blob: b7a795b45300f501acdb945ea334dcd3de557574 [file] [log] [blame]
#!/usr/bin/env python
# Copyright 2017 the V8 project authors. All rights reserved.
# Use of this source code is governed by a BSD-style license that can be
# found in the LICENSE file.
'''
python %prog
Compare perf trybot JSON files and output the results into a pleasing HTML page.
Examples:
%prog -t "ia32 results" Result,../result.json Master,/path-to/master.json -o results.html
%prog -t "x64 results" ../result.json master.json -o results.html
'''
from collections import OrderedDict
import commands
import json
import math
from argparse import ArgumentParser
import os
import shutil
import sys
import tempfile
PERCENT_CONSIDERED_SIGNIFICANT = 0.5
PROBABILITY_CONSIDERED_SIGNIFICANT = 0.02
PROBABILITY_CONSIDERED_MEANINGLESS = 0.05
class Statistics:
@staticmethod
def Mean(values):
return float(sum(values)) / len(values)
@staticmethod
def Variance(values, average):
return map(lambda x: (x - average) ** 2, values)
@staticmethod
def StandardDeviation(values, average):
return math.sqrt(Statistics.Mean(Statistics.Variance(values, average)))
@staticmethod
def ComputeZ(baseline_avg, baseline_sigma, mean, n):
if baseline_sigma == 0:
return 1000.0;
return abs((mean - baseline_avg) / (baseline_sigma / math.sqrt(n)))
# Values from http://www.fourmilab.ch/rpkp/experiments/analysis/zCalc.html
@staticmethod
def ComputeProbability(z):
if z > 2.575829: # p 0.005: two sided < 0.01
return 0
if z > 2.326348: # p 0.010
return 0.01
if z > 2.170091: # p 0.015
return 0.02
if z > 2.053749: # p 0.020
return 0.03
if z > 1.959964: # p 0.025: two sided < 0.05
return 0.04
if z > 1.880793: # p 0.030
return 0.05
if z > 1.811910: # p 0.035
return 0.06
if z > 1.750686: # p 0.040
return 0.07
if z > 1.695397: # p 0.045
return 0.08
if z > 1.644853: # p 0.050: two sided < 0.10
return 0.09
if z > 1.281551: # p 0.100: two sided < 0.20
return 0.10
return 0.20 # two sided p >= 0.20
class ResultsDiff:
def __init__(self, significant, notable, percentage_string):
self.significant_ = significant
self.notable_ = notable
self.percentage_string_ = percentage_string
def percentage_string(self):
return self.percentage_string_;
def isSignificant(self):
return self.significant_
def isNotablyPositive(self):
return self.notable_ > 0
def isNotablyNegative(self):
return self.notable_ < 0
class BenchmarkResult:
def __init__(self, units, count, result, sigma):
self.units_ = units
self.count_ = float(count)
self.result_ = float(result)
self.sigma_ = float(sigma)
def Compare(self, other):
if self.units_ != other.units_:
print ("Incompatible units: %s and %s" % (self.units_, other.units_))
sys.exit(1)
significant = False
notable = 0
percentage_string = ""
# compute notability and significance.
if self.units_ == "score":
compare_num = 100*self.result_/other.result_ - 100
else:
compare_num = 100*other.result_/self.result_ - 100
if abs(compare_num) > 0.1:
percentage_string = "%3.1f" % (compare_num)
z = Statistics.ComputeZ(other.result_, other.sigma_,
self.result_, self.count_)
p = Statistics.ComputeProbability(z)
if p < PROBABILITY_CONSIDERED_SIGNIFICANT:
significant = True
if compare_num >= PERCENT_CONSIDERED_SIGNIFICANT:
notable = 1
elif compare_num <= -PERCENT_CONSIDERED_SIGNIFICANT:
notable = -1
return ResultsDiff(significant, notable, percentage_string)
def result(self):
return self.result_
def sigma(self):
return self.sigma_
class Benchmark:
def __init__(self, name):
self.name_ = name
self.runs_ = {}
def name(self):
return self.name_
def getResult(self, run_name):
return self.runs_.get(run_name)
def appendResult(self, run_name, trace):
values = map(float, trace['results'])
count = len(values)
mean = Statistics.Mean(values)
stddev = float(trace.get('stddev') or
Statistics.StandardDeviation(values, mean))
units = trace["units"]
# print run_name, units, count, mean, stddev
self.runs_[run_name] = BenchmarkResult(units, count, mean, stddev)
class BenchmarkSuite:
def __init__(self, name):
self.name_ = name
self.benchmarks_ = {}
def SortedTestKeys(self):
keys = self.benchmarks_.keys()
keys.sort()
t = "Total"
if t in keys:
keys.remove(t)
keys.append(t)
return keys
def name(self):
return self.name_
def getBenchmark(self, benchmark_name):
benchmark_object = self.benchmarks_.get(benchmark_name)
if benchmark_object == None:
benchmark_object = Benchmark(benchmark_name)
self.benchmarks_[benchmark_name] = benchmark_object
return benchmark_object
class ResultTableRenderer:
def __init__(self, output_file):
self.benchmarks_ = []
self.print_output_ = []
self.output_file_ = output_file
def Print(self, str_data):
self.print_output_.append(str_data)
def FlushOutput(self):
string_data = "\n".join(self.print_output_)
print_output = []
if self.output_file_:
# create a file
with open(self.output_file_, "w") as text_file:
text_file.write(string_data)
else:
print(string_data)
def bold(self, data):
return "<b>%s</b>" % data
def red(self, data):
return "<font color=\"red\">%s</font>" % data
def green(self, data):
return "<font color=\"green\">%s</font>" % data
def PrintHeader(self):
data = """<html>
<head>
<title>Output</title>
<style type="text/css">
/*
Style inspired by Andy Ferra's gist at https://gist.github.com/andyferra/2554919
*/
body {
font-family: Helvetica, arial, sans-serif;
font-size: 14px;
line-height: 1.6;
padding-top: 10px;
padding-bottom: 10px;
background-color: white;
padding: 30px;
}
h1, h2, h3, h4, h5, h6 {
margin: 20px 0 10px;
padding: 0;
font-weight: bold;
-webkit-font-smoothing: antialiased;
cursor: text;
position: relative;
}
h1 {
font-size: 28px;
color: black;
}
h2 {
font-size: 24px;
border-bottom: 1px solid #cccccc;
color: black;
}
h3 {
font-size: 18px;
}
h4 {
font-size: 16px;
}
h5 {
font-size: 14px;
}
h6 {
color: #777777;
font-size: 14px;
}
p, blockquote, ul, ol, dl, li, table, pre {
margin: 15px 0;
}
li p.first {
display: inline-block;
}
ul, ol {
padding-left: 30px;
}
ul :first-child, ol :first-child {
margin-top: 0;
}
ul :last-child, ol :last-child {
margin-bottom: 0;
}
table {
padding: 0;
}
table tr {
border-top: 1px solid #cccccc;
background-color: white;
margin: 0;
padding: 0;
}
table tr:nth-child(2n) {
background-color: #f8f8f8;
}
table tr th {
font-weight: bold;
border: 1px solid #cccccc;
text-align: left;
margin: 0;
padding: 6px 13px;
}
table tr td {
border: 1px solid #cccccc;
text-align: right;
margin: 0;
padding: 6px 13px;
}
table tr td.name-column {
text-align: left;
}
table tr th :first-child, table tr td :first-child {
margin-top: 0;
}
table tr th :last-child, table tr td :last-child {
margin-bottom: 0;
}
</style>
</head>
<body>
"""
self.Print(data)
def StartSuite(self, suite_name, run_names):
self.Print("<h2>")
self.Print("<a name=\"%s\">%s</a> <a href=\"#top\">(top)</a>" %
(suite_name, suite_name))
self.Print("</h2>");
self.Print("<table class=\"benchmark\">")
self.Print("<thead>")
self.Print(" <th>Test</th>")
main_run = None
for run_name in run_names:
self.Print(" <th>%s</th>" % run_name)
if main_run == None:
main_run = run_name
else:
self.Print(" <th>%</th>")
self.Print("</thead>")
self.Print("<tbody>")
def FinishSuite(self):
self.Print("</tbody>")
self.Print("</table>")
def StartBenchmark(self, benchmark_name):
self.Print(" <tr>")
self.Print(" <td class=\"name-column\">%s</td>" % benchmark_name)
def FinishBenchmark(self):
self.Print(" </tr>")
def PrintResult(self, run):
if run == None:
self.PrintEmptyCell()
return
self.Print(" <td>%3.1f</td>" % run.result())
def PrintComparison(self, run, main_run):
if run == None or main_run == None:
self.PrintEmptyCell()
return
diff = run.Compare(main_run)
res = diff.percentage_string()
if diff.isSignificant():
res = self.bold(res)
if diff.isNotablyPositive():
res = self.green(res)
elif diff.isNotablyNegative():
res = self.red(res)
self.Print(" <td>%s</td>" % res)
def PrintEmptyCell(self):
self.Print(" <td></td>")
def StartTOC(self, title):
self.Print("<h1>%s</h1>" % title)
self.Print("<ul>")
def FinishTOC(self):
self.Print("</ul>")
def PrintBenchmarkLink(self, benchmark):
self.Print("<li><a href=\"#" + benchmark + "\">" + benchmark + "</a></li>")
def PrintFooter(self):
data = """</body>
</html>
"""
self.Print(data)
def Render(args):
benchmark_suites = {}
run_names = OrderedDict()
for json_file_list in args.json_file_list:
run_name = json_file_list[0]
if run_name.endswith(".json"):
# The first item in the list is also a file name
run_name = os.path.splitext(run_name)[0]
filenames = json_file_list
else:
filenames = json_file_list[1:]
for filename in filenames:
print ("Processing result set \"%s\", file: %s" % (run_name, filename))
with open(filename) as json_data:
data = json.load(json_data)
run_names[run_name] = 0
for error in data["errors"]:
print "Error:", error
for trace in data["traces"]:
suite_name = trace["graphs"][0]
benchmark_name = "/".join(trace["graphs"][1:])
benchmark_suite_object = benchmark_suites.get(suite_name)
if benchmark_suite_object == None:
benchmark_suite_object = BenchmarkSuite(suite_name)
benchmark_suites[suite_name] = benchmark_suite_object
benchmark_object = benchmark_suite_object.getBenchmark(benchmark_name)
benchmark_object.appendResult(run_name, trace);
renderer = ResultTableRenderer(args.output)
renderer.PrintHeader()
title = args.title or "Benchmark results"
renderer.StartTOC(title)
for suite_name, benchmark_suite_object in sorted(benchmark_suites.iteritems()):
renderer.PrintBenchmarkLink(suite_name)
renderer.FinishTOC()
for suite_name, benchmark_suite_object in sorted(benchmark_suites.iteritems()):
renderer.StartSuite(suite_name, run_names)
for benchmark_name in benchmark_suite_object.SortedTestKeys():
benchmark_object = benchmark_suite_object.getBenchmark(benchmark_name)
# print suite_name, benchmark_object.name()
renderer.StartBenchmark(benchmark_name)
main_run = None
main_result = None
for run_name in run_names:
result = benchmark_object.getResult(run_name)
renderer.PrintResult(result)
if main_run == None:
main_run = run_name
main_result = result
else:
renderer.PrintComparison(result, main_result)
renderer.FinishBenchmark()
renderer.FinishSuite()
renderer.PrintFooter()
renderer.FlushOutput()
def CommaSeparatedList(arg):
return [x for x in arg.split(',')]
if __name__ == '__main__':
parser = ArgumentParser(description="Compare perf trybot JSON files and " +
"output the results into a pleasing HTML page.")
parser.add_argument("-t", "--title", dest="title",
help="Optional title of the web page")
parser.add_argument("-o", "--output", dest="output",
help="Write html output to this file rather than stdout")
parser.add_argument("json_file_list", nargs="+", type=CommaSeparatedList,
help="[column name,]./path-to/result.json - a comma-separated" +
" list of optional column name and paths to json files")
args = parser.parse_args()
Render(args)