# How to choose one of the largest elements in a collection

I have a list of tuples, and I want to find the tuples with the largest x value. In the case where there are multiple largest x values, I want to choose one at random. I can't figure out how to implement this random selection functionality. Below is the code I have so far:

public void testSelectRandomFromLargestVals() {
List<Tuple<Integer, String>> list = new ArrayList<>();

Optional<Tuple<Integer, String>> largestTuple = list.stream().max((t1, t2) -> Integer.compare(t1.x, t2.x));
System.out.println("Largest tuple is: " + largestTuple.get().x + " value is: " + largestTuple.get().y);
}

public class Tuple<X, Y> {
public final X x;
public final Y y;
public Tuple(X x, Y y) {
this.x = x;
this.y = y;
}
@Override
public boolean equals(Object o) {
if (this == o) return true;
if (o == null || getClass() != o.getClass()) return false;
Tuple<?, ?> tuple = (Tuple<?, ?>) o;
if (!x.equals(tuple.x)) return false;
return y.equals(tuple.y);
}
@Override
public int hashCode() {
int result = x.hashCode();
result = 31 * result + y.hashCode();
return result;
}
}

• Just to be clear, you do really mean "at random", as opposed to "arbitrarily"? – Andy Turner Mar 14 '16 at 20:23
• Your equals method would be more safely implements using Objects.equal(x, tuple.x) instead of x.equals(tuple.x) (similarly Objects.hash(x, y) in hashCode). – Andy Turner Mar 14 '16 at 20:25
• Then IntelliJ should add null checks in the constructor :) Notwithstanding that, return x.equals(tuple.x) && y.equals(tuple.y) is a much nicer way to express the equals condition. – Andy Turner Mar 14 '16 at 20:26
• @AndyTurner Regarding IntelliJ, you can tell it to add null checks on equals and hashCode or not – fps Mar 14 '16 at 20:29

It turns out that Misha's one-pass random selector (nice work, +1) can be combined with my one-pass max-value collector from this other answer into a single collector. This allows a random element from the set of maximal ones to be selected in a single pass.

Here's the merged collector:

static <T> Collector<T, ?, Optional<T>> rndMax(Comparator<? super T> cmp) {
class RndMax {
T val;
int cnt;

int c;
if (cnt == 0 || (c = cmp.compare(t, val)) > 0) {
cnt = 1;
val = t;
} else if (c == 0) {
cnt++;
val = t;
}
}
}

RndMax merge(RndMax other) {
if (cnt == 0) {
return other;
}

if (other.cnt == 0) {
return this;
}

int c = cmp.compare(val, other.val);
if (c < 0) {
return other;
} else if (c > 0) {
return this;
} else {
cnt += other.cnt;
val = other.val;
}
return this;
}
}

Optional<T> finish() {
return cnt == 0 ? Optional.empty() : Optional.of(val);
}
}

}


You'd invoke it like this:

List<Tuple<Integer,String>> list = ... ;
Optional<Tuple<Integer,String>> max =
list.stream().collect(rndMax(Comparator.comparingInt(t -> t.x)));

• Another approach would be to make a groupMax collector that accepts a downstream collector. Then it can be composed with random() to solve this problem or toList() to solve the problem in the other question you linked. – Misha Mar 15 '16 at 4:55
• Yeah I was thinking of that but this one seemed complicated enough to start with. :-) – Stuart Marks Mar 15 '16 at 5:31

For most practical purposes, @Bohemian's shuffle-based solution is the best, but since you expressed an interest in an approach that's constant in memory, you can do it with a custom Collector that chooses a random element:

public static <T> Collector<T, ?, Optional<T>> random() {
class Rnd {

T val;
int cnt;

cnt++;
val = t;
}
}

Rnd merge(Rnd other) {
cnt += other.cnt;
val = other.val;
}
return this;
}

Optional<T> finish() {
return cnt == 0 ? Optional.empty() : Optional.of(val);
}

}

}


With that, you can make one pass to find the largest x and another to pick a random matching tuple:

int largestX = list.stream().mapToInt(t -> t.x).max()
.getAsInt();  // or throw if list is empty

Tuple<Integer, String> randomLargestTuple = list.stream()
.filter(t -> largestX == t.x)
.collect(random())
.get();

• Do you mean "you can do it with a custom Collector that chooses a random element"? – srborlongan Mar 14 '16 at 23:59
• Thank you for catching that. fixed. – Misha Mar 15 '16 at 0:35
• Nice work! +1. See also my answer for a one-pass variation. – Stuart Marks Mar 15 '16 at 4:01

Simple answer is to shuffle first:

List<Tuple<Integer, String>> copy = new ArrayList<>(list);
Collections.shuffle(copy);
Tuple<Integer, String> largestTuple = Collections.max(copy, Comparator.comparingInt(t -> t.x)); // credit @Holger


The element returned by max() is influenced by encounter order, so shuffling effectively makes it random.

If the list is not too big (not thousands of elements), the shuffle will be pretty fast.

I made a copy of the list so as to not affect the order of the original list. If that isn't important, just shuffle as use the original list.

• Hmm ok, what if instead of a List<Tuple<Integer,String>> I have a Set<Tuple<Integer, String>> ? – jcm Mar 14 '16 at 20:37
• @jcm you can only shuffle a List, but you can pass any Collection type to the constructor of ArrayList to make a copy, so this code will work as-is with a Set too. – Bohemian Mar 14 '16 at 20:40
• @jcm how large exactly? – Bohemian Mar 14 '16 at 20:43
• @jcm I just did a quick benchmark on my average laptop: To copy and shuffle a random collection of integers of size 10K takes about 0.5ms, size 1K about 0.05ms and size 100K about 6ms. Unless you're doing this continuously, I doubt you'll feel it. A user definitely won't notice it. – Bohemian Mar 14 '16 at 20:52
• If you’re operating on a shuffled list, there is no need for using the stream API at all. Just use Collections.max(copy, comparingInt(t->t.x)) – Holger Mar 15 '16 at 7:45

Might not be an optimal solution

    final Optional<Tuple<Integer, String>> largestTuple = list.stream().max((t1, t2) -> Integer.compare(t1.x, t2.x));
final List<Tuple<Integer, String>> allMaxElements = list.stream().filter(z -> z.x == largestTuple.get().x).collect(Collectors.toList());
final Tuple<Integer, String> randomMaxTuple = allMaxElements.get(new SecureRandom().nextInt(allMaxElements.size()));
System.out.println("Largest tuple is: " + randomMaxTuple.x + " value is: " + randomMaxTuple.y);


On the equals and hashCode methods you can utilize guava

@Override
public int hashCode()
{
}

@Override
public boolean equals(final Object object)
{
if (object instanceof Tuple) {
final Tuple<?, ?> that = (Tuple<?, ?>) object;
}
return false;
}

• fyi java 8 has made those guava methods obsolete: java.util.Objects.hash() and java.util.Objects.equals() do exactly the same thing. – Bohemian Mar 14 '16 at 20:57
• good to know, I tried googling and couldn't find a link that would describe this in detail, can you share any? – SDS Mar 14 '16 at 21:08
• – Holger Mar 15 '16 at 8:57

You could collect your tuples to a TreeMap, with the key being each possible x value from the tuples and the values being a list of all tuples that have that x value:

TreeMap<Integer, List<Tuple<Integer, String>>> map = list.stream()
.collect(Collectors.groupingBy(
t -> t.x,
TreeMap::new,
Collectors.toList()));


Then, you could grab the entry with the maximum key by using the TreeMap.lastEntry() method:

List<Tuple<Integer, String>> largestTuples = map.lastEntry().getValue();


Then, simply pick one element randomly from the largestTuples list.

@Misha's custom Collector can also be implemented with an anonymous type, instead of a local class:

public static <T> Collector<T, ?, Optional<T>> random() {
return Collector.of(
() -> new Object() {
T val;
int cnt;
},
(this_, t) -> {
this_.cnt++;
this_.val = t;
}
},
(this_, other) -> {
this_.cnt += other.cnt;