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792 lines
26 KiB
Python
792 lines
26 KiB
Python
"""
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Profiling hooks
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This module contains a couple of decorators (`profile` and `coverage`) that
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can be used to wrap functions and/or methods to produce profiles and line
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coverage reports. There's a third convenient decorator (`timecall`) that
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measures the duration of function execution without the extra profiling
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overhead.
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Usage example (Python 2.4 or newer)::
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from profilehooks import profile, coverage
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@profile # or @coverage
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def fn(n):
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if n < 2: return 1
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else: return n * fn(n-1)
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print(fn(42))
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Or without imports, with some hack
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$ python -m profilehooks yourmodule
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@profile # or @coverage
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def fn(n):
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if n < 2: return 1
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else: return n * fn(n-1)
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print(fn(42))
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Usage example (Python 2.3 or older)::
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from profilehooks import profile, coverage
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def fn(n):
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if n < 2: return 1
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else: return n * fn(n-1)
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# Now wrap that function in a decorator
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fn = profile(fn) # or coverage(fn)
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print fn(42)
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Reports for all thusly decorated functions will be printed to sys.stdout
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on program termination. You can alternatively request for immediate
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reports for each call by passing immediate=True to the profile decorator.
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There's also a @timecall decorator for printing the time to sys.stderr
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every time a function is called, when you just want to get a rough measure
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instead of a detailed (but costly) profile.
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Caveats
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A thread on python-dev convinced me that hotshot produces bogus numbers.
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See http://mail.python.org/pipermail/python-dev/2005-November/058264.html
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I don't know what will happen if a decorated function will try to call
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another decorated function. All decorators probably need to explicitly
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support nested profiling (currently TraceFuncCoverage is the only one
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that supports this, while HotShotFuncProfile has support for recursive
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functions.)
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Profiling with hotshot creates temporary files (*.prof for profiling,
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*.cprof for coverage) in the current directory. These files are not
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cleaned up. Exception: when you specify a filename to the profile
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decorator (to store the pstats.Stats object for later inspection),
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the temporary file will be the filename you specified with '.raw'
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appended at the end.
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Coverage analysis with hotshot seems to miss some executions resulting
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in lower line counts and some lines errorneously marked as never
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executed. For this reason coverage analysis now uses trace.py which is
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slower, but more accurate.
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Copyright (c) 2004--2014 Marius Gedminas <marius@pov.lt>
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Copyright (c) 2007 Hanno Schlichting
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Copyright (c) 2008 Florian Schulze
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Released under the MIT licence since December 2006:
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Permission is hereby granted, free of charge, to any person obtaining a
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copy of this software and associated documentation files (the "Software"),
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to deal in the Software without restriction, including without limitation
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the rights to use, copy, modify, merge, publish, distribute, sublicense,
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and/or sell copies of the Software, and to permit persons to whom the
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Software is furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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DEALINGS IN THE SOFTWARE.
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(Previously it was distributed under the GNU General Public Licence.)
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"""
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__author__ = "Marius Gedminas <marius@gedmin.as>"
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__copyright__ = "Copyright 2004-2015 Marius Gedminas and contributors"
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__license__ = "MIT"
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__version__ = '1.8.2.dev0'
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__date__ = "2015-11-21"
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import atexit
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import inspect
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import sys
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import re
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import os
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# For profiling
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from profile import Profile
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import pstats
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# For hotshot profiling (inaccurate!)
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try:
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import hotshot
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import hotshot.stats
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except ImportError:
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hotshot = None
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# For trace.py coverage
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import trace
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# For hotshot coverage (inaccurate!; uses undocumented APIs; might break)
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if hotshot is not None:
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import _hotshot
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import hotshot.log
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# For cProfile profiling (best)
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try:
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import cProfile
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except ImportError:
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cProfile = None
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# For timecall
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import time
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# registry of available profilers
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AVAILABLE_PROFILERS = {}
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__all__ = ['coverage', 'coverage_with_hotshot', 'profile', 'timecall']
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def profile(fn=None, skip=0, filename=None, immediate=False, dirs=False,
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sort=None, entries=40,
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profiler=('cProfile', 'profile', 'hotshot'),
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stdout=True):
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"""Mark `fn` for profiling.
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If `skip` is > 0, first `skip` calls to `fn` will not be profiled.
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If `immediate` is False, profiling results will be printed to
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sys.stdout on program termination. Otherwise results will be printed
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after each call. (If you don't want this, set stdout=False and specify a
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`filename` to store profile data.)
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If `dirs` is False only the name of the file will be printed.
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Otherwise the full path is used.
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`sort` can be a list of sort keys (defaulting to ['cumulative',
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'time', 'calls']). The following ones are recognized::
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'calls' -- call count
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'cumulative' -- cumulative time
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'file' -- file name
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'line' -- line number
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'module' -- file name
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'name' -- function name
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'nfl' -- name/file/line
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'pcalls' -- call count
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'stdname' -- standard name
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'time' -- internal time
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`entries` limits the output to the first N entries.
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`profiler` can be used to select the preferred profiler, or specify a
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sequence of them, in order of preference. The default is ('cProfile'.
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'profile', 'hotshot').
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If `filename` is specified, the profile stats will be stored in the
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named file. You can load them with pstats.Stats(filename) or use a
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visualization tool like RunSnakeRun.
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Usage::
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def fn(...):
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...
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fn = profile(fn, skip=1)
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If you are using Python 2.4, you should be able to use the decorator
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syntax::
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@profile(skip=3)
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def fn(...):
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...
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or just ::
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@profile
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def fn(...):
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...
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"""
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if fn is None: # @profile() syntax -- we are a decorator maker
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def decorator(fn):
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return profile(fn, skip=skip, filename=filename,
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immediate=immediate, dirs=dirs,
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sort=sort, entries=entries,
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profiler=profiler, stdout=stdout)
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return decorator
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# @profile syntax -- we are a decorator.
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if isinstance(profiler, str):
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profiler = [profiler]
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for p in profiler:
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if p in AVAILABLE_PROFILERS:
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profiler_class = AVAILABLE_PROFILERS[p]
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break
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else:
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raise ValueError('only these profilers are available: %s'
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% ', '.join(sorted(AVAILABLE_PROFILERS)))
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fp = profiler_class(fn, skip=skip, filename=filename,
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immediate=immediate, dirs=dirs,
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sort=sort, entries=entries, stdout=stdout)
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# We cannot return fp or fp.__call__ directly as that would break method
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# definitions, instead we need to return a plain function.
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def new_fn(*args, **kw):
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return fp(*args, **kw)
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new_fn.__doc__ = fn.__doc__
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new_fn.__name__ = fn.__name__
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new_fn.__dict__ = fn.__dict__
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new_fn.__module__ = fn.__module__
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return new_fn
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def coverage(fn):
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"""Mark `fn` for line coverage analysis.
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Results will be printed to sys.stdout on program termination.
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Usage::
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def fn(...):
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...
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fn = coverage(fn)
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If you are using Python 2.4, you should be able to use the decorator
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syntax::
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@coverage
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def fn(...):
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...
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"""
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fp = TraceFuncCoverage(fn) # or HotShotFuncCoverage
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# We cannot return fp or fp.__call__ directly as that would break method
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# definitions, instead we need to return a plain function.
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def new_fn(*args, **kw):
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return fp(*args, **kw)
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new_fn.__doc__ = fn.__doc__
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new_fn.__name__ = fn.__name__
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new_fn.__dict__ = fn.__dict__
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new_fn.__module__ = fn.__module__
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return new_fn
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def coverage_with_hotshot(fn):
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"""Mark `fn` for line coverage analysis.
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Uses the 'hotshot' module for fast coverage analysis.
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BUG: Produces inaccurate results.
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See the docstring of `coverage` for usage examples.
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"""
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fp = HotShotFuncCoverage(fn)
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# We cannot return fp or fp.__call__ directly as that would break method
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# definitions, instead we need to return a plain function.
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def new_fn(*args, **kw):
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return fp(*args, **kw)
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new_fn.__doc__ = fn.__doc__
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new_fn.__name__ = fn.__name__
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new_fn.__dict__ = fn.__dict__
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new_fn.__module__ = fn.__module__
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return new_fn
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class FuncProfile(object):
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"""Profiler for a function (uses profile)."""
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# This flag is shared between all instances
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in_profiler = False
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Profile = Profile
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def __init__(self, fn, skip=0, filename=None, immediate=False, dirs=False,
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sort=None, entries=40, stdout=True):
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"""Creates a profiler for a function.
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Every profiler has its own log file (the name of which is derived
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from the function name).
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FuncProfile registers an atexit handler that prints profiling
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information to sys.stderr when the program terminates.
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"""
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self.fn = fn
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self.skip = skip
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self.filename = filename
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self.immediate = immediate
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self.stdout = stdout
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self.dirs = dirs
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self.sort = sort or ('cumulative', 'time', 'calls')
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if isinstance(self.sort, str):
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self.sort = (self.sort, )
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self.entries = entries
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self.reset_stats()
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atexit.register(self.atexit)
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def __call__(self, *args, **kw):
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"""Profile a singe call to the function."""
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self.ncalls += 1
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if self.skip > 0:
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self.skip -= 1
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self.skipped += 1
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return self.fn(*args, **kw)
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if FuncProfile.in_profiler:
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# handle recursive calls
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return self.fn(*args, **kw)
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# You cannot reuse the same profiler for many calls and accumulate
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# stats that way. :-/
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profiler = self.Profile()
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try:
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FuncProfile.in_profiler = True
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return profiler.runcall(self.fn, *args, **kw)
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finally:
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FuncProfile.in_profiler = False
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self.stats.add(profiler)
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if self.immediate:
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self.print_stats()
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self.reset_stats()
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def print_stats(self):
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"""Print profile information to sys.stdout."""
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stats = self.stats
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if self.filename:
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stats.dump_stats(self.filename)
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if self.stdout:
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funcname = self.fn.__name__
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filename = self.fn.__code__.co_filename
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lineno = self.fn.__code__.co_firstlineno
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print("")
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print("*** PROFILER RESULTS ***")
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print("%s (%s:%s)" % (funcname, filename, lineno))
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if self.skipped:
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skipped = " (%d calls not profiled)" % self.skipped
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else:
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skipped = ""
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print("function called %d times%s" % (self.ncalls, skipped))
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print("")
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if not self.dirs:
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stats.strip_dirs()
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stats.sort_stats(*self.sort)
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stats.print_stats(self.entries)
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def reset_stats(self):
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"""Reset accumulated profiler statistics."""
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# Note: not using self.Profile, since pstats.Stats() fails then
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self.stats = pstats.Stats(Profile())
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self.ncalls = 0
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self.skipped = 0
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def atexit(self):
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"""Stop profiling and print profile information to sys.stdout.
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This function is registered as an atexit hook.
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"""
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# XXX: uh, why even register this as an atexit hook if immediate is True?
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if not self.immediate:
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self.print_stats()
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AVAILABLE_PROFILERS['profile'] = FuncProfile
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if cProfile is not None:
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class CProfileFuncProfile(FuncProfile):
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"""Profiler for a function (uses cProfile)."""
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Profile = cProfile.Profile
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AVAILABLE_PROFILERS['cProfile'] = CProfileFuncProfile
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if hotshot is not None:
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class HotShotFuncProfile(FuncProfile):
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"""Profiler for a function (uses hotshot)."""
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# This flag is shared between all instances
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in_profiler = False
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def __init__(self, fn, skip=0, filename=None, immediate=False,
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dirs=False, sort=None, entries=40, stdout=True):
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"""Creates a profiler for a function.
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Every profiler has its own log file (the name of which is derived
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from the function name).
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HotShotFuncProfile registers an atexit handler that prints
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profiling information to sys.stderr when the program terminates.
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The log file is not removed and remains there to clutter the
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current working directory.
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"""
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if filename:
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self.logfilename = filename + ".raw"
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else:
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self.logfilename = "%s.%d.prof" % (fn.__name__, os.getpid())
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super(HotShotFuncProfile, self).__init__(
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fn, skip=skip, filename=filename, immediate=immediate,
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dirs=dirs, sort=sort, entries=entries, stdout=stdout)
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def __call__(self, *args, **kw):
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"""Profile a singe call to the function."""
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self.ncalls += 1
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if self.skip > 0:
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self.skip -= 1
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self.skipped += 1
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return self.fn(*args, **kw)
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if HotShotFuncProfile.in_profiler:
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# handle recursive calls
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return self.fn(*args, **kw)
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if self.profiler is None:
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self.profiler = hotshot.Profile(self.logfilename)
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try:
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HotShotFuncProfile.in_profiler = True
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return self.profiler.runcall(self.fn, *args, **kw)
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finally:
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HotShotFuncProfile.in_profiler = False
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if self.immediate:
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self.print_stats()
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self.reset_stats()
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def print_stats(self):
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if self.profiler is None:
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self.stats = pstats.Stats(Profile())
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else:
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self.profiler.close()
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self.stats = hotshot.stats.load(self.logfilename)
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super(HotShotFuncProfile, self).print_stats()
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def reset_stats(self):
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self.profiler = None
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self.ncalls = 0
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self.skipped = 0
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AVAILABLE_PROFILERS['hotshot'] = HotShotFuncProfile
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class HotShotFuncCoverage:
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"""Coverage analysis for a function (uses _hotshot).
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HotShot coverage is reportedly faster than trace.py, but it appears to
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have problems with exceptions; also line counts in coverage reports
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are generally lower from line counts produced by TraceFuncCoverage.
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Is this my bug, or is it a problem with _hotshot?
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"""
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def __init__(self, fn):
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"""Creates a profiler for a function.
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Every profiler has its own log file (the name of which is derived
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from the function name).
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HotShotFuncCoverage registers an atexit handler that prints
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profiling information to sys.stderr when the program terminates.
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The log file is not removed and remains there to clutter the
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current working directory.
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"""
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self.fn = fn
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self.logfilename = "%s.%d.cprof" % (fn.__name__, os.getpid())
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self.profiler = _hotshot.coverage(self.logfilename)
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self.ncalls = 0
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atexit.register(self.atexit)
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def __call__(self, *args, **kw):
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"""Profile a singe call to the function."""
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self.ncalls += 1
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old_trace = sys.gettrace()
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try:
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return self.profiler.runcall(self.fn, args, kw)
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finally: # pragma: nocover
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sys.settrace(old_trace)
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def atexit(self):
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"""Stop profiling and print profile information to sys.stderr.
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This function is registered as an atexit hook.
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"""
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self.profiler.close()
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funcname = self.fn.__name__
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filename = self.fn.__code__.co_filename
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lineno = self.fn.__code__.co_firstlineno
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print("")
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print("*** COVERAGE RESULTS ***")
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print("%s (%s:%s)" % (funcname, filename, lineno))
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print("function called %d times" % self.ncalls)
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print("")
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fs = FuncSource(self.fn)
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reader = hotshot.log.LogReader(self.logfilename)
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for what, (filename, lineno, funcname), tdelta in reader:
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if filename != fs.filename:
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continue
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if what == hotshot.log.LINE:
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fs.mark(lineno)
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if what == hotshot.log.ENTER:
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# hotshot gives us the line number of the function definition
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# and never gives us a LINE event for the first statement in
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# a function, so if we didn't perform this mapping, the first
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# statement would be marked as never executed
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if lineno == fs.firstlineno:
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lineno = fs.firstcodelineno
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fs.mark(lineno)
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reader.close()
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print(fs)
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never_executed = fs.count_never_executed()
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if never_executed:
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print("%d lines were not executed." % never_executed)
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class TraceFuncCoverage:
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"""Coverage analysis for a function (uses trace module).
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HotShot coverage analysis is reportedly faster, but it appears to have
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problems with exceptions.
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"""
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# Shared between all instances so that nested calls work
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tracer = trace.Trace(count=True, trace=False,
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ignoredirs=[sys.prefix, sys.exec_prefix])
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# This flag is also shared between all instances
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tracing = False
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def __init__(self, fn):
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"""Creates a profiler for a function.
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Every profiler has its own log file (the name of which is derived
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from the function name).
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TraceFuncCoverage registers an atexit handler that prints
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profiling information to sys.stderr when the program terminates.
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The log file is not removed and remains there to clutter the
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current working directory.
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"""
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self.fn = fn
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self.logfilename = "%s.%d.cprof" % (fn.__name__, os.getpid())
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self.ncalls = 0
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atexit.register(self.atexit)
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def __call__(self, *args, **kw):
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"""Profile a singe call to the function."""
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self.ncalls += 1
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if TraceFuncCoverage.tracing: # pragma: nocover
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return self.fn(*args, **kw)
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old_trace = sys.gettrace()
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try:
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TraceFuncCoverage.tracing = True
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return self.tracer.runfunc(self.fn, *args, **kw)
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finally: # pragma: nocover
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sys.settrace(old_trace)
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TraceFuncCoverage.tracing = False
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def atexit(self):
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"""Stop profiling and print profile information to sys.stderr.
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This function is registered as an atexit hook.
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"""
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funcname = self.fn.__name__
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filename = self.fn.__code__.co_filename
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lineno = self.fn.__code__.co_firstlineno
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print("")
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print("*** COVERAGE RESULTS ***")
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print("%s (%s:%s)" % (funcname, filename, lineno))
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print("function called %d times" % self.ncalls)
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print("")
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fs = FuncSource(self.fn)
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for (filename, lineno), count in self.tracer.counts.items():
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if filename != fs.filename:
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continue
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fs.mark(lineno, count)
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print(fs)
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never_executed = fs.count_never_executed()
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if never_executed:
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print("%d lines were not executed." % never_executed)
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class FuncSource:
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"""Source code annotator for a function."""
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blank_rx = re.compile(r"^\s*finally:\s*(#.*)?$")
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def __init__(self, fn):
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self.fn = fn
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self.filename = inspect.getsourcefile(fn)
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self.sourcelines = {}
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self.source = []
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self.firstlineno = self.firstcodelineno = 0
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try:
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self.source, self.firstlineno = inspect.getsourcelines(fn)
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self.firstcodelineno = self.firstlineno
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self.find_source_lines()
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except IOError:
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self.filename = None
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def find_source_lines(self):
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"""Mark all executable source lines in fn as executed 0 times."""
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if self.filename is None:
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return
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strs = trace.find_strings(self.filename)
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lines = trace.find_lines_from_code(self.fn.__code__, strs)
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for lineno in lines:
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self.sourcelines.setdefault(lineno, 0)
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if lines:
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self.firstcodelineno = min(lines)
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else: # pragma: nocover
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# This branch cannot be reached, I'm just being paranoid.
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self.firstcodelineno = self.firstlineno
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def mark(self, lineno, count=1):
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"""Mark a given source line as executed count times.
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Multiple calls to mark for the same lineno add up.
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"""
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self.sourcelines[lineno] = self.sourcelines.get(lineno, 0) + count
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def count_never_executed(self):
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"""Count statements that were never executed."""
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lineno = self.firstlineno
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counter = 0
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for line in self.source:
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if self.sourcelines.get(lineno) == 0:
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if not self.blank_rx.match(line):
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counter += 1
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lineno += 1
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return counter
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def __str__(self):
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"""Return annotated source code for the function."""
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if self.filename is None:
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return "cannot show coverage data since co_filename is None"
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lines = []
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lineno = self.firstlineno
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for line in self.source:
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counter = self.sourcelines.get(lineno)
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if counter is None:
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prefix = ' ' * 7
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elif counter == 0:
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if self.blank_rx.match(line): # pragma: nocover
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# This is an workaround for an ancient bug I can't
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# reproduce, perhaps because it was fixed, or perhaps
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# because I can't remember all the details.
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prefix = ' ' * 7
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else:
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prefix = '>' * 6 + ' '
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else:
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prefix = '%5d: ' % counter
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lines.append(prefix + line)
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lineno += 1
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return ''.join(lines)
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def timecall(fn=None, immediate=True, timer=None):
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"""Wrap `fn` and print its execution time.
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Example::
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@timecall
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def somefunc(x, y):
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time.sleep(x * y)
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somefunc(2, 3)
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will print the time taken by somefunc on every call. If you want just
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a summary at program termination, use
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@timecall(immediate=False)
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You can also choose a timing method other than the default ``time.time()``,
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e.g.:
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@timecall(timer=time.clock)
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"""
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if fn is None: # @timecall() syntax -- we are a decorator maker
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def decorator(fn):
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return timecall(fn, immediate=immediate, timer=timer)
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return decorator
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# @timecall syntax -- we are a decorator.
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if timer is None:
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timer = time.time
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fp = FuncTimer(fn, immediate=immediate, timer=timer)
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# We cannot return fp or fp.__call__ directly as that would break method
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# definitions, instead we need to return a plain function.
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def new_fn(*args, **kw):
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return fp(*args, **kw)
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new_fn.__doc__ = fn.__doc__
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new_fn.__name__ = fn.__name__
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new_fn.__dict__ = fn.__dict__
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new_fn.__module__ = fn.__module__
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return new_fn
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class FuncTimer(object):
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def __init__(self, fn, immediate, timer):
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self.fn = fn
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self.ncalls = 0
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self.totaltime = 0
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self.immediate = immediate
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self.timer = timer
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if not immediate:
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atexit.register(self.atexit)
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|
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def __call__(self, *args, **kw):
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"""Profile a singe call to the function."""
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fn = self.fn
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timer = self.timer
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self.ncalls += 1
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try:
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start = timer()
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return fn(*args, **kw)
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finally:
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duration = timer() - start
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self.totaltime += duration
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if self.immediate:
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funcname = fn.__name__
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filename = fn.__code__.co_filename
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lineno = fn.__code__.co_firstlineno
|
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sys.stderr.write("\n %s (%s:%s):\n %.3f seconds\n\n" % (
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funcname, filename, lineno, duration
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))
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sys.stderr.flush()
|
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|
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def atexit(self):
|
|
if not self.ncalls:
|
|
return
|
|
funcname = self.fn.__name__
|
|
filename = self.fn.__code__.co_filename
|
|
lineno = self.fn.__code__.co_firstlineno
|
|
print("\n %s (%s:%s):\n"
|
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" %d calls, %.3f seconds (%.3f seconds per call)\n" % (
|
|
funcname, filename, lineno, self.ncalls,
|
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self.totaltime, self.totaltime / self.ncalls)
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)
|
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|
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if __name__ == '__main__':
|
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|
|
local = dict((name, globals()[name]) for name in __all__)
|
|
message = """********
|
|
Injected `profilehooks`
|
|
--------
|
|
{}
|
|
********
|
|
""".format("\n".join(local.keys()))
|
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|
|
def interact_():
|
|
from code import interact
|
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interact(message, local=local)
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|
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def run_():
|
|
from runpy import run_module
|
|
print(message)
|
|
run_module(sys.argv[1], init_globals=local)
|
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|
|
if len(sys.argv) == 1:
|
|
interact_()
|
|
else:
|
|
run_()
|