing is based on the last :meth:`sort_stats` operation done
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on the object (subject to caveats in :meth:`add` and :meth:`strip_dirs`).
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The arguments provided (if any) can be used to limit the list down to the
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significant entries. Initially, the list is taken to be the complete set of
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profiled functions. Each restriction is either an integer (to select a count of
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lines), or a decimal fraction between 0.0 and 1.0 inclusive (to select a
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percentage of lines), or a regular expression (to pattern match the standard
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name that is printed; as of Python 1.5b1, this uses the Perl-style regular
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expression syntax defined by the :mod:`re` module). If several restrictions are
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provided, then they are applied sequentially. For example::
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print_stats(.1, 'foo:')
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would first limit the printing to first 10% of list, and then only print
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functions that were part of filename :file:`.\*foo:`. In contrast, the
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command::
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print_stats('foo:', .1)
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would limit the list to all functions having file names :file:`.\*foo:`, and
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then proceed to only print the first 10% of them.
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.. method:: Stats.print_callers(*restrictions)
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This method for the :class:`Stats` class prints a list of all functions that
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called each function in the profiled database. The ordering is identical to
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that provided by :meth:`print_stats`, and the definition of the restricting
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argument is also identical. Each caller is reported on its own line. The
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format differs slightly depending on the profiler that produced the stats:
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* With :mod:`profile`, a number is shown in parentheses after each caller to
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show how many times this specific call was made. For convenience, a second
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non-parenthesized number repeats the cumulative time spent in the function
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at the right.
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* With :mod:`cProfile`, each caller is preceded by three numbers: the number of
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times this specific call was made, and the total and cumulative times spent in
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the current function while it was invoked by this specific caller.
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.. method:: Stats.print_callees(*restrictions)
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This method for the :class:`Stats` class prints a list of all function that were
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called by the indicated function. Aside from this reversal of direction of
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calls (re: called vs was called by), the arguments and ordering are identical to
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the :meth:`print_callers` method.
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.. _profile-limits:
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Limitations
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===========
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One limitation has to do with accuracy of timing information. There is a
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fundamental problem with deterministic profilers involving accuracy. The most
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obvious restriction is that the underlying "clock" is only ticking at a rate
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(typically) of about .001 seconds. Hence no measurements will be more accurate
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than the underlying clock. If enough measurements are taken, then the "error"
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will tend to average out. Unfortunately, removing this first error induces a
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second source of error.
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The second problem is that it "takes a while" from when an event is dispatched
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until the profiler's call to get the time actually *gets* the state of the
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clock. Similarly, there is a certain lag when exiting the profiler event
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handler from the time that the clock's value was obtained (and then squirreled
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away), until the user's code is once again executing. As a result, functions
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that are called many times, or call many functions, will typically accumulate
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this error. The error that accumulates in this fashion is typically less than
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the accuracy of the clock (less than one clock tick), but it *can* accumulate
|
|
and become very significant.
|
|
|
|
The problem is more important with :mod:`profile` than with the lower-overhead
|
|
:mod:`cProfile`. For this reason, :mod:`profile` provides a means of
|
|
calibrating itself for a given platform so that this error can be
|
|
probabilistically (on the average) removed. After the profiler is calibrated, it
|
|
will be more accurate (in a least square sense), but it will sometimes produce
|
|
negative numbers (when call counts are exceptionally low, and the gods of
|
|
probability work against you :-). ) Do *not* be alarmed by negative numbers in
|
|
the profile. They should *only* appear if you have calibrated your profiler,
|
|
and the results are actually better than without calibration.
|
|
|
|
|
|
.. _profile-calibration:
|
|
|
|
Calibration
|
|
===========
|
|
|
|
The profiler of the :mod:`profile` module subtracts a constant from each event
|
|
handling time to compensate for the overhead of calling the time function, and
|
|
socking away the results. By default, the constant is 0. The following
|
|
procedure can be used to obtain a better constant for a given platform (see
|
|
discussion in section Limitations above). ::
|
|
|
|
import profile
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|
pr = profile.Profile()
|
|
for i in range(5):
|
|
print(pr.calibrate(10000))
|
|
|
|
The method executes the number of Python calls given by the argument, directly
|
|
and again under the profiler, measuring the time for both. It then computes the
|
|
hidden overhead per profiler event, and returns that as a float. For example,
|
|
on an 800 MHz Pentium running Windows 2000, and using Python's time.clock() as
|
|
the timer, the magical number is about 12.5e-6.
|
|
|
|
The object of this exercise is to get a fairly consistent result. If your
|
|
computer is *very* fast, or your timer function has poor resolution, you might
|
|
have to pass 100000, or even 1000000, to get consistent results.
|
|
|
|
When you have a consistent answer, there are three ways you can use it::
|
|
|
|
import profile
|
|
|
|
# 1. Apply computed bias to all Profile instances created hereafter.
|
|
profile.Profile.bias = your_computed_bias
|
|
|
|
# 2. Apply computed bias to a specific Profile instance.
|
|
pr = profile.Profile()
|
|
pr.bias = your_computed_bias
|
|
|
|
# 3. Specify computed bias in instance constructor.
|
|
pr = profile.Profile(bias=your_computed_bias)
|
|
|
|
If you have a choice, you are better off choosing a smaller constant, and then
|
|
your results will "less often" show up as negative in profile statistics.
|
|
|
|
|
|
.. _profiler-extensions:
|
|
|
|
Extensions --- Deriving Better Profilers
|
|
========================================
|
|
|
|
The :class:`Profile` class of both modules, :mod:`profile` and :mod:`cProfile`,
|
|
were written so that derived classes could be developed to extend the profiler.
|
|
The details are not described here, as doing this successfully requires an
|
|
expert understanding of how the :class:`Profile` class works internally. Study
|
|
the source code of the module carefully if you want to pursue this.
|
|
|
|
If all you want to do is change how current time is determined (for example, to
|
|
force use of wall-clock time or elapsed process time), pass the timing function
|
|
you want to the :class:`Profile` class constructor::
|
|
|
|
pr = profile.Profile(your_time_func)
|
|
|
|
The resulting profiler will then call :func:`your_time_func`.
|
|
|
|
:class:`profile.Profile`
|
|
:func:`your_time_func` should return a single number, or a list of numbers whose
|
|
sum is the current time (like what :func:`os.times` returns). If the function
|
|
returns a single time number, or the list of returned numbers has length 2, then
|
|
you will get an especially fast version of the dispatch routine.
|
|
|
|
Be warned that you should calibrate the profiler class for the timer function
|
|
that you choose. For most machines, a timer that returns a lone integer value
|
|
will provide the best results in terms of low overhead during profiling.
|
|
(:func:`os.times` is *pretty* bad, as it returns a tuple of floating point
|
|
values). If you want to substitute a better timer in the cleanest fashion,
|
|
derive a class and hardwire a replacement dispatch method that best handles your
|
|
timer call, along with the appropriate calibration constant.
|
|
|
|
:class:`cProfile.Profile`
|
|
:func:`your_time_func` should return a single number. If it returns
|
|
integers, you can also invoke the class constructor with a second argument
|
|
specifying the real duration of one unit of time. For example, if
|
|
:func:`your_integer_time_func` returns times measured in thousands of seconds,
|
|
you would construct the :class:`Profile` instance as follows::
|
|
|
|
pr = profile.Profile(your_integer_time_func, 0.001)
|
|
|
|
As the :mod:`cProfile.Profile` class cannot be calibrated, custom timer
|
|
functions should be used with care and should be as fast as possible. For the
|
|
best results with a custom timer, it might be necessary to hard-code it in the C
|
|
source of the internal :mod:`_lsprof` module.
|
|
|
|
|
|
Copyright and License Notices
|
|
=============================
|
|
|
|
Copyright © 1994, by InfoSeek Corporation, all rights reserved.
|
|
|
|
Permission to use, copy, modify, and distribute this Python software and its
|
|
associated documentation for any purpose (subject to the restriction in the
|
|
following sentence) without fee is hereby granted, provided that the above
|
|
copyright notice appears in all copies, and that both that copyright notice and
|
|
this permission notice appear in supporting documentation, and that the name of
|
|
InfoSeek not be used in advertising or publicity pertaining to distribution of
|
|
the software without specific, written prior permission. This permission is
|
|
explicitly restricted to the copying and modification of the software to remain
|
|
in Python, compiled Python, or other languages (such as C) wherein the modified
|
|
or derived code is exclusively imported into a Python module.
|
|
|
|
INFOSEEK CORPORATION DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
|
|
INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT
|
|
SHALL INFOSEEK CORPORATION BE LIABLE FOR ANY SPECIAL, INDIRECT OR CONSEQUENTIAL
|
|
DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS,
|
|
WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING
|
|
OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
|