43

Is there a concise way to extract both the min and max value of a stream (based on some comparator) in one pass?

There appear to be many ways to get the min and max values individually, or I can sort the stream into a temporary object, for example:

List<T> sorted = Stream.of(...).sorted().collect(Collectors.toList());
T min = sorted.get(0);
T max = sorted.get(sorted.size() - 1);

But this isn't concise and requires allocating a temporary object. I'd rather not allocate a temporary object or make two passes through the stream. Is there an alternative?

Pair<T> extent = Stream.of(...).???
1
  • 14
    Have you considered a collector like IntSummaryStatistics? You may follow the pattern supposing this is not about numbers. Commented Jan 23, 2017 at 22:07

8 Answers 8

71

The summarizingInt collector works well if you have a Stream of Integers.

IntSummaryStatistics stats = Stream.of(2,4,3,2)
      .collect(Collectors.summarizingInt(Integer::intValue));

int min = stats.getMin();
int max = stats.getMax();

If you have doubles you can use the summarizingDouble collector.

DoubleSummaryStatistics stats2 = Stream.of(2.4, 4.3, 3.3, 2.5)
  .collect(Collectors.summarizingDouble((Double::doubleValue)));
0
28

If this is a frequently needed feature, we better make a Collector to do the job. We'll need a Stats class to hold count, min, max, and factory methods to creat stats collector.

Stats<String> stats = stringStream.collect(Stats.collector())

fooStream.collect(Stats.collector(fooComparator))

(Maybe a better convenience method would be Stats.collect(stream))

I made an example Stats class -

https://gist.github.com/zhong-j-yu/ac5028573c986f7820b25ea2e74ed672

public class Stats<T>
{
    int count;

    final Comparator<? super T> comparator;
    T min;
    T max;

    public Stats(Comparator<? super T> comparator)
    {
        this.comparator = comparator;
    }

    public int count(){ return count; }

    public T min(){ return min; }
    public T max(){ return max; }

    public void accept(T val)
    {
        if(count==0)
            min = max = val;
        else if(comparator.compare(val, min)<0)
            min = val;
        else if(comparator.compare(val, max)>0)
            max = val;

        count++;
    }

    public Stats<T> combine(Stats<T> that)
    {
        if(this.count==0) return that;
        if(that.count==0) return this;

        this.count += that.count;
        if(comparator.compare(that.min, this.min)<0)
            this.min = that.min;
        if(comparator.compare(that.max, this.max)>0)
            this.max = that.max;

        return this;
    }

    public static <T> Collector<T, Stats<T>, Stats<T>> collector(Comparator<? super T> comparator)
    {
        return Collector.of(
            ()->new Stats<>(comparator),
            Stats::accept,
            Stats::combine,
            Collector.Characteristics.UNORDERED, Collector.Characteristics.IDENTITY_FINISH
        );
    }

    public static <T extends Comparable<? super T>> Collector<T, Stats<T>, Stats<T>> collector()
    {
        return collector(Comparator.naturalOrder());
    }
}
2
  • 1
    I wouldn’t specify UNORDERED, as this collector is capable of respecting the encounter order, i.e. provide the first of the maximal/minimal elements if there’s a tie, exactly like max(…) and min(…) do.
    – Holger
    Commented Jan 24, 2017 at 10:16
  • 5
    IntSummaryStatistics is better
    – Kelvin Ng
    Commented Aug 17, 2017 at 14:45
13

starting with Java 12 you can obtain two result or more in a single pass by using Collectors::teeing:

class Movie {
    String title;
    double rating;
    //...
}

class Pair<T1, T2> {
    T1 left;
    T2 right;
    //...
}

@Test
void shouldFindWorstAndBestMovie() {
    var m1 = new Movie("Groundhog Day", 8);
    var m2 = new Movie("Stop! Or My Mom Will Shoot", 4.4);
    var m3 = new Movie("Forrest Gump", 8.8);

    var ratingComparator = Comparator.comparing(Movie::getRating);

    Pair<Movie, Movie> result = Stream.of(m1, m2, m3)
            .collect(Collectors.teeing(
                    Collectors.minBy(ratingComparator),
                    Collectors.maxBy(ratingComparator),
                    (min, max) -> new Pair<>(min.orElse(null), max.orElse(null))
            ));

    assertEquals(m2, result.getLeft(), "min does not match");
    assertEquals(m3, result.getRight(), "max does not match");
}

You can find more details and example in this article.

0
10

Map each element of the stream to a pair, where the two elements represent the min and the max; and then reduce the pairs by taking the min of the mins, and the max of the maxes.

For example, using some Pair class and some Comparator<T>:

Comparator<T> comparator = ...;
Optional<Pair<T, T>> minMax = list.stream()
    .map(i -> Pair.of(i /* "min" */, i /* "max" */))
    .reduce((a, b) -> Pair.of(
        // The min of the min elements.
        comparator.compare(a.first, b.first) < 0 ? a.first : b.first,
        // The max of the max elements.
        comparator.compare(a.second, b.second) > 0 ? a.second : b.second));
5
  • Not quite as concise as I was hoping for, but this looks good. Would be nice if there were a Comparator.min() and Comparator.max() to simplify the last two lines.
    – Mzzzzzz
    Commented Jan 23, 2017 at 22:15
  • 2
    Is there a Pair in Guava?
    – ZhongYu
    Commented Jan 23, 2017 at 23:31
  • 3
    Guava doesn't have a Pair. Commented Jan 24, 2017 at 0:21
  • Did you mean Apache Commons?
    – shmosel
    Commented Jan 24, 2017 at 0:29
  • 1
    Oops. Well, the implementation isn't especially relevant. I'll just leave it at "some Pair". Commented Jan 24, 2017 at 6:43
8

I think you need that

IntStream myIntStream = IntStream.rangeClosed(1, 100);
IntSummaryStatistics intStatistic = myIntStream.summaryStatistics();

System.out.println("Max: " + intStatistic.getMax() + " Min: " + intStatistic.getMin());
0
2

For a pure Java solution that's fairly concise, you can use .peek(). This is not truly Functional, as anything that .peek() does is a side-effect. But this does do it all in one pass, doesn't require sorting and isn't too verbose. There is a "temp" Object, the AtomicRef, but you'll probably allocate a local var/ref to hold the min and max anyway.

Comparator<T> cmp = ...
Stream<T> source = ...
final AtomicReference<T> min = new AtomicReference<T>();
Optional<T> max = source.peek(t -> {if (cmp.compare(t,min.get()) < 0) min.set(t);})
    .max(cmp);
//Do whatever with min.get() and max.get()
4
  • Hm... this relies on max having to consume the entire source-stream - I'm not sure that is guaranteed in any way (thinking sorted sources, short-circuiting might perhaps be possible?).
    – Hulk
    Commented Jan 25, 2017 at 13:37
  • The OP was sorting in the original question and want to avoid it. What makes you believe that consuming the stream is not guaranteed? .max(cmp) and .peek() are both defined on the java.util.stream.Stream interface and there's nothing outside of an Exception thrown during pipeline processing that should prevent this...
    – WillD
    Commented Jan 25, 2017 at 14:29
  • I agree that this approach works with the current version - I was just wondering if it was guaranteed to continue to work in future versions (see for for example my question regarding Stream.count which will no longer visit all elements in java 9 if it can determine the size in a more efficient way). But with a custom Comparator, such an optimization is probably not possible here anyway.
    – Hulk
    Commented Jan 26, 2017 at 8:07
  • 1
    According to J9 API, max() is terminal, but not short-circuiting. I can't imagine an implementation that is short-circuiting outside of taking the max() of a sorted Stream (which the OP wanted to avoid).
    – WillD
    Commented Jan 31, 2017 at 15:37
1

A straightforward approach using any mutable Pair class:

final Pair<T, T> pair = new Pair<>();
final Comparator<T> comparator = ...;
Stream.of(...).forEachOrdered(e -> {
    if(pair.first == null || comparator.compare(e, pair.first) < 0){
        pair.first = e;
    }
    if(pair.second == null || comparator.compare(e, pair.second) > 0){
        pair.second = e;
    }
});
0
List<Integer> list = Arrays.asList(1,5,8,3,6);

System.out.println(list.stream().count());//count

System.out.println(list.stream().min((i1,i2) -> i1.compareTo(i2)).stream()
                .findFirst().get()); //min element

System.out.println(list.stream().max((i1,i2) -> i1.compareTo(i2)).stream()
                .findFirst().get()); // max element

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