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975 lines
32 KiB
Python
Executable File
975 lines
32 KiB
Python
Executable File
#!/usr/local/bin/python -O
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""" A Python Benchmark Suite
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"""
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# Note: Please keep this module compatible to Python 2.6.
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#
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# Tests may include features in later Python versions, but these
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# should then be embedded in try-except clauses in the configuration
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# module Setup.py.
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#
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from __future__ import print_function
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# pybench Copyright
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__copyright__ = """\
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Copyright (c), 1997-2006, Marc-Andre Lemburg (mal@lemburg.com)
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Copyright (c), 2000-2006, eGenix.com Software GmbH (info@egenix.com)
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All Rights Reserved.
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Permission to use, copy, modify, and distribute this software and its
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documentation for any purpose and without fee or royalty is hereby
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granted, provided that the above copyright notice appear in all copies
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and that both that copyright notice and this permission notice appear
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in supporting documentation or portions thereof, including
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modifications, that you make.
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THE AUTHOR MARC-ANDRE LEMBURG DISCLAIMS ALL WARRANTIES WITH REGARD TO
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THIS SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND
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FITNESS, IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL,
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INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING
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FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT,
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NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION
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WITH THE USE OR PERFORMANCE OF THIS SOFTWARE !
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"""
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import sys
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import time
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import platform
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from CommandLine import *
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try:
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import cPickle
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pickle = cPickle
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except ImportError:
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import pickle
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# Version number; version history: see README file !
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__version__ = '2.1'
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### Constants
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# Second fractions
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MILLI_SECONDS = 1e3
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MICRO_SECONDS = 1e6
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# Percent unit
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PERCENT = 100
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# Horizontal line length
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LINE = 79
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# Minimum test run-time
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MIN_TEST_RUNTIME = 1e-3
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# Number of calibration runs to use for calibrating the tests
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CALIBRATION_RUNS = 20
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# Number of calibration loops to run for each calibration run
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CALIBRATION_LOOPS = 20
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# Allow skipping calibration ?
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ALLOW_SKIPPING_CALIBRATION = 1
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# Timer types
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TIMER_TIME_TIME = 'time.time'
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TIMER_TIME_PROCESS_TIME = 'time.process_time'
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TIMER_TIME_PERF_COUNTER = 'time.perf_counter'
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TIMER_TIME_CLOCK = 'time.clock'
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TIMER_SYSTIMES_PROCESSTIME = 'systimes.processtime'
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# Choose platform default timer
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if hasattr(time, 'perf_counter'):
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TIMER_PLATFORM_DEFAULT = TIMER_TIME_PERF_COUNTER
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elif sys.platform[:3] == 'win':
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# On WinXP this has 2.5ms resolution
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TIMER_PLATFORM_DEFAULT = TIMER_TIME_CLOCK
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else:
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# On Linux this has 1ms resolution
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TIMER_PLATFORM_DEFAULT = TIMER_TIME_TIME
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# Print debug information ?
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_debug = 0
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### Helpers
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def get_timer(timertype):
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if timertype == TIMER_TIME_TIME:
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return time.time
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elif timertype == TIMER_TIME_PROCESS_TIME:
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return time.process_time
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elif timertype == TIMER_TIME_PERF_COUNTER:
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return time.perf_counter
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elif timertype == TIMER_TIME_CLOCK:
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return time.clock
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elif timertype == TIMER_SYSTIMES_PROCESSTIME:
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import systimes
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return systimes.processtime
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else:
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raise TypeError('unknown timer type: %s' % timertype)
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def get_machine_details():
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if _debug:
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print('Getting machine details...')
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buildno, builddate = platform.python_build()
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python = platform.python_version()
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# XXX this is now always UCS4, maybe replace it with 'PEP393' in 3.3+?
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if sys.maxunicode == 65535:
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# UCS2 build (standard)
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unitype = 'UCS2'
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else:
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# UCS4 build (most recent Linux distros)
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unitype = 'UCS4'
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bits, linkage = platform.architecture()
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return {
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'platform': platform.platform(),
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'processor': platform.processor(),
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'executable': sys.executable,
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'implementation': getattr(platform, 'python_implementation',
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lambda:'n/a')(),
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'python': platform.python_version(),
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'compiler': platform.python_compiler(),
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'buildno': buildno,
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'builddate': builddate,
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'unicode': unitype,
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'bits': bits,
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}
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def print_machine_details(d, indent=''):
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l = ['Machine Details:',
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' Platform ID: %s' % d.get('platform', 'n/a'),
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' Processor: %s' % d.get('processor', 'n/a'),
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'',
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'Python:',
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' Implementation: %s' % d.get('implementation', 'n/a'),
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' Executable: %s' % d.get('executable', 'n/a'),
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' Version: %s' % d.get('python', 'n/a'),
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' Compiler: %s' % d.get('compiler', 'n/a'),
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' Bits: %s' % d.get('bits', 'n/a'),
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' Build: %s (#%s)' % (d.get('builddate', 'n/a'),
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d.get('buildno', 'n/a')),
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' Unicode: %s' % d.get('unicode', 'n/a'),
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]
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joiner = '\n' + indent
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print(indent + joiner.join(l) + '\n')
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### Test baseclass
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class Test:
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""" All test must have this class as baseclass. It provides
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the necessary interface to the benchmark machinery.
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The tests must set .rounds to a value high enough to let the
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test run between 20-50 seconds. This is needed because
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clock()-timing only gives rather inaccurate values (on Linux,
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for example, it is accurate to a few hundreths of a
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second). If you don't want to wait that long, use a warp
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factor larger than 1.
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It is also important to set the .operations variable to a
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value representing the number of "virtual operations" done per
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call of .run().
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If you change a test in some way, don't forget to increase
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its version number.
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"""
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### Instance variables that each test should override
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# Version number of the test as float (x.yy); this is important
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# for comparisons of benchmark runs - tests with unequal version
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# number will not get compared.
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version = 2.1
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# The number of abstract operations done in each round of the
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# test. An operation is the basic unit of what you want to
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# measure. The benchmark will output the amount of run-time per
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# operation. Note that in order to raise the measured timings
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# significantly above noise level, it is often required to repeat
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# sets of operations more than once per test round. The measured
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# overhead per test round should be less than 1 second.
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operations = 1
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# Number of rounds to execute per test run. This should be
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# adjusted to a figure that results in a test run-time of between
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# 1-2 seconds.
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rounds = 100000
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### Internal variables
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# Mark this class as implementing a test
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is_a_test = 1
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# Last timing: (real, run, overhead)
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last_timing = (0.0, 0.0, 0.0)
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# Warp factor to use for this test
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warp = 1
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# Number of calibration runs to use
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calibration_runs = CALIBRATION_RUNS
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# List of calibration timings
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overhead_times = None
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# List of test run timings
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times = []
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# Timer used for the benchmark
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timer = TIMER_PLATFORM_DEFAULT
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def __init__(self, warp=None, calibration_runs=None, timer=None):
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# Set parameters
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if warp is not None:
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self.rounds = int(self.rounds / warp)
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if self.rounds == 0:
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raise ValueError('warp factor set too high')
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self.warp = warp
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if calibration_runs is not None:
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if (not ALLOW_SKIPPING_CALIBRATION and
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calibration_runs < 1):
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raise ValueError('at least one calibration run is required')
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self.calibration_runs = calibration_runs
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if timer is not None:
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self.timer = timer
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# Init variables
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self.times = []
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self.overhead_times = []
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# We want these to be in the instance dict, so that pickle
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# saves them
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self.version = self.version
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self.operations = self.operations
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self.rounds = self.rounds
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def get_timer(self):
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""" Return the timer function to use for the test.
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"""
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return get_timer(self.timer)
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def compatible(self, other):
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""" Return 1/0 depending on whether the test is compatible
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with the other Test instance or not.
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"""
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if self.version != other.version:
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return 0
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if self.rounds != other.rounds:
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return 0
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return 1
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def calibrate_test(self):
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if self.calibration_runs == 0:
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self.overhead_times = [0.0]
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return
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calibrate = self.calibrate
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timer = self.get_timer()
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calibration_loops = range(CALIBRATION_LOOPS)
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# Time the calibration loop overhead
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prep_times = []
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for i in range(self.calibration_runs):
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t = timer()
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for i in calibration_loops:
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pass
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t = timer() - t
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prep_times.append(t / CALIBRATION_LOOPS)
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min_prep_time = min(prep_times)
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if _debug:
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print()
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print('Calib. prep time = %.6fms' % (
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min_prep_time * MILLI_SECONDS))
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# Time the calibration runs (doing CALIBRATION_LOOPS loops of
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# .calibrate() method calls each)
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for i in range(self.calibration_runs):
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t = timer()
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for i in calibration_loops:
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calibrate()
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t = timer() - t
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self.overhead_times.append(t / CALIBRATION_LOOPS
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- min_prep_time)
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# Check the measured times
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min_overhead = min(self.overhead_times)
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max_overhead = max(self.overhead_times)
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if _debug:
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print('Calib. overhead time = %.6fms' % (
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min_overhead * MILLI_SECONDS))
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if min_overhead < 0.0:
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raise ValueError('calibration setup did not work')
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if max_overhead - min_overhead > 0.1:
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raise ValueError(
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'overhead calibration timing range too inaccurate: '
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'%r - %r' % (min_overhead, max_overhead))
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def run(self):
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""" Run the test in two phases: first calibrate, then
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do the actual test. Be careful to keep the calibration
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timing low w/r to the test timing.
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"""
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test = self.test
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timer = self.get_timer()
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# Get calibration
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min_overhead = min(self.overhead_times)
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# Test run
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t = timer()
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test()
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t = timer() - t
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if t < MIN_TEST_RUNTIME:
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raise ValueError('warp factor too high: '
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'test times are < 10ms')
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eff_time = t - min_overhead
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if eff_time < 0:
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raise ValueError('wrong calibration')
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self.last_timing = (eff_time, t, min_overhead)
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self.times.append(eff_time)
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def calibrate(self):
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""" Calibrate the test.
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This method should execute everything that is needed to
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setup and run the test - except for the actual operations
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that you intend to measure. pybench uses this method to
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measure the test implementation overhead.
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"""
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return
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def test(self):
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""" Run the test.
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The test needs to run self.rounds executing
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self.operations number of operations each.
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"""
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return
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def stat(self):
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""" Return test run statistics as tuple:
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(minimum run time,
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average run time,
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total run time,
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average time per operation,
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minimum overhead time)
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"""
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runs = len(self.times)
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if runs == 0:
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return 0.0, 0.0, 0.0, 0.0
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min_time = min(self.times)
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total_time = sum(self.times)
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avg_time = total_time / float(runs)
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operation_avg = total_time / float(runs
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* self.rounds
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* self.operations)
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if self.overhead_times:
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min_overhead = min(self.overhead_times)
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else:
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min_overhead = self.last_timing[2]
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return min_time, avg_time, total_time, operation_avg, min_overhead
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### Load Setup
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# This has to be done after the definition of the Test class, since
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# the Setup module will import subclasses using this class.
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import Setup
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### Benchmark base class
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class Benchmark:
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# Name of the benchmark
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name = ''
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# Number of benchmark rounds to run
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rounds = 1
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# Warp factor use to run the tests
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warp = 1 # Warp factor
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# Average benchmark round time
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roundtime = 0
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# Benchmark version number as float x.yy
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version = 2.1
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# Produce verbose output ?
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verbose = 0
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# Dictionary with the machine details
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machine_details = None
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# Timer used for the benchmark
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timer = TIMER_PLATFORM_DEFAULT
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def __init__(self, name, verbose=None, timer=None, warp=None,
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calibration_runs=None):
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if name:
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self.name = name
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else:
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self.name = '%04i-%02i-%02i %02i:%02i:%02i' % \
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(time.localtime(time.time())[:6])
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if verbose is not None:
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self.verbose = verbose
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if timer is not None:
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self.timer = timer
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if warp is not None:
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self.warp = warp
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if calibration_runs is not None:
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self.calibration_runs = calibration_runs
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# Init vars
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self.tests = {}
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if _debug:
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print('Getting machine details...')
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self.machine_details = get_machine_details()
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# Make .version an instance attribute to have it saved in the
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# Benchmark pickle
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self.version = self.version
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def get_timer(self):
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""" Return the timer function to use for the test.
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"""
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return get_timer(self.timer)
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def compatible(self, other):
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""" Return 1/0 depending on whether the benchmark is
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compatible with the other Benchmark instance or not.
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"""
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if self.version != other.version:
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return 0
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if (self.machine_details == other.machine_details and
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self.timer != other.timer):
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return 0
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if (self.calibration_runs == 0 and
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other.calibration_runs != 0):
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return 0
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if (self.calibration_runs != 0 and
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other.calibration_runs == 0):
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return 0
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return 1
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def load_tests(self, setupmod, limitnames=None):
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# Add tests
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if self.verbose:
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print('Searching for tests ...')
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print('--------------------------------------')
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for testclass in setupmod.__dict__.values():
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if not hasattr(testclass, 'is_a_test'):
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continue
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name = testclass.__name__
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if name == 'Test':
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continue
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if (limitnames is not None and
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limitnames.search(name) is None):
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continue
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self.tests[name] = testclass(
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warp=self.warp,
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calibration_runs=self.calibration_runs,
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timer=self.timer)
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l = sorted(self.tests)
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if self.verbose:
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for name in l:
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print(' %s' % name)
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print('--------------------------------------')
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print(' %i tests found' % len(l))
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print()
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def calibrate(self):
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print('Calibrating tests. Please wait...', end=' ')
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sys.stdout.flush()
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if self.verbose:
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print()
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print()
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print('Test min max')
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print('-' * LINE)
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tests = sorted(self.tests.items())
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for i in range(len(tests)):
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name, test = tests[i]
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test.calibrate_test()
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if self.verbose:
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print('%30s: %6.3fms %6.3fms' % \
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(name,
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min(test.overhead_times) * MILLI_SECONDS,
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max(test.overhead_times) * MILLI_SECONDS))
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if self.verbose:
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print()
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print('Done with the calibration.')
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else:
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print('done.')
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print()
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def run(self):
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tests = sorted(self.tests.items())
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timer = self.get_timer()
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print('Running %i round(s) of the suite at warp factor %i:' % \
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(self.rounds, self.warp))
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print()
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self.roundtimes = []
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for i in range(self.rounds):
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if self.verbose:
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print(' Round %-25i effective absolute overhead' % (i+1))
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total_eff_time = 0.0
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for j in range(len(tests)):
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name, test = tests[j]
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if self.verbose:
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print('%30s:' % name, end=' ')
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test.run()
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(eff_time, abs_time, min_overhead) = test.last_timing
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total_eff_time = total_eff_time + eff_time
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if self.verbose:
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print(' %5.0fms %5.0fms %7.3fms' % \
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(eff_time * MILLI_SECONDS,
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abs_time * MILLI_SECONDS,
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min_overhead * MILLI_SECONDS))
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self.roundtimes.append(total_eff_time)
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if self.verbose:
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print(' '
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' ------------------------------')
|
|
print(' '
|
|
' Totals: %6.0fms' %
|
|
(total_eff_time * MILLI_SECONDS))
|
|
print()
|
|
else:
|
|
print('* Round %i done in %.3f seconds.' % (i+1,
|
|
total_eff_time))
|
|
print()
|
|
|
|
def stat(self):
|
|
|
|
""" Return benchmark run statistics as tuple:
|
|
|
|
(minimum round time,
|
|
average round time,
|
|
maximum round time)
|
|
|
|
XXX Currently not used, since the benchmark does test
|
|
statistics across all rounds.
|
|
|
|
"""
|
|
runs = len(self.roundtimes)
|
|
if runs == 0:
|
|
return 0.0, 0.0
|
|
min_time = min(self.roundtimes)
|
|
total_time = sum(self.roundtimes)
|
|
avg_time = total_time / float(runs)
|
|
max_time = max(self.roundtimes)
|
|
return (min_time, avg_time, max_time)
|
|
|
|
def print_header(self, title='Benchmark'):
|
|
|
|
print('-' * LINE)
|
|
print('%s: %s' % (title, self.name))
|
|
print('-' * LINE)
|
|
print()
|
|
print(' Rounds: %s' % self.rounds)
|
|
print(' Warp: %s' % self.warp)
|
|
print(' Timer: %s' % self.timer)
|
|
print()
|
|
if self.machine_details:
|
|
print_machine_details(self.machine_details, indent=' ')
|
|
print()
|
|
|
|
def print_benchmark(self, hidenoise=0, limitnames=None):
|
|
|
|
print('Test '
|
|
' minimum average operation overhead')
|
|
print('-' * LINE)
|
|
tests = sorted(self.tests.items())
|
|
total_min_time = 0.0
|
|
total_avg_time = 0.0
|
|
for name, test in tests:
|
|
if (limitnames is not None and
|
|
limitnames.search(name) is None):
|
|
continue
|
|
(min_time,
|
|
avg_time,
|
|
total_time,
|
|
op_avg,
|
|
min_overhead) = test.stat()
|
|
total_min_time = total_min_time + min_time
|
|
total_avg_time = total_avg_time + avg_time
|
|
print('%30s: %5.0fms %5.0fms %6.2fus %7.3fms' % \
|
|
(name,
|
|
min_time * MILLI_SECONDS,
|
|
avg_time * MILLI_SECONDS,
|
|
op_avg * MICRO_SECONDS,
|
|
min_overhead *MILLI_SECONDS))
|
|
print('-' * LINE)
|
|
print('Totals: '
|
|
' %6.0fms %6.0fms' %
|
|
(total_min_time * MILLI_SECONDS,
|
|
total_avg_time * MILLI_SECONDS,
|
|
))
|
|
print()
|
|
|
|
def print_comparison(self, compare_to, hidenoise=0, limitnames=None):
|
|
|
|
# Check benchmark versions
|
|
if compare_to.version != self.version:
|
|
print('* Benchmark versions differ: '
|
|
'cannot compare this benchmark to "%s" !' %
|
|
compare_to.name)
|
|
print()
|
|
self.print_benchmark(hidenoise=hidenoise,
|
|
limitnames=limitnames)
|
|
return
|
|
|
|
# Print header
|
|
compare_to.print_header('Comparing with')
|
|
print('Test '
|
|
' minimum run-time average run-time')
|
|
print(' '
|
|
' this other diff this other diff')
|
|
print('-' * LINE)
|
|
|
|
# Print test comparisons
|
|
tests = sorted(self.tests.items())
|
|
total_min_time = other_total_min_time = 0.0
|
|
total_avg_time = other_total_avg_time = 0.0
|
|
benchmarks_compatible = self.compatible(compare_to)
|
|
tests_compatible = 1
|
|
for name, test in tests:
|
|
if (limitnames is not None and
|
|
limitnames.search(name) is None):
|
|
continue
|
|
(min_time,
|
|
avg_time,
|
|
total_time,
|
|
op_avg,
|
|
min_overhead) = test.stat()
|
|
total_min_time = total_min_time + min_time
|
|
total_avg_time = total_avg_time + avg_time
|
|
try:
|
|
other = compare_to.tests[name]
|
|
except KeyError:
|
|
other = None
|
|
if other is None:
|
|
# Other benchmark doesn't include the given test
|
|
min_diff, avg_diff = 'n/a', 'n/a'
|
|
other_min_time = 0.0
|
|
other_avg_time = 0.0
|
|
tests_compatible = 0
|
|
else:
|
|
(other_min_time,
|
|
other_avg_time,
|
|
other_total_time,
|
|
other_op_avg,
|
|
other_min_overhead) = other.stat()
|
|
other_total_min_time = other_total_min_time + other_min_time
|
|
other_total_avg_time = other_total_avg_time + other_avg_time
|
|
if (benchmarks_compatible and
|
|
test.compatible(other)):
|
|
# Both benchmark and tests are comparable
|
|
min_diff = ((min_time * self.warp) /
|
|
(other_min_time * other.warp) - 1.0)
|
|
avg_diff = ((avg_time * self.warp) /
|
|
(other_avg_time * other.warp) - 1.0)
|
|
if hidenoise and abs(min_diff) < 10.0:
|
|
min_diff = ''
|
|
else:
|
|
min_diff = '%+5.1f%%' % (min_diff * PERCENT)
|
|
if hidenoise and abs(avg_diff) < 10.0:
|
|
avg_diff = ''
|
|
else:
|
|
avg_diff = '%+5.1f%%' % (avg_diff * PERCENT)
|
|
else:
|
|
# Benchmark or tests are not comparable
|
|
min_diff, avg_diff = 'n/a', 'n/a'
|
|
tests_compatible = 0
|
|
print('%30s: %5.0fms %5.0fms %7s %5.0fms %5.0fms %7s' % \
|
|
(name,
|
|
min_time * MILLI_SECONDS,
|
|
other_min_time * MILLI_SECONDS * compare_to.warp / self.warp,
|
|
min_diff,
|
|
avg_time * MILLI_SECONDS,
|
|
other_avg_time * MILLI_SECONDS * compare_to.warp / self.warp,
|
|
avg_diff))
|
|
print('-' * LINE)
|
|
|
|
# Summarise test results
|
|
if not benchmarks_compatible or not tests_compatible:
|
|
min_diff, avg_diff = 'n/a', 'n/a'
|
|
else:
|
|
if other_total_min_time != 0.0:
|
|
min_diff = '%+5.1f%%' % (
|
|
((total_min_time * self.warp) /
|
|
(other_total_min_time * compare_to.warp) - 1.0) * PERCENT)
|
|
else:
|
|
min_diff = 'n/a'
|
|
if other_total_avg_time != 0.0:
|
|
avg_diff = '%+5.1f%%' % (
|
|
((total_avg_time * self.warp) /
|
|
(other_total_avg_time * compare_to.warp) - 1.0) * PERCENT)
|
|
else:
|
|
avg_diff = 'n/a'
|
|
print('Totals: '
|
|
' %5.0fms %5.0fms %7s %5.0fms %5.0fms %7s' %
|
|
(total_min_time * MILLI_SECONDS,
|
|
(other_total_min_time * compare_to.warp/self.warp
|
|
* MILLI_SECONDS),
|
|
min_diff,
|
|
total_avg_time * MILLI_SECONDS,
|
|
(other_total_avg_time * compare_to.warp/self.warp
|
|
* MILLI_SECONDS),
|
|
avg_diff
|
|
))
|
|
print()
|
|
print('(this=%s, other=%s)' % (self.name,
|
|
compare_to.name))
|
|
print()
|
|
|
|
class PyBenchCmdline(Application):
|
|
|
|
header = ("PYBENCH - a benchmark test suite for Python "
|
|
"interpreters/compilers.")
|
|
|
|
version = __version__
|
|
|
|
debug = _debug
|
|
|
|
options = [ArgumentOption('-n',
|
|
'number of rounds',
|
|
Setup.Number_of_rounds),
|
|
ArgumentOption('-f',
|
|
'save benchmark to file arg',
|
|
''),
|
|
ArgumentOption('-c',
|
|
'compare benchmark with the one in file arg',
|
|
''),
|
|
ArgumentOption('-s',
|
|
'show benchmark in file arg, then exit',
|
|
''),
|
|
ArgumentOption('-w',
|
|
'set warp factor to arg',
|
|
Setup.Warp_factor),
|
|
ArgumentOption('-t',
|
|
'run only tests with names matching arg',
|
|
''),
|
|
ArgumentOption('-C',
|
|
'set the number of calibration runs to arg',
|
|
CALIBRATION_RUNS),
|
|
SwitchOption('-d',
|
|
'hide noise in comparisons',
|
|
0),
|
|
SwitchOption('-v',
|
|
'verbose output (not recommended)',
|
|
0),
|
|
SwitchOption('--with-gc',
|
|
'enable garbage collection',
|
|
0),
|
|
SwitchOption('--with-syscheck',
|
|
'use default sys check interval',
|
|
0),
|
|
ArgumentOption('--timer',
|
|
'use given timer',
|
|
TIMER_PLATFORM_DEFAULT),
|
|
]
|
|
|
|
about = """\
|
|
The normal operation is to run the suite and display the
|
|
results. Use -f to save them for later reuse or comparisons.
|
|
|
|
Available timers:
|
|
|
|
time.time
|
|
time.clock
|
|
systimes.processtime
|
|
|
|
Examples:
|
|
|
|
python2.1 pybench.py -f p21.pybench
|
|
python2.5 pybench.py -f p25.pybench
|
|
python pybench.py -s p25.pybench -c p21.pybench
|
|
"""
|
|
copyright = __copyright__
|
|
|
|
def main(self):
|
|
|
|
rounds = self.values['-n']
|
|
reportfile = self.values['-f']
|
|
show_bench = self.values['-s']
|
|
compare_to = self.values['-c']
|
|
hidenoise = self.values['-d']
|
|
warp = int(self.values['-w'])
|
|
withgc = self.values['--with-gc']
|
|
limitnames = self.values['-t']
|
|
if limitnames:
|
|
if _debug:
|
|
print('* limiting test names to one with substring "%s"' % \
|
|
limitnames)
|
|
limitnames = re.compile(limitnames, re.I)
|
|
else:
|
|
limitnames = None
|
|
verbose = self.verbose
|
|
withsyscheck = self.values['--with-syscheck']
|
|
calibration_runs = self.values['-C']
|
|
timer = self.values['--timer']
|
|
|
|
print('-' * LINE)
|
|
print('PYBENCH %s' % __version__)
|
|
print('-' * LINE)
|
|
print('* using %s %s' % (
|
|
getattr(platform, 'python_implementation', lambda:'Python')(),
|
|
' '.join(sys.version.split())))
|
|
|
|
# Switch off garbage collection
|
|
if not withgc:
|
|
try:
|
|
import gc
|
|
except ImportError:
|
|
print('* Python version doesn\'t support garbage collection')
|
|
else:
|
|
try:
|
|
gc.disable()
|
|
except NotImplementedError:
|
|
print('* Python version doesn\'t support gc.disable')
|
|
else:
|
|
print('* disabled garbage collection')
|
|
|
|
# "Disable" sys check interval
|
|
if not withsyscheck:
|
|
# Too bad the check interval uses an int instead of a long...
|
|
value = 2147483647
|
|
try:
|
|
sys.setcheckinterval(value)
|
|
except (AttributeError, NotImplementedError):
|
|
print('* Python version doesn\'t support sys.setcheckinterval')
|
|
else:
|
|
print('* system check interval set to maximum: %s' % value)
|
|
|
|
if timer == TIMER_SYSTIMES_PROCESSTIME:
|
|
import systimes
|
|
print('* using timer: systimes.processtime (%s)' % \
|
|
systimes.SYSTIMES_IMPLEMENTATION)
|
|
else:
|
|
# Check that the clock function does exist
|
|
try:
|
|
get_timer(timer)
|
|
except TypeError:
|
|
print("* Error: Unknown timer: %s" % timer)
|
|
return
|
|
|
|
print('* using timer: %s' % timer)
|
|
if hasattr(time, 'get_clock_info'):
|
|
info = time.get_clock_info(timer[5:])
|
|
print('* timer: resolution=%s, implementation=%s'
|
|
% (info.resolution, info.implementation))
|
|
|
|
print()
|
|
|
|
if compare_to:
|
|
try:
|
|
f = open(compare_to,'rb')
|
|
bench = pickle.load(f)
|
|
bench.name = compare_to
|
|
f.close()
|
|
compare_to = bench
|
|
except IOError as reason:
|
|
print('* Error opening/reading file %s: %s' % (
|
|
repr(compare_to),
|
|
reason))
|
|
compare_to = None
|
|
|
|
if show_bench:
|
|
try:
|
|
f = open(show_bench,'rb')
|
|
bench = pickle.load(f)
|
|
bench.name = show_bench
|
|
f.close()
|
|
bench.print_header()
|
|
if compare_to:
|
|
bench.print_comparison(compare_to,
|
|
hidenoise=hidenoise,
|
|
limitnames=limitnames)
|
|
else:
|
|
bench.print_benchmark(hidenoise=hidenoise,
|
|
limitnames=limitnames)
|
|
except IOError as reason:
|
|
print('* Error opening/reading file %s: %s' % (
|
|
repr(show_bench),
|
|
reason))
|
|
print()
|
|
return
|
|
|
|
if reportfile:
|
|
print('Creating benchmark: %s (rounds=%i, warp=%i)' % \
|
|
(reportfile, rounds, warp))
|
|
print()
|
|
|
|
# Create benchmark object
|
|
bench = Benchmark(reportfile,
|
|
verbose=verbose,
|
|
timer=timer,
|
|
warp=warp,
|
|
calibration_runs=calibration_runs)
|
|
bench.rounds = rounds
|
|
bench.load_tests(Setup, limitnames=limitnames)
|
|
try:
|
|
bench.calibrate()
|
|
bench.run()
|
|
except KeyboardInterrupt:
|
|
print()
|
|
print('*** KeyboardInterrupt -- Aborting')
|
|
print()
|
|
return
|
|
bench.print_header()
|
|
if compare_to:
|
|
bench.print_comparison(compare_to,
|
|
hidenoise=hidenoise,
|
|
limitnames=limitnames)
|
|
else:
|
|
bench.print_benchmark(hidenoise=hidenoise,
|
|
limitnames=limitnames)
|
|
|
|
# Ring bell
|
|
sys.stderr.write('\007')
|
|
|
|
if reportfile:
|
|
try:
|
|
f = open(reportfile,'wb')
|
|
bench.name = reportfile
|
|
pickle.dump(bench,f)
|
|
f.close()
|
|
except IOError as reason:
|
|
print('* Error opening/writing reportfile %s: %s' % (
|
|
reportfile,
|
|
reason))
|
|
print()
|
|
|
|
if __name__ == '__main__':
|
|
PyBenchCmdline()
|