public double euclideanDistance() { double out = 0.0d; long[] p1 = new long[numDimensions()]; m_p1.localize(p1); long[] p2 = new long[numDimensions()]; m_p2.localize(p2); for (int i = 0; i < numDimensions(); i++) { out += (p1[i] - p2[i]) * ((p1[i] - p2[i])); } return Math.sqrt(out); }
@Override public boolean equals(Object arg) { if (arg == null || !(arg instanceof SplitLine)) { return false; } SplitLine<T> res = (SplitLine<T>) arg; if (res.numDimensions() != numDimensions()) return false; long[] p1 = new long[res.numDimensions()]; res.getPoints().getFirst().localize(p1); long[] p2 = new long[res.numDimensions()]; res.getPoints().getSecond().localize(p2); long[] m1 = new long[numDimensions()]; m_p1.localize(m1); long[] m2 = new long[numDimensions()]; m_p2.localize(m2); if (Arrays.equals(p1, m1) && Arrays.equals(p2, m2) || Arrays.equals(p1, m2) && Arrays.equals(p2, m1)) return true; else return false; }