/** * @param _t les temps * @param _var les variables */ public EvolutionReguliereFixe(final double[] _t,final double[] _var) { super(_t); val_=new TDoubleArrayList(_var); }
/** * Initialise les tableaux. */ public EvolutionReguliereAbstract() { val_ = new TDoubleArrayList(); }
/** * Initialise les tableaux. */ public EvolutionReguliere() { t_ = new TDoubleArrayList(); val_ = new TDoubleArrayList(); }
/** * @param _n le nombre de points attendus */ public EvolutionReguliere(final int _n) { t_ = new TDoubleArrayList(_n); val_ = new TDoubleArrayList(_n); }
public ClusterDescriptor() { description = ""; documents = new TIntArrayList(); distance = new TDoubleArrayList(); }
public Centroid(int numFeatures) { features = new double[numFeatures]; documents = new TIntArrayList(); distances = new TDoubleArrayList(); }
private final static double[] decodeArrayDouble(final String _tab) { // System.err.println("appel de decodeArrayDouble"); final StringTokenizer stk = new StringTokenizer(_tab," "); TDoubleArrayList liste = new TDoubleArrayList(_tab.length()/5); while(stk.hasMoreElements()) { liste.add(Double.parseDouble(stk.nextToken())); } return liste.toNativeArray(); }
private final static double[] decodeArrayDouble(final String _tab) { // System.err.println("appel de decodeArrayDouble"); final StringTokenizer stk = new StringTokenizer(_tab," "); TDoubleArrayList liste = new TDoubleArrayList(_tab.length()/5); while(stk.hasMoreElements()) { liste.add(Double.parseDouble(stk.nextToken())); } return liste.toNativeArray(); }
public MaxEntRangeL2FLGEConstraints(int numFeatures, int numLabels, boolean useValues, boolean normalize) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.normalize = normalize; this.constraints = new TIntObjectHashMap<MaxEntL2IndGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLPRConstraints(int numFeatures, int numLabels, boolean useValues) { this.useValues = useValues; this.numFeatures = numFeatures; this.numLabels = numLabels; this.constraints = new TIntObjectHashMap<MaxEntFLPRConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntRangeL2FLGEConstraints(int numFeatures, int numLabels, boolean useValues, boolean normalize) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.normalize = normalize; this.constraints = new TIntObjectHashMap<MaxEntL2IndGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLGEConstraints(int numFeatures, int numLabels, boolean useValues) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.constraints = new TIntObjectHashMap<MaxEntFLGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLGEConstraints(int numFeatures, int numLabels, boolean useValues) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.constraints = new TIntObjectHashMap<MaxEntFLGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLPRConstraints(int numFeatures, int numLabels, boolean useValues) { this.useValues = useValues; this.numFeatures = numFeatures; this.numLabels = numLabels; this.constraints = new TIntObjectHashMap<MaxEntFLPRConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntRangeL2FLGEConstraints(int numFeatures, int numLabels, boolean useValues, boolean normalize) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.normalize = normalize; this.constraints = new TIntObjectHashMap<MaxEntL2IndGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLGEConstraints(int numFeatures, int numLabels, boolean useValues) { this.numFeatures = numFeatures; this.numLabels = numLabels; this.useValues = useValues; this.constraints = new TIntObjectHashMap<MaxEntFLGEConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public MaxEntFLPRConstraints(int numFeatures, int numLabels, boolean useValues) { this.useValues = useValues; this.numFeatures = numFeatures; this.numLabels = numLabels; this.constraints = new TIntObjectHashMap<MaxEntFLPRConstraint>(); this.indexCache = new TIntArrayList(); this.valueCache = new TDoubleArrayList(); }
public ClassificationResult(int size) { categoryID = new TShortArrayList(); categoryID.ensureCapacity(size); score = new TDoubleArrayList(); score.ensureCapacity(size); } }
public static double[] parseStringDouble(final String _s, final String _sepChar) { if ((_s == null) || (_sepChar == null)) { return null; } final List l = (parseStringList(_s, _sepChar)); final TDoubleArrayList res = new TDoubleArrayList(); for (int i = 0; i < l.size(); i++) { try { res.add(CtuluDoubleParser.parseValue((String) l.get(i))); } catch (final NumberFormatException _evt) { FuLog.error(_evt); } } return res.toNativeArray(); }
protected final void initFromEvolution(final EvolutionReguliereInterface _evol) { nom_ = _evol.getNom(); unite_ = _evol.getUnite(); t_ = new TDoubleArrayList(_evol.getArrayX()); val_ = new TDoubleArrayList(_evol.getArrayY()); listener_ = _evol.getListener(); xVal_ = _evol.getXValidator(); yVal_ = _evol.getYValidator(); // used_ = _evol.used_; }