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#!/usr/bin/env python
#
# Copyright (c) 2016 embedded brains GmbH. All rights reserved.
#
# The license and distribution terms for this file may be
# found in the file LICENSE in this distribution or at
# http://www.rtems.org/license/LICENSE.
#
import re
import libxml2
import math
import statistics
from libxml2 import xmlNode
import matplotlib.pyplot as plt
data = open('smplock01.scn').read()
data = re.sub(r'\*\*\*.*\*\*\*', '', data)
doc = libxml2.parseDoc(data)
ctx = doc.xpathNewContext()
plt.title('SMP Lock Fairness')
plt.xlabel('Active Workers')
plt.ylabel('Normed Coefficient of Variation')
i = 1
ticket = []
mcs = []
tas = []
ttas = []
def m(n):
return int(xmlNode.getContent(n))
def normedCoefficientOfVariation(name, i):
y = map(m, ctx.xpathEval('/SMPLock01/' + name + '[@activeWorker=' + str(i) + ']/LocalCounter'))
if len(y) == 0:
raise
return (statistics.stdev(y) / statistics.mean(y)) / math.sqrt(len(y))
try:
while True:
i = i + 1
ticket.append(normedCoefficientOfVariation('GlobalTicketLockWithLocalCounter', i))
mcs.append(normedCoefficientOfVariation('GlobalMCSLockWithLocalCounter', i))
tas.append(normedCoefficientOfVariation('GlobalTASLockWithLocalCounter', i))
ttas.append(normedCoefficientOfVariation('GlobalTTASLockWithLocalCounter', i))
except:
pass
x = range(2, len(ticket) + 2)
plt.xticks(x)
plt.yscale('symlog', linthreshy = 1e-6)
plt.plot(x, ticket, label = 'Ticket Lock', marker = 'o')
plt.plot(x, mcs, label = 'MCS Lock', marker = 'o')
plt.plot(x, tas, label = 'TAS Lock', marker = 'o')
plt.plot(x, ttas, label = 'TTAS Lock', marker = 'o')
plt.legend(loc = 'best')
plt.show()
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