/** * Returns an array whose i<sup>th</sup> entry is the sum of logs of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component log sums */ public double[] getSumLog() { return getResults(sumLogImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of squares of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component sums of squares */ public double[] getSumSq() { return getResults(sumSqImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component sums */ public double[] getSum() { return getResults(sumImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of logs of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component log sums */ public double[] getSumLog() { return getResults(sumLogImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component sums */ public double[] getSum() { return getResults(sumImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of squares of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component sums of squares */ public double[] getSumSq() { return getResults(sumSqImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the minimum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component minima */ public double[] getMin() { return getResults(minImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the minimum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component minima */ public double[] getMin() { return getResults(minImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component means */ public double[] getMean() { return getResults(meanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the maximum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component maxima */ public double[] getMax() { return getResults(maxImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the minimum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component minima */ public double[] getMin() { return getResults(minImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the geometric mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component geometric means */ public double[] getGeometricMean() { return getResults(geoMeanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component sums */ public double[] getSum() { return getResults(sumImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the sum of logs of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component log sums */ public double[] getSumLog() { return getResults(sumLogImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component means */ public double[] getMean() { return getResults(meanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the maximum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component maxima */ public double[] getMax() { return getResults(maxImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the geometric mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component geometric means */ public double[] getGeometricMean() { return getResults(geoMeanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component means */ public double[] getMean() { return getResults(meanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the geometric mean of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component geometric means */ public double[] getGeometricMean() { return getResults(geoMeanImpl); }
/** * Returns an array whose i<sup>th</sup> entry is the maximum of the * i<sup>th</sup> entries of the arrays that have been added using * {@link #addValue(double[])} * * @return the array of component maxima */ public double[] getMax() { return getResults(maxImpl); }