5

I would like to create a simple class applying common statistics using lambda expression. I am wondering how can I avoid using the switch case in the statistic() method?

For example, I may want to write a new lambda to calculate the variance of the list, etc.

Thank you.

public class DescriptiveStatistics {

    public static void main(String[] args) {
        List<Double> numbers = Arrays.asList(1.0, 2.0, 3.0, 4.0, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0);
        numbers.stream().forEach(n-> System.out.print(n + " "));
        System.out.println();
        System.out.println("Descriptive statistics");
        System.out.println("Sum: " + statistic(numbers, "Sum"));
        System.out.println("Max: " + statistic(numbers, "Max"));
        System.out.println("Min: " + statistic(numbers, "Min"));
        System.out.println("Average: " + statistic(numbers, "Average"));
        System.out.println("Count: " + statistic(numbers, "Count"));
    }

    private static double statistic(List<Double> numbers, String function) {
        switch (function.toLowerCase()) {
            case "sum":
                return numbers.stream().mapToDouble(Double::doubleValue).sum();
            case "max":
                return numbers.stream().mapToDouble(Double::doubleValue).max().getAsDouble();
            case "min":
                return numbers.stream().mapToDouble(Double::doubleValue).min().getAsDouble();
            case "average":
                return numbers.stream().mapToDouble(Double::doubleValue).average().getAsDouble();
            case "count":
                return numbers.stream().mapToDouble(Double::doubleValue).count();
        }
        return 0;
    }

I have in mind of a method like this

private static double newStatistics(List<Double> numbers, Function<Double, Double> function){
        return  numbers.stream().mapToDouble(Double::doubleValue).function();
    }
  • You should be using either an enum (if you know ahead of time all the functions) or a Strategy interface (if you need to be able to plug new ones in at runtime). – chrylis Apr 5 '14 at 13:14
  • I think the Strategy interface answers the question. Thank you! – CheJharia Apr 5 '14 at 13:26
11

Why not simply use DoubleStream#summaryStatistics or apply a similar pattern?

You could even extend the class to add custom methods, say a variance, skewness and kurtosis for example:

/**
 * Algorithms derived from: Philippe Pébay, Formulas for Robust, One-Pass Parallel
 * Computation of Covariances and Arbitrary-Order Statistical Moments.
 */
public class MoreDoubleStatistics extends DoubleSummaryStatistics {

    private double M1, M2, M3, M4;

    @Override
    public void accept(double x) {
        super.accept(x);

        long n = getCount();

        double delta = x - M1;                       // δ
        double delta_n = delta / n;                  // δ / n
        double delta2_n = delta * delta_n;           // δ^2 / n
        double delta2_n2 = delta_n * delta_n;        // δ^2 / n^2
        double delta3_n2 = delta2_n * delta_n;       // δ^3 / n^2
        double delta4_n3 = delta3_n2 * delta_n;      // δ^4 / n^3

        M4 += (n - 1) * (n * n - 3 * n + 3) * delta4_n3
                + 6 * M2 * delta2_n2
                - 4 * M3 * delta_n;
        M3 += (n - 1) * (n - 2) * delta3_n2
                - 3 * M2 * delta_n;
        M2 += (n - 1) * delta2_n;
        M1 += delta_n;
    }

    @Override
    public void combine(DoubleSummaryStatistics other) {
      throw new UnsupportedOperationException(
              "Can't combine a standard DoubleSummaryStatistics with this class");
    }

    public void combine(MoreDoubleStatistics other) {
        MoreDoubleStatistics s1 = this;
        MoreDoubleStatistics s2 = other;

        long n1 = s1.n();
        long n2 = s2.n();
        long n = n1 + n2;

        double delta = s2.M1 - s1.M1;                // δ
        double delta_n = delta / n;                  // δ / n
        double delta2_n = delta * delta_n;           // δ^2 / n
        double delta2_n2 = delta_n * delta_n;        // δ^2 / n^2
        double delta3_n2 = delta2_n * delta_n;       // δ^3 / n^2
        double delta4_n3 = delta3_n2 * delta_n;      // δ^4 / n^3

        this.M4 = s1.M4 + s2.M4 + n1 * n2 * (n1 * n1 - n1 * n2 + n2 * n2) * delta4_n3
                + 6.0 * (n1 * n1 * s2.M2 + n2 * n2 * s1.M2) * delta2_n2
                + 4.0 * (n1 * s2.M3 - n2 * s1.M3) * delta_n;

        this.M3 = s1.M3 + s2.M3 + n1 * n2 * (n1 - n2) * delta3_n2
                + 3.0 * (n1 * s2.M2 - n2 * s1.M2) * delta_n;

        this.M2 = s1.M2 + s2.M2 + n1 * n2 * delta2_n;

        this.M1 = s1.M1 + n2 * delta;

        super.combine(other);
    }

    private long n() { return getCount(); }

    public double mean() { return getAverage(); }
    public double variance() { return n() <= 1 ? 0 : M2 / (n() - 1); }
    public double stdDev() { return sqrt(variance()); }
    public double skew() { return M2 == 0 ? 0 : sqrt(n()) * M3/ pow(M2, 1.5); }
    public double kurtosis() { return M2 == 0 ? 0 : n() * M4 / (M2 * M2) - 3.0; }
}
  • could you provide code for a combine function, so that this class could be used as a collector? – Roland Gude Nov 2 '15 at 7:55
  • but wouldn't variance skew and kurtosis be wrong in the final result then? I mean DoubleSummaryStatistics::combine does not take them into account, or am i missing something? – Roland Gude Nov 3 '15 at 7:55
  • @RolandGude Good point you are absolutely right. Edited. – assylias Nov 3 '15 at 11:52
8

Replace the String parameter of the method statistic with a function type, that takes a DoubleStream and returns the aggregate.

private static double statistic(List<Double> numbers,
                                ToDoubleFunction<DoubleStream> function) {
    return function.applyAsDouble(
        numbers.stream().mapToDouble(Double::doubleValue));
}

Now, you can invoke the method as follows, without using a switch statement for the different operations on the stream:

System.out.println("Sum: " + statistic(numbers, s -> s.sum()));
System.out.println("Max: " + statistic(numbers, s -> s.max().getAsDouble()));
System.out.println("Min: " + statistic(numbers, s -> s.min().getAsDouble()));
System.out.println("Average: " + statistic(numbers, s -> s.average().getAsDouble()));
System.out.println("Count: " + statistic(numbers, s -> s.count()));
  • 1
    Thank you. And where could I read more about creating my own ToDoubleFunction()? For example, for calculating variance. – CheJharia Apr 5 '14 at 13:32
  • Instead of s -> s.sum(), you can simplify it to DoubleStream::sum. Same goes for s -> s.count(). – bcsb1001 Oct 8 '14 at 19:06
  • @bcsb1001: In my opinion, s -> s.sum() is simpler than DoubleStream::sum (regarding readability and maintainability). – nosid Oct 21 '14 at 17:27

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