/** * Returns a deep copy of the receiver. * * @return a deep copy of the receiver. */ public Object clone() { DoubleBuffer copy = (DoubleBuffer) super.clone(); if (this.values != null) copy.values = copy.values.copy(); return copy; } /**
/** * Returns a deep copy of the receiver. * * @return a deep copy of the receiver. */ public Object clone() { ExactDoubleQuantileFinder copy = (ExactDoubleQuantileFinder) super.clone(); if (this.buffer != null) copy.buffer = copy.buffer.copy(); return copy; } /**
/** * Returns a deep copy of the receiver. * * @return a deep copy of the receiver. */ public Object clone() { DoubleBuffer copy = (DoubleBuffer) super.clone(); if (this.values != null) copy.values = copy.values.copy(); return copy; } /**
/** * Returns a deep copy of the receiver. * * @return a deep copy of the receiver. */ public Object clone() { ExactDoubleQuantileFinder copy = (ExactDoubleQuantileFinder) super.clone(); if (this.buffer != null) copy.buffer = copy.buffer.copy(); return copy; } /**
/** */ protected DoubleArrayList preProcessPhis(DoubleArrayList phis) { if (beta>1.0) { phis = phis.copy(); for (int i=phis.size(); --i >=0;) { phis.set(i, (2*phis.get(i) + beta - 1) / (2*beta)); } } return phis; } /**
/** */ protected DoubleArrayList preProcessPhis(DoubleArrayList phis) { if (beta>1.0) { phis = phis.copy(); for (int i=phis.size(); --i >=0;) { phis.set(i, (2*phis.get(i) + beta - 1) / (2*beta)); } } return phis; } /**
phis = phis.copy(); double e = precomputeEpsilon; for (int index=phis.size(); --index >= 0;) {
phis = phis.copy(); double e = precomputeEpsilon; for (int index=phis.size(); --index >= 0;) {
DoubleArrayList temp = data.copy(); // deep copy XYSeriesCollection tempSeriesCollection = (XYSeriesCollection) seriesCollection;
serie = new XYSeries(" "); temp = data[i].copy(); // deep copy