mirror of https://github.com/python/cpython
212 lines
6.5 KiB
Python
212 lines
6.5 KiB
Python
#!/usr/bin/env python
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""" systimes() user and system timer implementations for use by
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pybench.
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This module implements various different strategies for measuring
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performance timings. It tries to choose the best available method
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based on the platforma and available tools.
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On Windows, it is recommended to have the Mark Hammond win32
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package installed. Alternatively, the Thomas Heller ctypes
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packages can also be used.
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On Unix systems, the standard resource module provides the highest
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resolution timings. Unfortunately, it is not available on all Unix
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platforms.
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If no supported timing methods based on process time can be found,
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the module reverts to the highest resolution wall-clock timer
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instead. The system time part will then always be 0.0.
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The module exports one public API:
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def systimes():
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Return the current timer values for measuring user and system
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time as tuple of seconds (user_time, system_time).
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Copyright (c) 2006, Marc-Andre Lemburg (mal@egenix.com). See the
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documentation for further information on copyrights, or contact
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the author. All Rights Reserved.
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"""
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import time, sys
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#
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# Note: Please keep this module compatible to Python 1.5.2.
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#
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# TODOs:
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#
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# * Add ctypes wrapper for new clock_gettime() real-time POSIX APIs;
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# these will then provide nano-second resolution where available.
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#
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# * Add a function that returns the resolution of systimes()
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# values, ie. systimesres().
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#
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### Choose an implementation
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SYSTIMES_IMPLEMENTATION = None
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USE_CTYPES_GETPROCESSTIMES = 'ctypes GetProcessTimes() wrapper'
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USE_WIN32PROCESS_GETPROCESSTIMES = 'win32process.GetProcessTimes()'
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USE_RESOURCE_GETRUSAGE = 'resource.getrusage()'
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USE_PROCESS_TIME_CLOCK = 'time.clock() (process time)'
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USE_WALL_TIME_CLOCK = 'time.clock() (wall-clock)'
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USE_WALL_TIME_TIME = 'time.time() (wall-clock)'
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if sys.platform[:3] == 'win':
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# Windows platform
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try:
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import win32process
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except ImportError:
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try:
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import ctypes
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except ImportError:
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# Use the wall-clock implementation time.clock(), since this
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# is the highest resolution clock available on Windows
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SYSTIMES_IMPLEMENTATION = USE_WALL_TIME_CLOCK
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else:
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SYSTIMES_IMPLEMENTATION = USE_CTYPES_GETPROCESSTIMES
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else:
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SYSTIMES_IMPLEMENTATION = USE_WIN32PROCESS_GETPROCESSTIMES
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else:
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# All other platforms
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try:
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import resource
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except ImportError:
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pass
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else:
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SYSTIMES_IMPLEMENTATION = USE_RESOURCE_GETRUSAGE
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# Fall-back solution
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if SYSTIMES_IMPLEMENTATION is None:
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# Check whether we can use time.clock() as approximation
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# for systimes()
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start = time.clock()
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time.sleep(0.1)
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stop = time.clock()
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if stop - start < 0.001:
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# Looks like time.clock() is usable (and measures process
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# time)
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SYSTIMES_IMPLEMENTATION = USE_PROCESS_TIME_CLOCK
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else:
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# Use wall-clock implementation time.time() since this provides
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# the highest resolution clock on most systems
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SYSTIMES_IMPLEMENTATION = USE_WALL_TIME_TIME
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### Implementations
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def getrusage_systimes():
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return resource.getrusage(resource.RUSAGE_SELF)[:2]
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def process_time_clock_systimes():
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return (time.clock(), 0.0)
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def wall_clock_clock_systimes():
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return (time.clock(), 0.0)
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def wall_clock_time_systimes():
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return (time.time(), 0.0)
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# Number of clock ticks per second for the values returned
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# by GetProcessTimes() on Windows.
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#
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# Note: Ticks returned by GetProcessTimes() are 100ns intervals on
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# Windows XP. However, the process times are only updated with every
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# clock tick and the frequency of these is somewhat lower: depending
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# on the OS version between 10ms and 15ms. Even worse, the process
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# time seems to be allocated to process currently running when the
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# clock interrupt arrives, ie. it is possible that the current time
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# slice gets accounted to a different process.
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WIN32_PROCESS_TIMES_TICKS_PER_SECOND = 1e7
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def win32process_getprocesstimes_systimes():
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d = win32process.GetProcessTimes(win32process.GetCurrentProcess())
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return (d['UserTime'] / WIN32_PROCESS_TIMES_TICKS_PER_SECOND,
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d['KernelTime'] / WIN32_PROCESS_TIMES_TICKS_PER_SECOND)
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def ctypes_getprocesstimes_systimes():
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creationtime = ctypes.c_ulonglong()
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exittime = ctypes.c_ulonglong()
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kerneltime = ctypes.c_ulonglong()
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usertime = ctypes.c_ulonglong()
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rc = ctypes.windll.kernel32.GetProcessTimes(
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ctypes.windll.kernel32.GetCurrentProcess(),
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ctypes.byref(creationtime),
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ctypes.byref(exittime),
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ctypes.byref(kerneltime),
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ctypes.byref(usertime))
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if not rc:
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raise TypeError('GetProcessTimes() returned an error')
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return (usertime.value / WIN32_PROCESS_TIMES_TICKS_PER_SECOND,
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kerneltime.value / WIN32_PROCESS_TIMES_TICKS_PER_SECOND)
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# Select the default for the systimes() function
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if SYSTIMES_IMPLEMENTATION is USE_RESOURCE_GETRUSAGE:
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systimes = getrusage_systimes
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elif SYSTIMES_IMPLEMENTATION is USE_PROCESS_TIME_CLOCK:
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systimes = process_time_clock_systimes
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elif SYSTIMES_IMPLEMENTATION is USE_WALL_TIME_CLOCK:
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systimes = wall_clock_clock_systimes
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elif SYSTIMES_IMPLEMENTATION is USE_WALL_TIME_TIME:
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systimes = wall_clock_time_systimes
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elif SYSTIMES_IMPLEMENTATION is USE_WIN32PROCESS_GETPROCESSTIMES:
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systimes = win32process_getprocesstimes_systimes
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elif SYSTIMES_IMPLEMENTATION is USE_CTYPES_GETPROCESSTIMES:
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systimes = ctypes_getprocesstimes_systimes
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else:
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raise TypeError('no suitable systimes() implementation found')
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def processtime():
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""" Return the total time spent on the process.
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This is the sum of user and system time as returned by
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systimes().
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"""
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user, system = systimes()
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return user + system
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### Testing
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def some_workload():
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x = 0
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for i in range(10000000):
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x = x + 1
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def test_workload():
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print('Testing systimes() under load conditions')
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t0 = systimes()
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some_workload()
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t1 = systimes()
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print('before:', t0)
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print('after:', t1)
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print('differences:', (t1[0] - t0[0], t1[1] - t0[1]))
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print()
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def test_idle():
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print('Testing systimes() under idle conditions')
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t0 = systimes()
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time.sleep(1)
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t1 = systimes()
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print('before:', t0)
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print('after:', t1)
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print('differences:', (t1[0] - t0[0], t1[1] - t0[1]))
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print()
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if __name__ == '__main__':
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print('Using %s as timer' % SYSTIMES_IMPLEMENTATION)
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print()
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test_workload()
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test_idle()
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