зеркало из https://github.com/mozilla/gecko-dev.git
235 строки
8.4 KiB
Python
Executable File
235 строки
8.4 KiB
Python
Executable File
#!c:/Python24/python.exe
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#
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# ***** BEGIN LICENSE BLOCK *****
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# Version: MPL 1.1/GPL 2.0/LGPL 2.1
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#
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# The contents of this file are subject to the Mozilla Public License Version
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# 1.1 (the "License"); you may not use this file except in compliance with
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# the License. You may obtain a copy of the License at
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# http://www.mozilla.org/MPL/
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#
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# Software distributed under the License is distributed on an "AS IS" basis,
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# WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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# for the specific language governing rights and limitations under the
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# License.
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#
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# The Original Code is standalone Firefox Windows performance test.
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#
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# The Initial Developer of the Original Code is Google Inc.
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# Portions created by the Initial Developer are Copyright (C) 2006
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# the Initial Developer. All Rights Reserved.
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#
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# Contributor(s):
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# Annie Sullivan <annie.sullivan@gmail.com> (original author)
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#
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# Alternatively, the contents of this file may be used under the terms of
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# either the GNU General Public License Version 2 or later (the "GPL"), or
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# the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
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# in which case the provisions of the GPL or the LGPL are applicable instead
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# of those above. If you wish to allow use of your version of this file only
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# under the terms of either the GPL or the LGPL, and not to allow others to
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# use your version of this file under the terms of the MPL, indicate your
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# decision by deleting the provisions above and replace them with the notice
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# and other provisions required by the GPL or the LGPL. If you do not delete
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# the provisions above, a recipient may use your version of this file under
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# the terms of any one of the MPL, the GPL or the LGPL.
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#
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# ***** END LICENSE BLOCK *****
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"""Writes a report with the results of the Ts (startup) and Tp (page load) tests.
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The report contains the mean startup time for each profile and the standard
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deviation, the sum of page load times and the standard deviation, and a graph
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of each performance counter measured during the page load test.
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"""
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__author__ = 'annie.sullivan@gmail.com (Annie Sullivan)'
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import csv
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import math
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import matplotlib.mlab
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import os
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import pylab
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import re
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import time
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import paths
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def MakeArray(start, len, step):
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"""Helper function to create an array for an axis to plot counter data.
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Args:
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start: The first value in the array
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len: The length of the array
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step: The difference between values in the array
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Returns:
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An array starting at start, with len values each step apart.
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"""
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count = start
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end = start + (len * step)
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array = []
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while count < end:
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array.append(count)
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count += step
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return array
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def GetPlottableData(counter_name, data):
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"""Some counters should be displayed as a moving average, or
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may need other adjustment to be plotted. This function
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makes adjustments to the data based on counter name.
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Args:
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counter_name: The name of the counter, i.e 'Working Set'
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data: The original data collected from the counter
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Returns:
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data array adjusted based on counter name.
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"""
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if counter_name == '% Processor Time':
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# Use a moving average for % processor time
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return matplotlib.mlab.movavg(data, 5)
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if counter_name == 'Working Set' or counter_name == 'Private Bytes':
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# Change the scale from bytes to megabytes for working set
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return [float(x) / 1000000 for x in data]
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# No change for other counters
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return data
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def GenerateReport(title, filename, configurations, ts_times, tp_times, tp_counters, tp_resolution):
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""" Generates a report file in html using the given data
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Args:
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title: Title of the report
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filename: Filename of the report, before the timestamp
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configurations: Array of strings, containing the name of
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each configuration tested.
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ts_times: Array of arrays of ts startup times for each configuration.
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tp_times: Array of page load times for each configuration tested.
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tp_counters: Array of counter data for page load configurations
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Returns:
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filename of html report.
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"""
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# Make sure the reports/ and reports/graphs/ directories exist
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graphs_subdir = os.path.join(paths.REPORTS_DIR, 'graphs')
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if not os.path.exists(graphs_subdir):
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os.makedirs(graphs_subdir) # Will create parent directories
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# Create html report file
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localtime = time.localtime()
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timestamp = int(time.mktime(localtime))
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report_filename = os.path.join(paths.REPORTS_DIR, filename + "_" + str(timestamp) + ".html")
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report = open(report_filename, 'w')
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report.write('<html><head><title>Performance Report for %s, %s</title></head>\n' %
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(title, time.strftime('%m-%d-%y')))
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report.write('<body>\n')
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report.write('<h1>%s, %s</h1>' % (title, time.strftime('%m-%d-%y')))
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# Write out TS data
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report.write('<p><h2>Startup Test (Ts) Results</h2>\n')
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report.write('<table border="1" cellpadding="5" cellspacing="0">\n')
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report.write('<tr>')
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report.write('<th>Profile Tested</th>')
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report.write('<th>Mean</th>')
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report.write('<th>Standard Deviation</th></tr>\n')
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ts_csv_filename = os.path.join(paths.REPORTS_DIR, filename + "_" + str(timestamp) + '_ts.csv')
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ts_csv_file = open(ts_csv_filename, 'wb')
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ts_csv = csv.writer(ts_csv_file)
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for i in range (0, len(configurations)):
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# Calculate mean
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mean = 0
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for ts_time in ts_times[i]:
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mean += float(ts_time)
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mean = mean / len(ts_times[i])
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# Calculate standard deviation
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stdd = 0
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for ts_time in ts_times[i]:
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stdd += (float(ts_time) - mean) * (float(ts_time) - mean)
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stdd = stdd / len(ts_times[i])
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stdd = math.sqrt(stdd)
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report.write('<tr><td>%s</td><td>%f</td><td>%f</td></tr>\n' %
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(configurations[i], mean, stdd))
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ts_csv.writerow([configurations[i], mean, stdd])
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report.write('</table></p>\n')
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ts_csv_file.close()
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# Write out TP data
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report.write('<p><h2>Page Load Test (Tp) Results</h2>\n')
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report.write('<table border="1" cellpadding="5" cellspacing="0">\n')
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report.write('<tr>')
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report.write('<th>Profile Tested</th>')
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report.write('<th>Sum of mean times</th>')
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report.write('<th>Sum of Standard Deviations</th></tr>\n')
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tp_csv_filename = os.path.join(paths.REPORTS_DIR, filename + "_" + str(timestamp) + '_tp.csv')
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tp_csv_file = open(tp_csv_filename, 'wb')
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tp_csv = csv.writer(tp_csv_file)
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# Write out TP data
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for i in range (0, len(tp_times)):
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(tmp1, mean, tmp2, stdd) = tp_times[i].split()
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report.write('<tr><td>%s</td><td>%f</td><td>%f</td></tr>\n' %
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(configurations[i], float(mean), float(stdd)))
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tp_csv.writerow([configurations[i], float(mean), float(stdd)])
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report.write('</table></p>\n')
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tp_csv_file.close()
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# Write out counter data from TP tests
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report.write('<p><h2>Performance Data</h2></p>\n')
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# Write out graph of performance for each counter
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colors = ['r-', 'g-', 'b-', 'y-', 'c-', 'm-']
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nonchar = re.compile('[\W]*')
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if len(tp_counters) > 0:
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counter_names = []
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for counter in tp_counters[0]:
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counter_names.append(counter)
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for counter_name in counter_names:
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# Create a new figure for this counter
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pylab.clf()
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# Label the figure, and the x/y axes
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pylab.title(counter_name)
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pylab.ylabel(counter_name)
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pylab.xlabel("Time")
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# Draw a line for each counter in a different color on the graph
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current_color = 0
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line_handles = [] # Save the handle of each line for the legend
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for count_data in tp_counters:
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data = GetPlottableData(counter_name, count_data[counter_name])
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times = MakeArray(0, len(data), tp_resolution)
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handle = pylab.plot(times, data, colors[current_color])
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line_handles.append(handle)
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current_color = (current_color + 1) % len(colors)
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# Draw a legend in the upper right corner
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legend = pylab.legend(line_handles, configurations, 'upper right')
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ltext = legend.get_texts()
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pylab.setp(ltext, fontsize='small') # legend text is too large by default
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# Save the graph and link to it from html.
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image_name = os.path.join(graphs_subdir,
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filename + "_" + str(timestamp) + nonchar.sub('', counter_name) + '.png')
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pylab.savefig(image_name)
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img_src = image_name[len(paths.REPORTS_DIR) : ]
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if img_src.startswith('\\'):
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img_src = img_src[1 : ]
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img_src = img_src.replace('\\', '/')
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report.write('<p><img src="%s" alt="%s"></p>\n' % (img_src, counter_name))
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report.write('</body></html>\n')
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return report_filename
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