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202 lines
8.1 KiB
Python
Executable File
202 lines
8.1 KiB
Python
Executable File
#!/usr/bin/env python
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# This Source Code Form is subject to the terms of the Mozilla Public
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# License, v. 2.0. If a copy of the MPL was not distributed with this
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# file, You can obtain one at http://mozilla.org/MPL/2.0/.
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"""
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This is a simple script that does one thing only: compare talos runs from
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two revisions. It is intended to check which of two try runs is best or if
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a try improves over the m-c or m-i revision in branches from.
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A big design goal is to avoid bit rot and to assert when bit rot is detected.
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The set of tests we run is a moving target. When possible this script
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should work with any test set, but in parts where it has to hard code
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information, it should try to assert that it is valid so that changes
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are detected and it is fixed earlier.
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"""
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import json
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import urllib2
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import math
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import sys
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from optparse import OptionParser
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# FIXME: currently we assert that we know all the benchmarks just so
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# we are sure to maintain the bigger_is_better set updated. Is there a better
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# way to find/compute it?
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bigger_is_better = frozenset(('v8_7', 'dromaeo_dom', 'dromaeo_css'))
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smaller_is_better = frozenset(('tdhtmlr_paint', 'tp5n_main_rss_paint',
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'ts_paint', 'tp5n_paint', 'tsvgr_opacity',
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'a11yr_paint', 'kraken',
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'tdhtmlr_nochrome_paint',
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'tspaint_places_generated_med', 'tpaint',
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'tp5n_shutdown_paint', 'tsvgr',
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'tp5n_pbytes_paint', 'tscrollr_paint',
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'tspaint_places_generated_max',
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'tp5n_responsiveness_paint',
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'sunspider', 'tp5n_xres_paint', 'num_ctors',
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'tresize', 'trobopan', 'tcheckerboard',
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'tcheck3', 'tcheck2', 'tprovider',
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'tp5n_modlistbytes_paint',
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'trace_malloc_maxheap', 'tp4m_nochrome',
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'trace_malloc_leaks', 'tp4m_main_rss_nochrome',
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'tp4m_shutdown_nochrome', 'tdhtml_nochrome',
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'ts_shutdown', 'tp5n_%cpu_paint',
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'trace_malloc_allocs', 'ts',
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'tsvg_nochrome', 'tp5n_content_rss_paint',
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'tp5n_main_startup_fileio_paint',
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'tp5n_nonmain_normal_netio_paint',
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'tp5n_nonmain_startup_fileio_paint',
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'tp5n_main_normal_fileio_paint',
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'tp5n_nonmain_normal_fileio_paint',
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'tp5n_main_startup_netio_paint',
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'tp5n_main_normal_netio_paint',
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'tp5n_main_shutdown_netio_paint',
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'tp5n_main_shutdown_fileio_paint'))
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all_benchmarks = smaller_is_better | bigger_is_better
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assert len(smaller_is_better & bigger_is_better) == 0
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def get_raw_data_for_revisions(revisions):
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"""Loads data for the revisions, returns an array with one element for each
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revision."""
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selectors = ["revision=%s" % revision for revision in revisions]
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selector = '&'.join(selectors)
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url = "http://graphs.mozilla.org/api/test/runs/revisions?%s" % selector
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url_stream = urllib2.urlopen(url)
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data = json.load(url_stream)
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assert frozenset(data.keys()) == frozenset(('stat', 'revisions'))
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assert data['stat'] == 'ok'
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rev_data = data['revisions']
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assert frozenset(rev_data.keys()) == frozenset(revisions)
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return [rev_data[r] for r in revisions]
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def mean(values):
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return float(sum(values))/len(values)
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def c4(n):
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n = float(n)
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numerator = math.gamma(n/2)*math.sqrt(2/(n-1))
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denominator = math.gamma((n-1)/2)
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return numerator/denominator
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def unbiased_standard_deviation(values):
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n = len(values)
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if n == 1:
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return None
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acc = 0
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avg = mean(values)
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for i in values:
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dist = i - avg
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acc += dist * dist
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return math.sqrt(acc/(n-1))/c4(n)
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class BenchmarkResult:
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""" Stores the summary (mean and standard deviation) of a set of talus
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runs on the same revision and OS."""
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def __init__(self, avg, std):
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self.avg = avg
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self.std = std
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def __str__(self):
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t = "%s," % self.avg
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return "(%-13s %s)" % (t, self.std)
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# FIXME: This function computes the statistics of multiple runs of talos on a
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# single revision. Should it also support computing statistics over runs of
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# different revisions assuming the revisions are equivalent from a performance
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# perspective?
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def digest_revision_data(data):
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ret = {}
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benchmarks = frozenset(data.keys())
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# assert that all the benchmarks are known. If they are not,
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# smaller_is_better or bigger_is_better needs to be updated depending on
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# the benchmark type.
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assert all_benchmarks.issuperset(benchmarks), \
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"%s not found in all_benchmarks" % ','.join((benchmarks - all_benchmarks))
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for benchmark in benchmarks:
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benchmark_data = data[benchmark]
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expected_keys = frozenset(("test_runs", "name", "id"))
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assert frozenset(benchmark_data.keys()) == expected_keys
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test_runs = benchmark_data["test_runs"]
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operating_systems = test_runs.keys()
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results = {}
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for os in operating_systems:
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os_runs = test_runs[os]
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values = []
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for os_run in os_runs:
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# there are 4 fields: test run id, build id, timestamp,
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# mean value
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assert len(os_run) == 4
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values.append(os_run[3])
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avg = mean(values)
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std = unbiased_standard_deviation(values)
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results[os] = BenchmarkResult(avg, std)
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ret[benchmark] = results
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return ret
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def get_data_for_revisions(revisions):
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raw_data = get_raw_data_for_revisions(revisions)
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return [digest_revision_data(x) for x in raw_data]
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def overlaps(a, b):
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return a[1] >= b[0] and b[1] >= a[0]
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def is_significant(old, new):
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# conservative hack: if we don't know, say it is significant.
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if old.std is None or new.std is None:
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return True
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# use a 2 standard deviation interval, which is about 95% confidence.
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old_interval = [old.avg - old.std, old.avg + old.std]
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new_interval = [new.avg - new.std, new.avg + new.std]
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return not overlaps(old_interval, new_interval)
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def compute_difference(benchmark, old, new):
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if benchmark in bigger_is_better:
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new, old = old, new
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if new.avg >= old.avg:
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return "%1.4fx worse" % (new.avg/old.avg)
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else:
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return "%1.4fx better" % (old.avg/new.avg)
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#FIXME: the printing could use a table class that computes the sizes of the
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# cells instead of the current hard coded values.
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def print_data_comparison(datav):
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assert len(datav) == 2
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old_data = datav[0]
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new_data = datav[1]
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old_benchmarks = frozenset(old_data.keys())
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new_benchmarks = frozenset(new_data.keys())
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benchmarks = old_benchmarks.intersection(new_benchmarks)
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for benchmark in sorted(benchmarks):
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print benchmark
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old_benchmark_data = old_data[benchmark]
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new_benchmark_data = new_data[benchmark]
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old_operating_systems = frozenset(old_benchmark_data.keys())
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new_operating_systems = frozenset(new_benchmark_data.keys())
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operating_systems = old_operating_systems.intersection(new_operating_systems)
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for os in sorted(operating_systems):
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old_os_data = old_benchmark_data[os]
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new_os_data = new_benchmark_data[os]
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if not is_significant(old_os_data, new_os_data):
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continue
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diff = compute_difference(benchmark, old_os_data, new_os_data)
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print '%-33s | %-30s -> %-30s %s' % \
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(os, old_os_data, new_os_data, diff)
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print
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def main():
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parser = OptionParser(usage='Usage: %prog old_revision new_revision')
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options, args = parser.parse_args()
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if len(args) != 2:
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parser.print_help()
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sys.exit(1)
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print_data_comparison(get_data_for_revisions(args))
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if __name__ == '__main__':
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main()
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