Doc/library/timeit.rst

7db96d56Sopenharmony_ci:mod:`timeit` --- Measure execution time of small code snippets
7db96d56Sopenharmony_ci===============================================================
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. module:: timeit
7db96d56Sopenharmony_ci   :synopsis: Measure the execution time of small code snippets.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci**Source code:** :source:`Lib/timeit.py`
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. index::
7db96d56Sopenharmony_ci   single: Benchmarking
7db96d56Sopenharmony_ci   single: Performance
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci--------------
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThis module provides a simple way to time small bits of Python code. It has both
7db96d56Sopenharmony_cia :ref:`timeit-command-line-interface` as well as a :ref:`callable <python-interface>`
7db96d56Sopenharmony_cione.  It avoids a number of common traps for measuring execution times.
7db96d56Sopenharmony_ciSee also Tim Peters' introduction to the "Algorithms" chapter in the second
7db96d56Sopenharmony_ciedition of *Python Cookbook*, published by O'Reilly.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciBasic Examples
7db96d56Sopenharmony_ci--------------
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThe following example shows how the :ref:`timeit-command-line-interface`
7db96d56Sopenharmony_cican be used to compare three different expressions:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. code-block:: shell-session
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   $ python3 -m timeit '"-".join(str(n) for n in range(100))'
7db96d56Sopenharmony_ci   10000 loops, best of 5: 30.2 usec per loop
7db96d56Sopenharmony_ci   $ python3 -m timeit '"-".join([str(n) for n in range(100)])'
7db96d56Sopenharmony_ci   10000 loops, best of 5: 27.5 usec per loop
7db96d56Sopenharmony_ci   $ python3 -m timeit '"-".join(map(str, range(100)))'
7db96d56Sopenharmony_ci   10000 loops, best of 5: 23.2 usec per loop
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThis can be achieved from the :ref:`python-interface` with::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   >>> import timeit
7db96d56Sopenharmony_ci   >>> timeit.timeit('"-".join(str(n) for n in range(100))', number=10000)
7db96d56Sopenharmony_ci   0.3018611848820001
7db96d56Sopenharmony_ci   >>> timeit.timeit('"-".join([str(n) for n in range(100)])', number=10000)
7db96d56Sopenharmony_ci   0.2727368790656328
7db96d56Sopenharmony_ci   >>> timeit.timeit('"-".join(map(str, range(100)))', number=10000)
7db96d56Sopenharmony_ci   0.23702679807320237
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciA callable can also be passed from the :ref:`python-interface`::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   >>> timeit.timeit(lambda: "-".join(map(str, range(100))), number=10000)
7db96d56Sopenharmony_ci   0.19665591977536678
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciNote however that :func:`.timeit` will automatically determine the number of
7db96d56Sopenharmony_cirepetitions only when the command-line interface is used.  In the
7db96d56Sopenharmony_ci:ref:`timeit-examples` section you can find more advanced examples.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. _python-interface:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciPython Interface
7db96d56Sopenharmony_ci----------------
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThe module defines three convenience functions and a public class:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. function:: timeit(stmt='pass', setup='pass', timer=<default timer>, number=1000000, globals=None)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   Create a :class:`Timer` instance with the given statement, *setup* code and
7db96d56Sopenharmony_ci   *timer* function and run its :meth:`.timeit` method with *number* executions.
7db96d56Sopenharmony_ci   The optional *globals* argument specifies a namespace in which to execute the
7db96d56Sopenharmony_ci   code.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionchanged:: 3.5
7db96d56Sopenharmony_ci      The optional *globals* parameter was added.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. function:: repeat(stmt='pass', setup='pass', timer=<default timer>, repeat=5, number=1000000, globals=None)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   Create a :class:`Timer` instance with the given statement, *setup* code and
7db96d56Sopenharmony_ci   *timer* function and run its :meth:`.repeat` method with the given *repeat*
7db96d56Sopenharmony_ci   count and *number* executions.  The optional *globals* argument specifies a
7db96d56Sopenharmony_ci   namespace in which to execute the code.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionchanged:: 3.5
7db96d56Sopenharmony_ci      The optional *globals* parameter was added.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionchanged:: 3.7
7db96d56Sopenharmony_ci      Default value of *repeat* changed from 3 to 5.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. function:: default_timer()
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   The default timer, which is always :func:`time.perf_counter`.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionchanged:: 3.3
7db96d56Sopenharmony_ci      :func:`time.perf_counter` is now the default timer.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. class:: Timer(stmt='pass', setup='pass', timer=<timer function>, globals=None)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   Class for timing execution speed of small code snippets.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   The constructor takes a statement to be timed, an additional statement used
7db96d56Sopenharmony_ci   for setup, and a timer function.  Both statements default to ``'pass'``;
7db96d56Sopenharmony_ci   the timer function is platform-dependent (see the module doc string).
7db96d56Sopenharmony_ci   *stmt* and *setup* may also contain multiple statements separated by ``;``
7db96d56Sopenharmony_ci   or newlines, as long as they don't contain multi-line string literals.  The
7db96d56Sopenharmony_ci   statement will by default be executed within timeit's namespace; this behavior
7db96d56Sopenharmony_ci   can be controlled by passing a namespace to *globals*.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   To measure the execution time of the first statement, use the :meth:`.timeit`
7db96d56Sopenharmony_ci   method.  The :meth:`.repeat` and :meth:`.autorange` methods are convenience
7db96d56Sopenharmony_ci   methods to call :meth:`.timeit` multiple times.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   The execution time of *setup* is excluded from the overall timed execution run.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   The *stmt* and *setup* parameters can also take objects that are callable
7db96d56Sopenharmony_ci   without arguments.  This will embed calls to them in a timer function that
7db96d56Sopenharmony_ci   will then be executed by :meth:`.timeit`.  Note that the timing overhead is a
7db96d56Sopenharmony_ci   little larger in this case because of the extra function calls.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionchanged:: 3.5
7db96d56Sopenharmony_ci      The optional *globals* parameter was added.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. method:: Timer.timeit(number=1000000)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      Time *number* executions of the main statement.  This executes the setup
7db96d56Sopenharmony_ci      statement once, and then returns the time it takes to execute the main
7db96d56Sopenharmony_ci      statement a number of times, measured in seconds as a float.
7db96d56Sopenharmony_ci      The argument is the number of times through the loop, defaulting to one
7db96d56Sopenharmony_ci      million.  The main statement, the setup statement and the timer function
7db96d56Sopenharmony_ci      to be used are passed to the constructor.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      .. note::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci         By default, :meth:`.timeit` temporarily turns off :term:`garbage
7db96d56Sopenharmony_ci         collection` during the timing.  The advantage of this approach is that
7db96d56Sopenharmony_ci         it makes independent timings more comparable.  The disadvantage is
7db96d56Sopenharmony_ci         that GC may be an important component of the performance of the
7db96d56Sopenharmony_ci         function being measured.  If so, GC can be re-enabled as the first
7db96d56Sopenharmony_ci         statement in the *setup* string.  For example::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci            timeit.Timer('for i in range(10): oct(i)', 'gc.enable()').timeit()
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. method:: Timer.autorange(callback=None)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      Automatically determine how many times to call :meth:`.timeit`.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      This is a convenience function that calls :meth:`.timeit` repeatedly
7db96d56Sopenharmony_ci      so that the total time >= 0.2 second, returning the eventual
7db96d56Sopenharmony_ci      (number of loops, time taken for that number of loops). It calls
7db96d56Sopenharmony_ci      :meth:`.timeit` with increasing numbers from the sequence 1, 2, 5,
7db96d56Sopenharmony_ci      10, 20, 50, ... until the time taken is at least 0.2 second.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      If *callback* is given and is not ``None``, it will be called after
7db96d56Sopenharmony_ci      each trial with two arguments: ``callback(number, time_taken)``.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      .. versionadded:: 3.6
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. method:: Timer.repeat(repeat=5, number=1000000)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      Call :meth:`.timeit` a few times.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      This is a convenience function that calls the :meth:`.timeit` repeatedly,
7db96d56Sopenharmony_ci      returning a list of results.  The first argument specifies how many times
7db96d56Sopenharmony_ci      to call :meth:`.timeit`.  The second argument specifies the *number*
7db96d56Sopenharmony_ci      argument for :meth:`.timeit`.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      .. note::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci         It's tempting to calculate mean and standard deviation from the result
7db96d56Sopenharmony_ci         vector and report these.  However, this is not very useful.
7db96d56Sopenharmony_ci         In a typical case, the lowest value gives a lower bound for how fast
7db96d56Sopenharmony_ci         your machine can run the given code snippet; higher values in the
7db96d56Sopenharmony_ci         result vector are typically not caused by variability in Python's
7db96d56Sopenharmony_ci         speed, but by other processes interfering with your timing accuracy.
7db96d56Sopenharmony_ci         So the :func:`min` of the result is probably the only number you
7db96d56Sopenharmony_ci         should be interested in.  After that, you should look at the entire
7db96d56Sopenharmony_ci         vector and apply common sense rather than statistics.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      .. versionchanged:: 3.7
7db96d56Sopenharmony_ci         Default value of *repeat* changed from 3 to 5.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. method:: Timer.print_exc(file=None)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      Helper to print a traceback from the timed code.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      Typical use::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci         t = Timer(...)       # outside the try/except
7db96d56Sopenharmony_ci         try:
7db96d56Sopenharmony_ci             t.timeit(...)    # or t.repeat(...)
7db96d56Sopenharmony_ci         except Exception:
7db96d56Sopenharmony_ci             t.print_exc()
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci      The advantage over the standard traceback is that source lines in the
7db96d56Sopenharmony_ci      compiled template will be displayed.  The optional *file* argument directs
7db96d56Sopenharmony_ci      where the traceback is sent; it defaults to :data:`sys.stderr`.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. _timeit-command-line-interface:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciCommand-Line Interface
7db96d56Sopenharmony_ci----------------------
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciWhen called as a program from the command line, the following form is used::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   python -m timeit [-n N] [-r N] [-u U] [-s S] [-h] [statement ...]
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciWhere the following options are understood:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. program:: timeit
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -n N, --number=N
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   how many times to execute 'statement'
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -r N, --repeat=N
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   how many times to repeat the timer (default 5)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -s S, --setup=S
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   statement to be executed once initially (default ``pass``)
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -p, --process
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   measure process time, not wallclock time, using :func:`time.process_time`
7db96d56Sopenharmony_ci   instead of :func:`time.perf_counter`, which is the default
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionadded:: 3.3
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -u, --unit=U
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   specify a time unit for timer output; can select ``nsec``, ``usec``, ``msec``, or ``sec``
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   .. versionadded:: 3.5
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -v, --verbose
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   print raw timing results; repeat for more digits precision
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. cmdoption:: -h, --help
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   print a short usage message and exit
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciA multi-line statement may be given by specifying each line as a separate
7db96d56Sopenharmony_cistatement argument; indented lines are possible by enclosing an argument in
7db96d56Sopenharmony_ciquotes and using leading spaces.  Multiple :option:`-s` options are treated
7db96d56Sopenharmony_cisimilarly.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciIf :option:`-n` is not given, a suitable number of loops is calculated by trying
7db96d56Sopenharmony_ciincreasing numbers from the sequence 1, 2, 5, 10, 20, 50, ... until the total
7db96d56Sopenharmony_citime is at least 0.2 seconds.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci:func:`default_timer` measurements can be affected by other programs running on
7db96d56Sopenharmony_cithe same machine, so the best thing to do when accurate timing is necessary is
7db96d56Sopenharmony_cito repeat the timing a few times and use the best time.  The :option:`-r`
7db96d56Sopenharmony_cioption is good for this; the default of 5 repetitions is probably enough in
7db96d56Sopenharmony_cimost cases.  You can use :func:`time.process_time` to measure CPU time.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. note::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   There is a certain baseline overhead associated with executing a pass statement.
7db96d56Sopenharmony_ci   The code here doesn't try to hide it, but you should be aware of it.  The
7db96d56Sopenharmony_ci   baseline overhead can be measured by invoking the program without arguments,
7db96d56Sopenharmony_ci   and it might differ between Python versions.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. _timeit-examples:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciExamples
7db96d56Sopenharmony_ci--------
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciIt is possible to provide a setup statement that is executed only once at the beginning:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. code-block:: shell-session
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   $ python -m timeit -s 'text = "sample string"; char = "g"'  'char in text'
7db96d56Sopenharmony_ci   5000000 loops, best of 5: 0.0877 usec per loop
7db96d56Sopenharmony_ci   $ python -m timeit -s 'text = "sample string"; char = "g"'  'text.find(char)'
7db96d56Sopenharmony_ci   1000000 loops, best of 5: 0.342 usec per loop
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciIn the output, there are three fields. The loop count, which tells you how many
7db96d56Sopenharmony_citimes the statement body was run per timing loop repetition. The repetition
7db96d56Sopenharmony_cicount ('best of 5') which tells you how many times the timing loop was
7db96d56Sopenharmony_cirepeated, and finally the time the statement body took on average within the
7db96d56Sopenharmony_cibest repetition of the timing loop. That is, the time the fastest repetition
7db96d56Sopenharmony_citook divided by the loop count.
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   >>> import timeit
7db96d56Sopenharmony_ci   >>> timeit.timeit('char in text', setup='text = "sample string"; char = "g"')
7db96d56Sopenharmony_ci   0.41440500499993504
7db96d56Sopenharmony_ci   >>> timeit.timeit('text.find(char)', setup='text = "sample string"; char = "g"')
7db96d56Sopenharmony_ci   1.7246671520006203
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThe same can be done using the :class:`Timer` class and its methods::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   >>> import timeit
7db96d56Sopenharmony_ci   >>> t = timeit.Timer('char in text', setup='text = "sample string"; char = "g"')
7db96d56Sopenharmony_ci   >>> t.timeit()
7db96d56Sopenharmony_ci   0.3955516149999312
7db96d56Sopenharmony_ci   >>> t.repeat()
7db96d56Sopenharmony_ci   [0.40183617287970225, 0.37027556854118704, 0.38344867356679524, 0.3712595970846668, 0.37866875250654886]
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciThe following examples show how to time expressions that contain multiple lines.
7db96d56Sopenharmony_ciHere we compare the cost of using :func:`hasattr` vs. :keyword:`try`/:keyword:`except`
7db96d56Sopenharmony_cito test for missing and present object attributes:
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci.. code-block:: shell-session
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   $ python -m timeit 'try:' '  str.__bool__' 'except AttributeError:' '  pass'
7db96d56Sopenharmony_ci   20000 loops, best of 5: 15.7 usec per loop
7db96d56Sopenharmony_ci   $ python -m timeit 'if hasattr(str, "__bool__"): pass'
7db96d56Sopenharmony_ci   50000 loops, best of 5: 4.26 usec per loop
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   $ python -m timeit 'try:' '  int.__bool__' 'except AttributeError:' '  pass'
7db96d56Sopenharmony_ci   200000 loops, best of 5: 1.43 usec per loop
7db96d56Sopenharmony_ci   $ python -m timeit 'if hasattr(int, "__bool__"): pass'
7db96d56Sopenharmony_ci   100000 loops, best of 5: 2.23 usec per loop
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   >>> import timeit
7db96d56Sopenharmony_ci   >>> # attribute is missing
7db96d56Sopenharmony_ci   >>> s = """\
7db96d56Sopenharmony_ci   ... try:
7db96d56Sopenharmony_ci   ...     str.__bool__
7db96d56Sopenharmony_ci   ... except AttributeError:
7db96d56Sopenharmony_ci   ...     pass
7db96d56Sopenharmony_ci   ... """
7db96d56Sopenharmony_ci   >>> timeit.timeit(stmt=s, number=100000)
7db96d56Sopenharmony_ci   0.9138244460009446
7db96d56Sopenharmony_ci   >>> s = "if hasattr(str, '__bool__'): pass"
7db96d56Sopenharmony_ci   >>> timeit.timeit(stmt=s, number=100000)
7db96d56Sopenharmony_ci   0.5829014980008651
7db96d56Sopenharmony_ci   >>>
7db96d56Sopenharmony_ci   >>> # attribute is present
7db96d56Sopenharmony_ci   >>> s = """\
7db96d56Sopenharmony_ci   ... try:
7db96d56Sopenharmony_ci   ...     int.__bool__
7db96d56Sopenharmony_ci   ... except AttributeError:
7db96d56Sopenharmony_ci   ...     pass
7db96d56Sopenharmony_ci   ... """
7db96d56Sopenharmony_ci   >>> timeit.timeit(stmt=s, number=100000)
7db96d56Sopenharmony_ci   0.04215312199994514
7db96d56Sopenharmony_ci   >>> s = "if hasattr(int, '__bool__'): pass"
7db96d56Sopenharmony_ci   >>> timeit.timeit(stmt=s, number=100000)
7db96d56Sopenharmony_ci   0.08588060699912603
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciTo give the :mod:`timeit` module access to functions you define, you can pass a
7db96d56Sopenharmony_ci*setup* parameter which contains an import statement::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   def test():
7db96d56Sopenharmony_ci       """Stupid test function"""
7db96d56Sopenharmony_ci       L = [i for i in range(100)]
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   if __name__ == '__main__':
7db96d56Sopenharmony_ci       import timeit
7db96d56Sopenharmony_ci       print(timeit.timeit("test()", setup="from __main__ import test"))
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ciAnother option is to pass :func:`globals` to the  *globals* parameter, which will cause the code
7db96d56Sopenharmony_cito be executed within your current global namespace.  This can be more convenient
7db96d56Sopenharmony_cithan individually specifying imports::
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   def f(x):
7db96d56Sopenharmony_ci       return x**2
7db96d56Sopenharmony_ci   def g(x):
7db96d56Sopenharmony_ci       return x**4
7db96d56Sopenharmony_ci   def h(x):
7db96d56Sopenharmony_ci       return x**8
7db96d56Sopenharmony_ci
7db96d56Sopenharmony_ci   import timeit
7db96d56Sopenharmony_ci   print(timeit.timeit('[func(42) for func in (f,g,h)]', globals=globals()))