//public string dataFile = @"input/coffeeBreak_features.txt"; //public string gtFile = @"input/coffeeBreak_gt.txt"; //public string dataFile = @"input/coffeeBreak2_features.txt"; //public string gtFile = @"input/coffeeBreak2_gt.txt"; public MainWindow() { InitializeComponent(); DataManager dm = new DataManager(dataFile, gtFile); IterationManager im = new IterationManager(dm); int scalarDistance = 200; double windowSize = 0; double deltaValue = 0.01; double deltaZero = 0.01; Affinity aff; Method m; String path = @"output\TestPerGrafico\Angle\SMEFO-Modularity-Angle.txt"; String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + "Sigma="+scalarDistance; String graph = ""; Console.WriteLine(s); System.IO.File.AppendAllText(path, s + Environment.NewLine); //epsilon 1E-5, -6 for (int pi = 0; pi <= 10; pi++) { windowSize = Math.PI / (2.0 + pi); aff = new SMEFO(scalarDistance, windowSize); m = new ModularityCut(1E-2); im.computeMethod(m, aff); CollectorResult cr = im.comparison(true, 2.0/3.0); String str=cr.computeMeans(); Console.WriteLine(); Console.WriteLine("Window Size: " + windowSize+" "+ cr + " "+str); Console.WriteLine(); System.IO.File.AppendAllText(path, "Window Size: " + windowSize + " " + cr + " N° Risposte: "+str+ Environment.NewLine); graph = graph + Environment.NewLine + windowSize + " " + cr.fMean; } System.IO.File.AppendAllText(path, graph); /* int scalarDistance = 10; double windowSize = 0; double deltaValue = 0.01; double deltaZero = 0.0001; Affinity aff; Method m; String path = @"output\TestPerGrafico\SMEFO-DS-LC-Sigma.txt"; String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + ", angle=PI/2"; String graph = ""; Console.WriteLine(s); System.IO.File.AppendAllText(path, s + Environment.NewLine); for (int var = 1; var <= 30; var=var+1) { scalarDistance = var; windowSize = Math.PI /2.0 ; aff = new SMEFO(scalarDistance, windowSize); m = new LocalDominantSet(deltaZero, deltaValue); im.computeMethod(m, aff); CollectorResult cr = im.comparison(true, 2.0 / 3.0); String str = cr.computeMeans(); Console.WriteLine(); Console.WriteLine("Scalar Distance: " + scalarDistance + " " + cr + " " + str); Console.WriteLine(); System.IO.File.AppendAllText(path, "Scalar Distance" + scalarDistance + " " + cr + " N° Risposte: " + str + Environment.NewLine); graph = graph + Environment.NewLine + scalarDistance + " " + cr.fMean; } System.IO.File.AppendAllText(path,graph); /* foreach (Frame frame in dm.getAllFrames()) { aff = new SMEFO(scalarDistance, windowSize); //Affinity a = new ProxOrient(15,Math.PI/2.0); aff.computeAffinity(frame); //Method m = new ModularityCut(); //new AllSingleton(); //new GlobalDominantSet(1E-2, 1E-7); //con 200 affinity ok //new LocalDominantSet(1E-3, 1E-4); m.Initialize(aff); Group my = m.ComputeGroup(); Result t = Group.Compare(my, dm.getGTById(frame.IdFrame),0.66); res.addResult(t); res.computeMeans(); Console.WriteLine(my); Console.WriteLine(dm.getGTById(frame.IdFrame)); Console.WriteLine(t); Console.WriteLine(res); Console.ReadLine(); } /* for (int i = 1; i <= 5; i++) { for (int j = 1; j <= 5; j++) { for (int val = 1; val <= 5; val = val + 4) { deltaValue = val * Math.Pow(10, -i); deltaZero = val * Math.Pow(10, -j); for (int scalar = 10; scalar <= 200; scalar = scalar + 10) { scalarDistance = scalar; for (int pi = 0; pi <= 3; pi++) { windowSize = Math.PI / (2.0 + pi); a = new SMEFO(scalarDistance,windowSize); m = new LocalDominantSet(deltaZero, deltaValue); im.computeMethod(m, a); CollectorResult cr = im.comparison(true); cr.computeMeans(); if (cr.fMean > fMeasure) { Console.WriteLine(); String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + ", scalarDistance=" + scalarDistance + ", windowSize=" + windowSize; Console.WriteLine(s); Console.WriteLine(cr); Console.WriteLine(); fMeasure = cr.fMean; System.IO.File.AppendAllText(@"output\SMEFO-DS-LC.txt", s + Environment.NewLine + cr + Environment.NewLine); } else Console.Write("*"); } } } } } Console.WriteLine("FINITO"); */ /* */ }
//public string dataFile = @"input/coffeeBreak_features.txt"; //public string gtFile = @"input/coffeeBreak_gt.txt"; //public string dataFile = @"input/coffeeBreak2_features.txt"; //public string gtFile = @"input/coffeeBreak2_gt.txt"; public MainWindow() { InitializeComponent(); DataManager dm = new DataManager(dataFile, gtFile); IterationManager im = new IterationManager(dm); int scalarDistance = 200; double windowSize = 0; double deltaValue = 0.01; double deltaZero = 0.01; Affinity aff; Method m; String path = @"output\TestPerGrafico\Angle\SMEFO-Modularity-Angle.txt"; String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + "Sigma=" + scalarDistance; String graph = ""; Console.WriteLine(s); System.IO.File.AppendAllText(path, s + Environment.NewLine); //epsilon 1E-5, -6 for (int pi = 0; pi <= 10; pi++) { windowSize = Math.PI / (2.0 + pi); aff = new SMEFO(scalarDistance, windowSize); m = new ModularityCut(1E-2); im.computeMethod(m, aff); CollectorResult cr = im.comparison(true, 2.0 / 3.0); String str = cr.computeMeans(); Console.WriteLine(); Console.WriteLine("Window Size: " + windowSize + " " + cr + " " + str); Console.WriteLine(); System.IO.File.AppendAllText(path, "Window Size: " + windowSize + " " + cr + " N° Risposte: " + str + Environment.NewLine); graph = graph + Environment.NewLine + windowSize + " " + cr.fMean; } System.IO.File.AppendAllText(path, graph); /* * * int scalarDistance = 10; * double windowSize = 0; * double deltaValue = 0.01; * double deltaZero = 0.0001; * * Affinity aff; * Method m; * * String path = @"output\TestPerGrafico\SMEFO-DS-LC-Sigma.txt"; * String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + ", angle=PI/2"; * String graph = ""; * Console.WriteLine(s); * System.IO.File.AppendAllText(path, s + Environment.NewLine); * * for (int var = 1; var <= 30; var=var+1) * { * scalarDistance = var; * windowSize = Math.PI /2.0 ; * aff = new SMEFO(scalarDistance, windowSize); * m = new LocalDominantSet(deltaZero, deltaValue); * im.computeMethod(m, aff); * CollectorResult cr = im.comparison(true, 2.0 / 3.0); * String str = cr.computeMeans(); * Console.WriteLine(); * Console.WriteLine("Scalar Distance: " + scalarDistance + " " + cr + " " + str); * Console.WriteLine(); * System.IO.File.AppendAllText(path, "Scalar Distance" + scalarDistance + " " + cr + " N° Risposte: " + str + Environment.NewLine); * graph = graph + Environment.NewLine + scalarDistance + " " + cr.fMean; * } * System.IO.File.AppendAllText(path,graph); * * /* * foreach (Frame frame in dm.getAllFrames()) * { * aff = new SMEFO(scalarDistance, windowSize); * //Affinity a = new ProxOrient(15,Math.PI/2.0); * aff.computeAffinity(frame); * //Method m = new ModularityCut(); * //new AllSingleton(); * //new GlobalDominantSet(1E-2, 1E-7); * //con 200 affinity ok * //new LocalDominantSet(1E-3, 1E-4); * m.Initialize(aff); * Group my = m.ComputeGroup(); * Result t = Group.Compare(my, dm.getGTById(frame.IdFrame),0.66); * res.addResult(t); * res.computeMeans(); * Console.WriteLine(my); * Console.WriteLine(dm.getGTById(frame.IdFrame)); * * Console.WriteLine(t); * Console.WriteLine(res); * * Console.ReadLine(); * } * * * * /* * for (int i = 1; i <= 5; i++) * { * for (int j = 1; j <= 5; j++) * { * for (int val = 1; val <= 5; val = val + 4) * { * deltaValue = val * Math.Pow(10, -i); * deltaZero = val * Math.Pow(10, -j); * for (int scalar = 10; scalar <= 200; scalar = scalar + 10) * { * scalarDistance = scalar; * for (int pi = 0; pi <= 3; pi++) * { * windowSize = Math.PI / (2.0 + pi); * a = new SMEFO(scalarDistance,windowSize); * m = new LocalDominantSet(deltaZero, deltaValue); * im.computeMethod(m, a); * CollectorResult cr = im.comparison(true); * cr.computeMeans(); * if (cr.fMean > fMeasure) * { * Console.WriteLine(); * String s = "deltaZero=" + deltaZero + ", deltaValue=" + deltaValue + ", scalarDistance=" + scalarDistance + ", windowSize=" + windowSize; * Console.WriteLine(s); * Console.WriteLine(cr); * Console.WriteLine(); * fMeasure = cr.fMean; * System.IO.File.AppendAllText(@"output\SMEFO-DS-LC.txt", s + Environment.NewLine + cr + Environment.NewLine); * } * else * Console.Write("*"); * } * } * } * } * } * Console.WriteLine("FINITO"); */ /* * */ }