public double getCosAngleError() { return getCosAngleError(getName()); }
public double getEigenValue() { return getEigenValue(getName()); }
protected double[] parseMetaData() { return parseMetaData(getName()); }
eigenVectors.assignRow(i, v); log.info(v.getName()); if (EigenVector.getCosAngleError(v.getName()) < 1.0e-3) { eigenvalues.add(EigenVector.getEigenValue(v.getName())); log.info(v.getName()); eigenVectors2.assignRow(i, v); newEigenValues.add(EigenVector.getEigenValue(v.getName())); i++;
public static double getEigenValue(CharSequence name) { return parseMetaData(name)[1]; }
MatrixSlice s = pruneSlice.getKey(); EigenStatus meta = pruneSlice.getValue(); EigenVector ev = new EigenVector(s.vector(), meta.getEigenValue(), Math.abs(1 - meta.getCosAngle()), s.index());
protected double[] parseMetaData() { return parseMetaData(getName()); }
public static double getEigenValue(CharSequence name) { return parseMetaData(name)[1]; }
MatrixSlice s = pruneSlice.getKey(); EigenStatus meta = pruneSlice.getValue(); EigenVector ev = new EigenVector(s.vector(), meta.getEigenValue(), Math.abs(1 - meta.getCosAngle()), s.index());
public double getEigenValue() { return getEigenValue(getName()); }
public double getCosAngleError() { return getCosAngleError(getName()); }
protected double[] parseMetaData() { return parseMetaData(getName()); }
public static double getCosAngleError(CharSequence name) { return parseMetaData(name)[2]; }
MatrixSlice s = pruneSlice.getKey(); EigenStatus meta = pruneSlice.getValue(); EigenVector ev = new EigenVector(s.vector(), meta.getEigenValue(), Math.abs(1 - meta.getCosAngle()), s.index());
public double getEigenValue() { return getEigenValue(getName()); }
public double getCosAngleError() { return getCosAngleError(getName()); }
public static int getIndex(CharSequence name) { return (int)parseMetaData(name)[0]; }