package parameters; import java.io.BufferedReader; import java.util.ArrayList; import preprocessing.Parser; public class tracking_arguments { /*Assignments thresholds*/ public final double assignment_threshold; public final double weight_threshold; /*Particle Filter Parameters*/ public final int number_of_particles; public final double rho; /*Probabilities deviations*/ public final double sigma_app; public final double sigma_pos; public final double sigma_size; /*Similarity option*/ public final String similarity_option; /*HSV thresholds - HSV similarity function*/ /*max HSV values. Number of bins of HSV in histogram */ public final int NH; public final int NS; public final int NV; /* max HSV values */ public final double H_MAX; public final double S_MAX; public final double V_MAX; /* low thresholds on saturation and value for histogramming */ public final double S_THRESH; public final double V_THRESH; /*End-HSV*/ /*HoG thresholds - HoG similarity function*/ public final int numCellsX; public final int numCellsY; public final int blockSize; /* distribution parameter */ public final int LAMBDA; public final double TRANS_X_STD; public final double TRANS_Y_STD; public final double TRANS_S_STD; /* autoregressive dynamics parameters for transition model */ public final double A1; public final double A2; public final double B0; /*HoG parameters*/ public String hog_obj; public String hog_parameters_similarity; public String hog_parameters_trained; /*End*/ public tracking_arguments (String file_name) { Parser parser = new Parser(); BufferedReader arguments = parser.Open_File_Stream (file_name); ArrayList list = new ArrayList(); String[] s = null; do { s = parser.Get_Stream_Tokens (arguments, " "); if (s == null) { break; } System.err.println(s[0]); list.add(s[0]); } while (s != null); assignment_threshold = Double.parseDouble(list.get(0)); weight_threshold = Double.parseDouble(list.get(1)); number_of_particles = Integer.parseInt(list.get(2)); rho = Double.parseDouble(list.get(3)); sigma_app = Double.parseDouble(list.get(4)); sigma_pos = Double.parseDouble(list.get(5)); sigma_size = Double.parseDouble(list.get(6)); similarity_option = list.get(7); NH = Integer.parseInt(list.get(8)); NS = Integer.parseInt(list.get(9)); NV = Integer.parseInt(list.get(10)); H_MAX = Double.parseDouble(list.get(11)); S_MAX = Double.parseDouble(list.get(12)); V_MAX = Double.parseDouble(list.get(13)); S_THRESH = Double.parseDouble(list.get(14)); V_THRESH = Double.parseDouble(list.get(15)); numCellsX = Integer.parseInt(list.get(16)); numCellsY = Integer.parseInt(list.get(17)); blockSize = Integer.parseInt(list.get(18)); LAMBDA = Integer.parseInt(list.get(19)); TRANS_X_STD = Double.parseDouble(list.get(20)); TRANS_Y_STD = Double.parseDouble(list.get(21)); TRANS_S_STD = Double.parseDouble(list.get(22)); A1 = Double.parseDouble(list.get(23)); A2 = Double.parseDouble(list.get(24)); B0 = Double.parseDouble(list.get(25)); hog_obj = list.get(26); hog_parameters_similarity = list.get(27); hog_parameters_trained = list.get(28); } }