@Override public YuleSimonDistribution clone() { return (YuleSimonDistribution) super.clone(); }
@Override public int[] sampleAsInts( final Random random, final int sampleCount) { final int[] result = new int[sampleCount]; this.sampleInto(random, result, 0, sampleCount); return result; }
@Override public void sampleInto( final Random random, final int[] output, final int start, final int length) { final int end = start + length; for (int i = start; i < end; i++) { output[i] = this.sampleAsInt(random); } }
@Override public void sampleInto( final Random random, final int[] output, final int start, final int length) { final int end = start + length; for (int i = start; i < end; i++) { output[i] = this.sampleAsInt(random); } }
@Override public PoissonDistribution clone() { PoissonDistribution clone = (PoissonDistribution) super.clone(); return clone; }
@Override public int[] sampleAsInts( final Random random, final int sampleCount) { final int[] result = new int[sampleCount]; this.sampleInto(random, result, 0, sampleCount); return result; }
@Override public void sampleInto( final Random random, final int[] output, final int start, final int length) { final int end = start + length; for (int i = start; i < end; i++) { output[i] = this.sampleAsInt(random); } }
@Override public YuleSimonDistribution clone() { return (YuleSimonDistribution) super.clone(); }
@Override public int[] sampleAsInts( final Random random, final int sampleCount) { final int[] result = new int[sampleCount]; this.sampleInto(random, result, 0, sampleCount); return result; }
@Override public BinomialDistribution clone() { return (BinomialDistribution) super.clone(); }
@Override public NegativeBinomialDistribution clone() { return (NegativeBinomialDistribution) super.clone(); }
@Override public BetaBinomialDistribution clone() { return (BetaBinomialDistribution) super.clone(); }
@Override public BetaBinomialDistribution clone() { return (BetaBinomialDistribution) super.clone(); }
@Override public GeometricDistribution clone() { return (GeometricDistribution) super.clone(); }
@Override public NegativeBinomialDistribution clone() { return (NegativeBinomialDistribution) super.clone(); }
@Override public UniformIntegerDistribution clone() { return (UniformIntegerDistribution) super.clone(); }
@Override public YuleSimonDistribution clone() { return (YuleSimonDistribution) super.clone(); }
@Override public UniformIntegerDistribution clone() { return (UniformIntegerDistribution) super.clone(); }
@Override public BinomialDistribution clone() { return (BinomialDistribution) super.clone(); }
@Override public NegativeBinomialDistribution clone() { return (NegativeBinomialDistribution) super.clone(); }