本文整理汇总了Python中parametering.Parameterization.Parameterization类的典型用法代码示例。如果您正苦于以下问题:Python Parameterization类的具体用法?Python Parameterization怎么用?Python Parameterization使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
在下文中一共展示了Parameterization类的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。
示例1: step03
def step03( paramFile, num_people):
#util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_example_1994_1999.txt')
util = ParameterUtil(parameter_file = paramFile)
myparams = Parameterization(util.keyword_decay, util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
myparams.generating_Training_Graph()
selection = VariableSelection(myparams.trainnigGraph, util.nodes_notlinked_file,util.min_edges, False, num_people)
return示例2: step05
def step05(paramFile):
#util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_example_1994_1999.txt')
util = ParameterUtil(parameter_file = paramFile)
myparams = Parameterization(util.keyword_decay, util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
calc = Calculate(myparams, util.nodes_notlinked_file, util.calculated_file, util.ordered_file, util.maxmincalculated_file)
myparams.generating_Test_Graph()
analise = Analyse(myparams, FormatingDataSets.get_abs_file_path(util.calculated_file), FormatingDataSets.get_abs_file_path(util.analysed_file) + '.random.analised.txt', calc.qtyDataCalculated)示例3: step04
def step04(paramFile):
#util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_example_1994_1999.txt')
util = ParameterUtil(parameter_file = paramFile)
myparams = Parameterization(util.keyword_decay, util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
myparams.generating_Training_Graph()
calc = Calculate(myparams, util.nodes_notlinked_file, util.calculated_file, util.ordered_file, util.maxmincalculated_file)
calc.Separating_calculateFile()示例4: step08
def step08(paramFile):
#util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_example_1994_1999.txt')
util = ParameterUtil(parameter_file = paramFile)
myparams = Parameterization(util.keyword_decay, util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
myparams.generating_Training_Graph()
myparams.generating_Test_Graph()
print "Trainning Period:", myparams.t0, " - ", myparams.t0_
print "Test Period:", myparams.t1, " - ", myparams.t1_
print "# Papers in Trainning: ", myparams.get_edges(myparams.trainnigGraph)
print "# Authors in Training: ", myparams.get_nodes(myparams.trainnigGraph)
print "# Papers in Test: ", myparams.get_edges(myparams.testGraph)
print "# Authors in Test", myparams.get_nodes(myparams.testGraph)
calc = Calculate(myparams, util.nodes_notlinked_file, util.calculated_file, util.ordered_file, util.maxmincalculated_file)
calc.reading_Max_min_file()
print "# pair of Authors with at least 3 articles Calculated: ", calc.qtyDataCalculated #FormatingDataSets.getTotalLineNumbers(FormatingDataSets.get_abs_file_path(util.calculated_file))
topRank = Analyse.getTopRank(util.analysed_file+ '.random.analised.txt')
print "# pair of Authors with at least 3 articles that is connected in Test Graph in a random way: ", topRank
print "Max values found in calculations: ", str(calc.maxValueCalculated)
print "Min Values found in calculations: ", str(calc.minValueCalculated)
for pathFile in calc.getfilePathOrdered_separeted():
print "File Analised: ", pathFile + '.analised.txt'
number_connected = Analyse.getTopRankABSPathFiles(pathFile + '.analised.txt')
print "# pair of Authors that is connected in Test Graph: ", number_connected
print "%: ", Analyse.getLastInfosofResultsABSPathFiles(pathFile + '.analised.txt', topRank)
print "---------------------------------"示例5: step07
def step07(paramFile):
#util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_example_1994_1999.txt')
util = ParameterUtil(parameter_file = paramFile)
myparams = Parameterization(util.keyword_decay, util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
calc = Calculate(myparams, util.nodes_notlinked_file, util.calculated_file, util.ordered_file, util.maxmincalculated_file)
myparams.generating_Test_Graph()
topRank = Analyse.getTopRank(util.analysed_file + '.random.analised.txt')
print 'Analising Files with TopRank', str(topRank)
for OrderingFilePath in calc.getfilePathOrdered_separeted():
analise = Analyse(myparams, OrderingFilePath, OrderingFilePath + '.analised.txt', topRank )示例6: execution
def execution(configFile):
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#if not os.path.exists(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.fuzzyinputy.txt')):
calculatingInputToFuzzy(myparams.trainnigGraph,nodeSelection.nodesNotLinked, myparams)示例7: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'T.EXPERIMENTO_ATUAL_CORE03.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodesSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#GET THE AUTHORS THAT PUBLISH AT TRAINNING AND TEST
#A NUMBER OF PAPERS DEFINED AT MIN_EDGES IN CONFIG FILE
nodes = nodesSelection.get_NowellAuthorsCore()
#GET A PAIR OF AUTHORS THAT PUBLISH AT LEAST ONE ARTICLE AT TRAINNING AND TEST.
#DID NOT SEE ANY NEED
collaborations = nodesSelection.get_NowellColaboration()
#GET THE FIRST EDGES MADE BY THE COMBINATION OF NODES IN TRAINNING GRAPH
eOld = nodesSelection.get_NowellE(nodes,myparams.trainnigGraph)
#GET THE FIRST EDGES MADE BY THE COMBINATION OF NODES IN TEST GRAPH THAT DO NOT HAVE EDGES IN TRAINNING
eNew = nodesSelection.get_NowellE2(nodes, eOld, myparams.testGraph)
#GET THE NODES NOT LINKED OVER THE COMBINATION NODES.
nodesNotLinked = nodesSelection.get_PairsofNodesNotinEold(nodes)
#CREATING CALCULATION OBJECT
calc = CalculateInMemory(myparams,nodesNotLinked)
#CALCULATING THE SCORES.
resultsofCalculation = calc.executingCalculate()
#ORDERNING THE RESULTS RETURNING THE TOP N
orderingResults = calc.ordering(len(eNew), resultsofCalculation)
#SAVING THE ORDERED RESULTS.
calc.saving_orderedResult(util.ordered_file, orderingResults)
#ANALISE THE ORDERED RESULTS AND CHECK THE FUTURE.
ScoresResults = Analyse.AnalyseNodesWithScoresInFuture(orderingResults, myparams.testGraph)
#SAVING THE RESULTS.
for index in range(len(ScoresResults)):
Analyse.saving_analyseResult(ScoresResults[index], util.analysed_file + str(myparams.ScoresChoiced[index][0] ) + '.txt')
resultFile.write("TOTAL OF SUCESSS USING METRIC " + str(myparams.ScoresChoiced[index][0]) + " = " + str(Analyse.get_TotalSucess(ScoresResults[index]) ))
resultFile.write("\n")
resultFile.write("\n")
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(collaborations)*2)+ "\t\t" + str(len(nodes)) + "\t" + str(len(eOld))+"\t" + str(len(eNew)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例8: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'core03.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#if not os.path.exists(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.fuzzyinputy.txt')):
data = calculatingInputToFuzzy(myparams.trainnigGraph,nodeSelection.nodesNotLinked, myparams)
dataSorted = sorted(data, key=lambda value: value['result'], reverse=True)
topRank = len(nodeSelection.eNeW)
totalCalculated = len(dataSorted)
dataToAnalysed = []
if (topRank >= totalCalculated):
for item in range(totalCalculated):
dataToAnalysed.append({'no1': dataSorted[item]['no1'], 'no2': dataSorted[item]['no2'], 'result': dataSorted[item]['result'] })
else:
for item in range(topRank):
dataToAnalysed.append({'no1': dataSorted[item]['no1'], 'no2': dataSorted[item]['no2'], 'result': dataSorted[item]['result'] })
analise = AnalyseNodesInFuture(dataToAnalysed, myparams.testGraph)
resultFile.write( repr(get_TotalSucess(analise)) )
resultFile.write("\n")
#
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(nodeSelection.get_NowellColaboration())*2)+ "\t\t" + str(len(nodeSelection.nodes)) + "\t" + str(len(nodeSelection.eOld))+"\t" + str(len(nodeSelection.eNeW)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例9: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'wTScore03_010304.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
db = None
if not os.path.exists(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.base.pdl')):
db = generateWeights(myparams.trainnigGraph, FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.base.pdl') , myparams)
else:
db = reading_Database(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.base.pdl'))
calcDb = None
if not os.path.exists(FormatingDataSets.get_abs_file_path(util.calculated_file + '.base.pdl')):
calcDb = calculatingWeights(myparams.trainnigGraph, nodeSelection.nodesNotLinked, db, FormatingDataSets.get_abs_file_path(util.calculated_file) + '.base.pdl')
else:
calcDb = reading_Database(FormatingDataSets.get_abs_file_path(util.calculated_file + '.base.pdl'))
ordering = get_ordering(calcDb, len(nodeSelection.eNeW))
result = get_analyseNodesInFuture(ordering, myparams.testGraph)
resultFile.write(repr(result))
resultFile.write("\n")
#
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(nodeSelection.get_NowellColaboration())*2)+ "\t\t" + str(len(nodeSelection.nodes)) + "\t" + str(len(nodeSelection.eOld))+"\t" + str(len(nodeSelection.eNeW)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例10: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'core03.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#CREATING CALCULATION OBJECT
weights = {'cn' : 1, 'aas': 1, 'pa':1, 'jc': 1, 'ts08':1,'ts05': 1, 'ts02':1}
calc = CalculatingCombinationOnlyNowell(myparams, nodeSelection.nodesNotLinked,weights,False )
saving_files_calculting(FormatingDataSets.get_abs_file_path(util.calculated_file), calc.results)
Analise = nodeSelection.AnalyseAllNodesNotLinkedInFuture(nodeSelection.nodesNotLinked, myparams.testGraph)
salvar_analise(FormatingDataSets.get_abs_file_path(util.analysed_file) + '.allNodes.csv', Analise)
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例11: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'core03.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#if not os.path.exists(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.fuzzyinputy.txt')):
data = calculatingInputToFuzzy(myparams.trainnigGraph,nodeSelection.nodesNotLinked, myparams)
saving_files_calculting_input(FormatingDataSets.get_abs_file_path(util.trainnig_graph_file + '.inputFuzzy.txt'), data)
for item in data:
calc = FuzzyCalculation(item['intensityno1'], item['intensityno2'], item['similarity'], item['ageno1'], item['ageno2'])
print item['no1'], item['no2'], calc.potencial_ligacao, calc.grau_potencial_ligacao
resultFile.write("\n")
#
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(nodeSelection.get_NowellColaboration())*2)+ "\t\t" + str(len(nodeSelection.nodes)) + "\t" + str(len(nodeSelection.eOld))+"\t" + str(len(nodeSelection.eNeW)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例12: execution
def execution(configFile):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'core03_execucaoFinal_cstT02.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
#CREATING PARAMETRIZATION OBJECT WITH THE INFORMATIONS OF THE CONFIG FILE.
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
#GENERATING TRAINNING GRAPH BASED ON CONFIG FILE T0 AND T0_
myparams.generating_Training_Graph()
#GENERATING TEST GRAPH BASED ON CONcvb FIG FILE T1 AND T1_
myparams.generating_Test_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#CREATING CALCULATION OBJECT
calc = CalculatingTogether(myparams, nodeSelection.nodesNotLinked)
ordering = calc.ordering(len(nodeSelection.eNeW))
#calc.saving_orderedResult(util.ordered_file, ordering)
calc.AnalyseNodesInFuture(ordering, myparams.testGraph)
resultFile.write(repr(calc.get_TotalSucess()))
resultFile.write("\n")
#
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(nodeSelection.get_NowellColaboration())*2)+ "\t\t" + str(len(nodeSelection.nodes)) + "\t" + str(len(nodeSelection.eOld))+"\t" + str(len(nodeSelection.eNeW)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.datetime.now()))
resultFile.close()示例13: execution
def execution(configFile, weights):
#DEFINE THE FILE THAT WILL KEEP THE RESULT DATA
resultFile = open(FormatingDataSets.get_abs_file_path(configFile + 'core03.txt'), 'w')
resultFile.write("Inicio da operacao\n")
resultFile.write(str(datetime.now()))
resultFile.write("\n")
#READING THE CONFIG FILE
util = ParameterUtil(parameter_file = configFile)
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_, linear_combination=util.linear_combination,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None, result_random_file=util.result_random_file)
myparams.generating_Test_Graph()
myparams.generating_Training_Graph()
nodeSelection = NodeSelection(myparams.trainnigGraph, myparams.testGraph, util)
#CREATING CALCULATION OBJECT
calc = CalculatingCombinationOnlyNowell(myparams, nodeSelection.nodesNotLinked, weights, True)
ordering = calc.ordering(len(nodeSelection.eNeW))
calc.AnalyseNodesInFuture(ordering, myparams.testGraph)
resultFile.write(repr(calc.get_TotalSucess()))
resultFile.write("\n")
#
resultFile.write("Authors\tArticles\tCollaborations\tAuthors\tEold\tEnew\n")
resultFile.write( str(myparams.get_nodes(myparams.trainnigGraph))+ "\t" + str(myparams.get_edges(myparams.trainnigGraph)) + "\t\t" + str(len(nodeSelection.get_NowellColaboration())*2)+ "\t\t" + str(len(nodeSelection.nodes)) + "\t" + str(len(nodeSelection.eOld))+"\t" + str(len(nodeSelection.eNeW)))
resultFile.write("\n")
resultFile.write("Fim da Operacao\n")
resultFile.write(str(datetime.now()))
resultFile.close()示例14: ParameterUtil
Created on Aug 22, 2015
@author: cptullio
Analysing the results
'''
from parametering.ParameterUtil import ParameterUtil
from parametering.Parameterization import Parameterization
from analysing.Analyse import Analyse
from calculating.VariableSelection import VariableSelection
from formating.FormatingDataSets import FormatingDataSets
import networkx
from calculating.CalculateInMemory import CalculateInMemory
if __name__ == '__main__':
util = ParameterUtil(parameter_file = 'data/formatado/exemplomenor/config/config.txt')
myparams = Parameterization(t0 = util.t0, t0_ = util.t0_, t1 = util.t1, t1_ = util.t1_,
filePathGraph = util.graph_file, filePathTrainingGraph = util.trainnig_graph_file, filePathTestGraph = util.test_graph_file, decay = util.decay, domain_decay = util.domain_decay, min_edges = util.min_edges, scoreChoiced = util.ScoresChoiced, weightsChoiced = util.WeightsChoiced, weightedScoresChoiced = util.WeightedScoresChoiced, FullGraph = None)
myparams.generating_Training_Graph()
myparams.generating_Test_Graph()
selection = VariableSelection(myparams.trainnigGraph, util.min_edges)
nodesNotLinked = selection.get_pair_nodes_not_linked()
calc = CalculateInMemory(myparams, nodesNotLinked)
resultsCalculate = calc.executingCalculate()
calc.Separating_calculateFile()
analise = Analyse(myparams, FormatingDataSets.get_abs_file_path(util.calculated_file), FormatingDataSets.get_abs_file_path(util.analysed_file) + '.random.analised.txt', calc.qtyDataCalculated)
topRank = Analyse.getTopRank(util.analysed_file + '.random.analised.txt')
calc.Ordering_separating_File(topRank)
for OrderingFilePath in calc.getfilePathOrdered_separeted():示例15: ParameterUtil
'''
Created on Aug 22, 2015
@author: cptullio
Selecting all Nodes that will be calculated.
'''
from parametering.ParameterUtil import ParameterUtil
from parametering.Parameterization import Parameterization
from calculating.VariableSelection import VariableSelection
from calculating.Calculate import Calculate
from analysing.Analyse import Analyse
from formating.FormatingDataSets import FormatingDataSets
if __name__ == '__main__':
util = ParameterUtil(parameter_file = 'data/formatado/arxiv/nowell_condmat_1994_1999.txt')
myparams = Parameterization(util.top_rank, util.distanceNeighbors,util.lengthVertex, util.t0, util.t0_, util.t1, util.t1_, util.FeaturesChoiced, util.graph_file, util.trainnig_graph_file, util.test_graph_file, util.decay)
myparams.generating_Training_Graph()
selection = VariableSelection(myparams.trainnigGraph, util.nodes_notlinked_file)
calc = Calculate(myparams, util.nodes_notlinked_file, util.calculated_file, util.ordered_file, util.maxmincalculated_file)
calc.Separating_calculateFile()
myparams.generating_Test_Graph()
#analise = Analyse(myparams, FormatingDataSets.get_abs_file_path(util.calculated_file), FormatingDataSets.get_abs_file_path(util.analysed_file) + '.random.analised.txt', calc.qtyDataCalculated)
topRank = Analyse.getTopRank(util.analysed_file + '.random.analised.txt')
calc.Ordering_separating_File(topRank)