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TestingRan.py
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174 lines (119 loc) · 5.46 KB
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import AlgorithmOne as algoOne
import AlgorithmTwo as algoTwo
import AlgorithmThree as algoThree
from graph_tool.all import *
import random
import TotalNetwork as tn
import matplotlib.pyplot as plt
intervalFactor = 2
# (1) No. of vnf vs No. of succesfull mappings
def testSuccMappings(algoType):
noRanSlices = tn.numRnSlices
xOne = []
yOne = []
substrateNetwork = tn.createSbsNetwork(tn.numSubsNodes, tn.resCapList, tn.resCtPerSbs, 2)
for ctrVar in range(5):
ranSlices = tn.createRANSlice(noRanSlices, tn.numVnfFunctions, tn.resList, tn.resCtPerVnf, 3)
totalNetwork = tn.createTotalNetwork(substrateNetwork, ranSlices, tn.vnfCncList, tn.vnfTotalAccList)
if algoType == 1:
numMappings = tn.algoOneTest(totalNetwork, substrateNetwork, ranSlices, tn.resList, tn.resCapList)
elif algoType == 2:
numMappings = tn.algoTwoTest(totalNetwork, tn.vnfCncList)
elif algoType == 3:
numMappings = tn.algoThreeTest(totalNetwork, tn.vnfTotalAccList)
else:
numMappings = tn.algoFourTest(totalNetwork, substrateNetwork, ranSlices, tn.resCapList, tn.vnfCncList)
xOne.append(noRanSlices)
yOne.append(numMappings)
ranSlices.clear()
totalNetwork.clear()
tn.resList.clear()
tn.vnfCncList.clear()
tn.vnfTotalAccList.clear()
noRanSlices += intervalFactor
returnData = [xOne, yOne]
return returnData;
# (2) No. of vnf vs No. of unsuccesfull mappings
def testUnsuccMappings(algoType):
noRanSlices = tn.numRnSlices
xOne = []
yOne = []
substrateNetwork = tn.createSbsNetwork(tn.numSubsNodes, tn.resCapList, tn.resCtPerSbs, 2)
for ctrVar in range(5):
ranSlices = tn.createRANSlice(noRanSlices, tn.numVnfFunctions, tn.resList, tn.resCtPerVnf, 3)
totalNetwork = tn.createTotalNetwork(substrateNetwork, ranSlices, tn.vnfCncList, tn.vnfTotalAccList)
if algoType == 1:
numMappings = tn.algoOneTest(totalNetwork, substrateNetwork, ranSlices, tn.resList, tn.resCapList)
elif algoType == 2:
numMappings = tn.algoTwoTest(totalNetwork, tn.vnfCncList)
elif algoType == 3:
numMappings = tn.algoThreeTest(totalNetwork, tn.vnfTotalAccList)
else:
numMappings = tn.algoFourTest(totalNetwork, substrateNetwork, ranSlices, tn.resCapList, tn.vnfCncList)
xOne.append(noRanSlices)
yOne.append(tn.numVnfFunctions - numMappings)
ranSlices.clear()
totalNetwork.clear()
tn.resList.clear()
tn.vnfCncList.clear()
tn.vnfTotalAccList.clear()
noRanSlices += intervalFactor
returnData = [xOne, yOne]
return returnData;
# (3) No. of vnf vs No. of Available Substrate Resources
def testAvailRes(algoType):
noRanSlices = tn.numRnSlices
xOne = []
yOne = []
substrateNetwork = tn.createSbsNetwork(tn.numSubsNodes, tn.resCapList, tn.resCtPerSbs, 2)
for ctrVar in range(5):
ranSlices = tn.createRANSlice(noRanSlices, tn.numVnfFunctions, tn.resList, tn.resCtPerVnf, 3)
totalNetwork = tn.createTotalNetwork(substrateNetwork, ranSlices, tn.vnfCncList, tn.vnfTotalAccList)
if algoType == 1:
numMappings = tn.algoOneTest(totalNetwork, substrateNetwork, ranSlices, tn.resList, tn.resCapList)
elif algoType == 2:
numMappings = tn.algoTwoTest(totalNetwork, tn.vnfCncList)
elif algoType == 3:
numMappings = tn.algoThreeTest(totalNetwork, tn.vnfTotalAccList)
else:
numMappings = tn.algoFourTest(totalNetwork, substrateNetwork, ranSlices, tn.resCapList, tn.vnfCncList)
xOne.append(noRanSlices)
resAvail = tn.sbsAvailableRes(totalNetwork)
yOne.append(resAvail)
ranSlices.clear()
totalNetwork.clear()
tn.resList.clear()
tn.vnfCncList.clear()
tn.vnfTotalAccList.clear()
noRanSlices += intervalFactor
returnData = [xOne, yOne]
return returnData;
# (4) No. of vnf vs Amount of Exhausted Substrate Resources
def testExhaustRes(algoType):
noRanSlices = tn.numRnSlices
xOne = []
yOne = []
substrateNetwork = tn.createSbsNetwork(tn.numSubsNodes, tn.resCapList, tn.resCtPerSbs, 2)
for ctrVar in range(5):
# One
ranSlices = tn.createRANSlice(noRanSlices, tn.numVnfFunctions, tn.resList, tn.resCtPerVnf, 3)
totalNetwork = tn.createTotalNetwork(substrateNetwork, ranSlices, tn.vnfCncList, tn.vnfTotalAccList)
if algoType == 1:
numMappings = tn.algoOneTest(totalNetwork, substrateNetwork, ranSlices, tn.resList, tn.resCapList)
elif algoType == 2:
numMappings = tn.algoTwoTest(totalNetwork, tn.vnfCncList)
elif algoType == 3:
numMappings = tn.algoThreeTest(totalNetwork, tn.vnfTotalAccList)
else:
numMappings = tn.algoFourTest(totalNetwork, substrateNetwork, ranSlices, tn.resCapList, tn.vnfCncList)
xOne.append(noRanSlices)
resAvail = tn.sbsAvailableRes(totalNetwork)
yOne.append(tn.numSubsNodes*tn.resCtPerSbs - resAvail)
ranSlices.clear()
totalNetwork.clear()
tn.resList.clear()
tn.vnfCncList.clear()
tn.vnfTotalAccList.clear()
noRanSlices += intervalFactor
returnData = [xOne, yOne]
return returnData;