static void Main(string[] args) { string[] pathes = Directory.GetFiles("C:\\Users\\Tanya\\Documents\\tests_data\\db"); StreamWriter writer = new StreamWriter("C:\\Users\\Tanya\\Documents\\Results\\ModelBasedAlgorithmResult.txt", true); StreamWriter writerResult = new StreamWriter("C:\\Users\\Tanya\\Documents\\Results\\ModelBasedAlgorithmSummaryResult.txt", true); List<double> distances = new List<double>(); double sum15 = 0; double sum30 = 0; double sumOther = 0; double distance = 0; for (int i = 0; i < pathes.GetLength(0); i++) { break; Tuple<int, int> redPoint = ImageHelper.FindColorPoint(pathes[i]); double[,] imgBytes = ImageEnhancementHelper.EnhanceImage(ImageHelper.LoadImage(pathes[i])); double[,] orientationField = PixelwiseOrientationFieldGenerator.GenerateOrientationField(imgBytes); List<Tuple<int, int>> singularPoints = PoincareIndexMethod.FindSingularPoins(orientationField); ModelBasedAlgorithmCUDAFingerprinting.ReferencePoint.HoughPoincare.ModelBasedAlgorithm modelBasedAlgorithm = new ModelBasedAlgorithmCUDAFingerprinting.ReferencePoint.HoughPoincare.ModelBasedAlgorithm(orientationField); List<Tuple<int, int>> corePoints = modelBasedAlgorithm.FindSingularPoints(singularPoints); writer.WriteLine("---Fingerprint---"); foreach (Tuple<int, int> corePoint in corePoints) { distance = GetDistance(redPoint, corePoint); distances.Add(distance); writer.WriteLine(distance); } //ImageHelper.SaveArray(orientationField, "C:\\Users\\Tanya\\Documents\\Results\\china\\orientationField.jpg"); } foreach (double d in distances) { if (d <= 15) { sum15 += d; } else if (d <= 30) { sum30 += d; } else { sumOther += d; } } writerResult.WriteLine("0..15 => {0}", sum15); writerResult.WriteLine("15..30 => {0}", sum30); writerResult.WriteLine(">30 => {0}", sumOther); writer.Close(); }
static void Main(string[] args) { string[] pathes = Directory.GetFiles("C:\\Users\\Tanya\\Documents\\tests_data\\db"); StreamWriter writer = new StreamWriter("C:\\Users\\Tanya\\Documents\\Results\\ModelBasedAlgorithmResult.txt", true); StreamWriter writerResult = new StreamWriter("C:\\Users\\Tanya\\Documents\\Results\\ModelBasedAlgorithmSummaryResult.txt", true); List <double> distances = new List <double>(); double sum15 = 0; double sum30 = 0; double sumOther = 0; double distance = 0; for (int i = 0; i < pathes.GetLength(0); i++) { break; Tuple <int, int> redPoint = ImageHelper.FindColorPoint(pathes[i]); double[,] imgBytes = ImageEnhancementHelper.EnhanceImage(ImageHelper.LoadImage(pathes[i])); double[,] orientationField = PixelwiseOrientationFieldGenerator.GenerateOrientationField(imgBytes); List <Tuple <int, int> > singularPoints = PoincareIndexMethod.FindSingularPoins(orientationField); ModelBasedAlgorithmCUDAFingerprinting.ReferencePoint.HoughPoincare.ModelBasedAlgorithm modelBasedAlgorithm = new ModelBasedAlgorithmCUDAFingerprinting.ReferencePoint.HoughPoincare.ModelBasedAlgorithm(orientationField); List <Tuple <int, int> > corePoints = modelBasedAlgorithm.FindSingularPoints(singularPoints); writer.WriteLine("---Fingerprint---"); foreach (Tuple <int, int> corePoint in corePoints) { distance = GetDistance(redPoint, corePoint); distances.Add(distance); writer.WriteLine(distance); } //ImageHelper.SaveArray(orientationField, "C:\\Users\\Tanya\\Documents\\Results\\china\\orientationField.jpg"); } foreach (double d in distances) { if (d <= 15) { sum15 += d; } else if (d <= 30) { sum30 += d; } else { sumOther += d; } } writerResult.WriteLine("0..15 => {0}", sum15); writerResult.WriteLine("15..30 => {0}", sum30); writerResult.WriteLine(">30 => {0}", sumOther); writer.Close(); }