public override int Run(string[] args) { Console.WriteLine("Start"); fill_params(args); Console.WriteLine("Params get \nfile in {0} \n", file_in); Approx_learn_set = BaseUFSLoader.LoadLearnFromUFS(file_in); Console.WriteLine("Tra load"); Approx_test_set = BaseUFSLoader.LoadTestFromUFS(file_in); Console.WriteLine("Tst load"); conf = new MultiGoalOptimaze_conf(); conf.Init(Approx_learn_set.CountVars); conf.loadParams(confParams); Console.WriteLine("Conf Filed"); Approx_Singletone = new SAFuzzySystem(Approx_learn_set, Approx_test_set); Approx_Singletone = SAFSUFSLoader.loadUFS(Approx_Singletone, file_in); Console.WriteLine("Classifier created"); optimaze = new MultiGoalOpimize(); Approx_Singletone = optimaze.TuneUpFuzzySystem(Approx_Singletone, conf); Console.WriteLine("Optimization complite"); // a_FS_UFS.saveToUFS(Class_Pittsburg, file_out); Console.WriteLine("Saved"); return(1); }
public override int Run(string[] args) { Console.WriteLine("Start"); fill_params(args); Console.WriteLine("Params get \nfile in {0} \n", file_in); Approx_learn_set = BaseUFSLoader.LoadLearnFromUFS(file_in); Console.WriteLine("Tra load"); Approx_test_set = BaseUFSLoader.LoadTestFromUFS(file_in); Console.WriteLine("Tst load"); conf = new PSOBacterySearchConf(); conf.Init(Approx_learn_set.CountVars); conf.loadParams(confParams); Console.WriteLine("Conf Filed"); Approx_Singletone = new SAFuzzySystem(Approx_learn_set, Approx_test_set); Approx_Singletone = SAFSUFSLoader.loadUFS(Approx_Singletone, file_in); Console.WriteLine("Classifier created"); optimaze = new PSOMethods.Approx.Term_config_PSO_Bactery(); Approx_Singletone = optimaze.TuneUpFuzzySystem(Approx_Singletone, conf); Console.WriteLine("Optimization complite"); SAFSUFSWriter.saveToUFS(Approx_Singletone, file_out); Console.WriteLine("Saved"); return(1); }
public override int Run(string[] args) { Console.WriteLine("Start"); fill_params(args); Console.WriteLine("Params get \nfile in {0} \n", file_in); Class_learn_set = BaseUFSLoader.LoadLearnFromUFS(file_in); Console.WriteLine("Tra load"); Class_test_set = BaseUFSLoader.LoadTestFromUFS(file_in); Console.WriteLine("Tst load"); conf = new PSOBacterySearchConf(); conf.Init(Class_learn_set.CountVars); conf.loadParams(confParams); Console.WriteLine("Conf Filed"); Class_Pittsburg = new PCFuzzySystem(Class_learn_set, Class_test_set); Class_Pittsburg = PCFSUFSLoader.loadUFS(Class_Pittsburg, file_in); Console.WriteLine("Classifier created"); optimaze = new Term_config_PSO_Bactery(); Class_Pittsburg = optimaze.TuneUpFuzzySystem(Class_Pittsburg, conf); Console.WriteLine("Optimization complite"); PCFSUFSWriter.saveToUFS(Class_Pittsburg, file_out); Console.WriteLine("Saved"); return(1); }
public RecombineUFSClassifier(string UFSPAth) : base(UFSPAth) { SampleSet LearnTable = BaseUFSLoader.LoadLearnFromUFS(Source); SampleSet TestTable = BaseUFSLoader.LoadTestFromUFS(Source); fuzzy_system = new PCFuzzySystem(LearnTable, TestTable); fuzzy_system = fuzzy_system.loadUFS(Source); }
private void BrowseB_Click(object sender, EventArgs e) { if (openFSDialog.ShowDialog() == DialogResult.OK) { string fileName = openFSDialog.FileName; if (File.Exists(fileName)) { tempTable = BaseUFSLoader.LoadLearnFromUFS(fileName); temptestTable = BaseUFSLoader.LoadTestFromUFS(fileName); FSystem = BaseUFSLoader.LoadUFS(fileName, out TSystem); switch (TSystem) { case FuzzySystemRelisedList.TypeSystem.PittsburghClassifier: { PCFS = FSystem as PCFuzzySystem; break; } case FuzzySystemRelisedList.TypeSystem.Singletone: { SAFS = FSystem as SAFuzzySystem; break; } case FuzzySystemRelisedList.TypeSystem.TakagiSugenoApproximate: { TSAFS = FSystem as TSAFuzzySystem; break; } } NamesOfTerms = new String[getCountVars()][]; indexofTerm = new int[getCountVars()][]; makeNamesforAll(); FeatureCB.Items.Clear(); for (int i = 0; i < getCountVars(); i++) { FeatureCB.Items.Add(getNameAttribute(i)); } FeatureCB.SelectedIndex = 0; MakeRulesB.Enabled = true; RulesRTB.Text = ""; } } }
private void loadSATestFromUFS(string fileName) { testSet = BaseUFSLoader.LoadTestFromUFS(fileName); }
private void LoadAllFS() { PathFilesUFS = Directory.GetFiles(rootDitectory, "*.UFS", SearchOption.AllDirectories).ToList(); PCFuzzySystem Classifier = null; SampleSet tempcTable = null, temptestcTable = null; SAFuzzySystem Approx = null; SampleSet tempaTable = null, temptestaTable = null; for (int i = 0; i < PathFilesUFS.Count(); i++) { try { if (isApprox) { tempaTable = BaseUFSLoader.LoadLearnFromUFS(PathFilesUFS[i]); temptestaTable = BaseUFSLoader.LoadTestFromUFS(PathFilesUFS[i]); Approx = new SAFuzzySystem(tempaTable, temptestaTable); Approx = Approx.loadUFS(PathFilesUFS[i]); } else { tempcTable = BaseUFSLoader.LoadLearnFromUFS(PathFilesUFS[i]); temptestcTable = BaseUFSLoader.LoadTestFromUFS(PathFilesUFS[i]); Classifier = new PCFuzzySystem(tempcTable, temptestcTable); Classifier = Classifier.loadUFS(PathFilesUFS[i]); } } catch (Exception ex) { isApprox = !isApprox; try { if (isApprox) { tempaTable = BaseUFSLoader.LoadLearnFromUFS(PathFilesUFS[i]); temptestaTable = BaseUFSLoader.LoadTestFromUFS(PathFilesUFS[i]); Approx = new SAFuzzySystem(tempaTable, temptestaTable); Approx = Approx.loadUFS(PathFilesUFS[i]); } else { tempcTable = BaseUFSLoader.LoadLearnFromUFS(PathFilesUFS[i]); temptestcTable = BaseUFSLoader.LoadTestFromUFS(PathFilesUFS[i]); Classifier = new PCFuzzySystem(tempcTable, temptestcTable); Classifier = Classifier.loadUFS(PathFilesUFS[i]); } } catch (Exception ex1) { Console.Write("{0} \n{1} \n{2}", ex.Data.ToString(), ex.Message, ex.Source); Console.Write("{0} \n{1} \n{2}", ex1.Data.ToString(), ex1.Message, ex.Source); continue; } } if (isApprox) { addApproxValue(Approx); } else { addClassifierValue(Classifier); } GC.Collect(); } CleanRepeatesAndNullB_Click(this, null); }