Java 8 Distinct by property

Consider distinct to be a stateful filter. Here is a function that returns a predicate that maintains state about what it's seen previously, and that returns whether the given element was seen for the first time:

public static <T> Predicate<T> distinctByKey(Function<? super T, ?> keyExtractor) {
    Set<Object> seen = ConcurrentHashMap.newKeySet();
    return t -> seen.add(keyExtractor.apply(t));
}

Then you can write:

persons.stream().filter(distinctByKey(Person::getName))

Note that if the stream is ordered and is run in parallel, this will preserve an arbitrary element from among the duplicates, instead of the first one, as distinct() does.

(This is essentially the same as my answer to this question: Java Lambda Stream Distinct() on arbitrary key?)

An alternative would be to place the persons in a map using the name as a key:

persons.collect(Collectors.toMap(Person::getName, p -> p, (p, q) -> p)).values();

Note that the Person that is kept, in case of a duplicate name, will be the first encontered.

You can wrap the person objects into another class, that only compares the names of the persons. Afterward, you unwrap the wrapped objects to get a person stream again. The stream operations might look as follows:

persons.stream()
    .map(Wrapper::new)
    .distinct()
    .map(Wrapper::unwrap)
    ...;

The class Wrapper might look as follows:

class Wrapper {
    private final Person person;
    public Wrapper(Person person) {
        this.person = person;
    }
    public Person unwrap() {
        return person;
    }
    public boolean equals(Object other) {
        if (other instanceof Wrapper) {
            return ((Wrapper) other).person.getName().equals(person.getName());
        } else {
            return false;
        }
    }
    public int hashCode() {
        return person.getName().hashCode();
    }
}

Another solution, using Set. May not be the ideal solution, but it works

Set<String> set = new HashSet<>(persons.size());
persons.stream().filter(p -> set.add(p.getName())).collect(Collectors.toList());

Or if you can modify the original list, you can use removeIf method

persons.removeIf(p -> !set.add(p.getName()));

There's a simpler approach using a TreeSet with a custom comparator.

persons.stream()
    .collect(Collectors.toCollection(
      () -> new TreeSet<Person>((p1, p2) -> p1.getName().compareTo(p2.getName())) 
));

We can also use RxJava (very powerful reactive extension library)

Observable.from(persons).distinct(Person::getName)

or

Observable.from(persons).distinct(p -> p.getName())

You can use groupingBy collector:

persons.collect(Collectors.groupingBy(p -> p.getName())).values().forEach(t -> System.out.println(t.get(0).getId()));

If you want to have another stream you can use this:

persons.collect(Collectors.groupingBy(p -> p.getName())).values().stream().map(l -> (l.get(0)));

You can use the distinct(HashingStrategy) method in Eclipse Collections.

List<Person> persons = ...;
MutableList<Person> distinct =
    ListIterate.distinct(persons, HashingStrategies.fromFunction(Person::getName));

If you can refactor persons to implement an Eclipse Collections interface, you can call the method directly on the list.

MutableList<Person> persons = ...;
MutableList<Person> distinct =
    persons.distinct(HashingStrategies.fromFunction(Person::getName));

HashingStrategy is simply a strategy interface that allows you to define custom implementations of equals and hashcode.

public interface HashingStrategy<E>
{
    int computeHashCode(E object);
    boolean equals(E object1, E object2);
}

Note: I am a committer for Eclipse Collections.

You can use StreamEx library:

StreamEx.of(persons)
        .distinct(Person::getName)
        .toList()

I recommend using Vavr, if you can. With this library you can do the following:

io.vavr.collection.List.ofAll(persons)
                       .distinctBy(Person::getName)
                       .toJavaSet() // or any another Java 8 Collection

Similar approach which Saeed Zarinfam used but more Java 8 style:)

persons.collect(Collectors.groupingBy(p -> p.getName())).values().stream()
 .map(plans -> plans.stream().findFirst().get())
 .collect(toList());

Extending Stuart Marks's answer, this can be done in a shorter way and without a concurrent map (if you don't need parallel streams):

public static <T> Predicate<T> distinctByKey(Function<? super T, ?> keyExtractor) {
    final Set<Object> seen = new HashSet<>();
    return t -> seen.add(keyExtractor.apply(t));
}

Then call:

persons.stream().filter(distinctByKey(p -> p.getName());

I made a generic version:

private <T, R> Collector<T, ?, Stream<T>> distinctByKey(Function<T, R> keyExtractor) {
    return Collectors.collectingAndThen(
            toMap(
                    keyExtractor,
                    t -> t,
                    (t1, t2) -> t1
            ),
            (Map<R, T> map) -> map.values().stream()
    );
}

An exemple:

Stream.of(new Person("Jean"), 
          new Person("Jean"),
          new Person("Paul")
)
    .filter(...)
    .collect(distinctByKey(Person::getName)) // return a stream of Person with 2 elements, jean and Paul
    .map(...)
    .collect(toList())

Set<YourPropertyType> set = new HashSet<>();
list
        .stream()
        .filter(it -> set.add(it.getYourProperty()))
        .forEach(it -> ...);

Another library that supports this is jOOλ, and its Seq.distinct(Function<T,U>) method:

Seq.seq(persons).distinct(Person::getName).toList();

Under the hood, it does practically the same thing as the accepted answer, though.

My approach to this is to group all the objects with same property together, then cut short the groups to size of 1 and then finally collect them as a List.

  List<YourPersonClass> listWithDistinctPersons =   persons.stream()
            //operators to remove duplicates based on person name
            .collect(Collectors.groupingBy(p -> p.getName()))
            .values()
            .stream()
            //cut short the groups to size of 1
            .flatMap(group -> group.stream().limit(1))
            //collect distinct users as list
            .collect(Collectors.toList());

Distinct objects list can be found using:

 List distinctPersons = persons.stream()
                    .collect(Collectors.collectingAndThen(
                            Collectors.toCollection(() -> new TreeSet<>(Comparator.comparing(Person:: getName))),
                            ArrayList::new));

While the highest upvoted answer is absolutely best answer wrt Java 8, it is at the same time absolutely worst in terms of performance. If you really want a bad low performant application, then go ahead and use it. Simple requirement of extracting a unique set of Person Names shall be achieved by mere "For-Each" and a "Set". Things get even worse if list is above size of 10.

Consider you have a collection of 20 Objects, like this:

public static final List<SimpleEvent> testList = Arrays.asList(
            new SimpleEvent("Tom"), new SimpleEvent("Dick"),new SimpleEvent("Harry"),new SimpleEvent("Tom"),
            new SimpleEvent("Dick"),new SimpleEvent("Huckle"),new SimpleEvent("Berry"),new SimpleEvent("Tom"),
            new SimpleEvent("Dick"),new SimpleEvent("Moses"),new SimpleEvent("Chiku"),new SimpleEvent("Cherry"),
            new SimpleEvent("Roses"),new SimpleEvent("Moses"),new SimpleEvent("Chiku"),new SimpleEvent("gotya"),
            new SimpleEvent("Gotye"),new SimpleEvent("Nibble"),new SimpleEvent("Berry"),new SimpleEvent("Jibble"));

Where you object SimpleEvent looks like this:

public class SimpleEvent {

private String name;
private String type;

public SimpleEvent(String name) {
    this.name = name;
    this.type = "type_"+name;
}

public String getName() {
    return name;
}

public void setName(String name) {
    this.name = name;
}

public String getType() {
    return type;
}

public void setType(String type) {
    this.type = type;
}
}

And to test, you have JMH code like this,(Please note, im using the same distinctByKey Predicate mentioned in accepted answer) :

@Benchmark
@OutputTimeUnit(TimeUnit.SECONDS)
public void aStreamBasedUniqueSet(Blackhole blackhole) throws Exception{

    Set<String> uniqueNames = testList
            .stream()
            .filter(distinctByKey(SimpleEvent::getName))
            .map(SimpleEvent::getName)
            .collect(Collectors.toSet());
    blackhole.consume(uniqueNames);
}

@Benchmark
@OutputTimeUnit(TimeUnit.SECONDS)
public void aForEachBasedUniqueSet(Blackhole blackhole) throws Exception{
    Set<String> uniqueNames = new HashSet<>();

    for (SimpleEvent event : testList) {
        uniqueNames.add(event.getName());
    }
    blackhole.consume(uniqueNames);
}

public static void main(String[] args) throws RunnerException {
    Options opt = new OptionsBuilder()
            .include(MyBenchmark.class.getSimpleName())
            .forks(1)
            .mode(Mode.Throughput)
            .warmupBatchSize(3)
            .warmupIterations(3)
            .measurementIterations(3)
            .build();

    new Runner(opt).run();
}

Then you'll have Benchmark results like this:

Benchmark                                  Mode  Samples        Score  Score error  Units
c.s.MyBenchmark.aForEachBasedUniqueSet    thrpt        3  2635199.952  1663320.718  ops/s
c.s.MyBenchmark.aStreamBasedUniqueSet     thrpt        3   729134.695   895825.697  ops/s

And as you can see, a simple For-Each is 3 times better in throughput and less in error score as compared to Java 8 Stream.

Higher the throughput, better the performance

The easiest way to implement this is to jump on the sort feature as it already provides an optional Comparator which can be created using an element’s property. Then you have to filter duplicates out which can be done using a statefull Predicate which uses the fact that for a sorted stream all equal elements are adjacent:

Comparator<Person> c=Comparator.comparing(Person::getName);
stream.sorted(c).filter(new Predicate<Person>() {
    Person previous;
    public boolean test(Person p) {
      if(previous!=null && c.compare(previous, p)==0)
        return false;
      previous=p;
      return true;
    }
})./* more stream operations here */;

Of course, a statefull Predicate is not thread-safe, however if that’s your need you can move this logic into a Collector and let the stream take care of the thread-safety when using your Collector. This depends on what you want to do with the stream of distinct elements which you didn’t tell us in your question.

Here is the example
public class PayRoll {

    private int payRollId;
    private int id;
    private String name;
    private String dept;
    private int salary;


    public PayRoll(int payRollId, int id, String name, String dept, int salary) {
        super();
        this.payRollId = payRollId;
        this.id = id;
        this.name = name;
        this.dept = dept;
        this.salary = salary;
    }
} 

import java.util.ArrayList;
import java.util.Comparator;
import java.util.List;
import java.util.Map;
import java.util.Optional;
import java.util.stream.Collector;
import java.util.stream.Collectors;

public class Prac {
    public static void main(String[] args) {

        int salary=70000;
        PayRoll payRoll=new PayRoll(1311, 1, "A", "HR", salary);
        PayRoll payRoll2=new PayRoll(1411, 2    , "B", "Technical", salary);
        PayRoll payRoll3=new PayRoll(1511, 1, "C", "HR", salary);
        PayRoll payRoll4=new PayRoll(1611, 1, "D", "Technical", salary);
        PayRoll payRoll5=new PayRoll(711, 3,"E", "Technical", salary);
        PayRoll payRoll6=new PayRoll(1811, 3, "F", "Technical", salary);
        List<PayRoll>list=new ArrayList<PayRoll>();
        list.add(payRoll);
        list.add(payRoll2);
        list.add(payRoll3);
        list.add(payRoll4);
        list.add(payRoll5);
        list.add(payRoll6);


        Map<Object, Optional<PayRoll>> k = list.stream().collect(Collectors.groupingBy(p->p.getId()+"|"+p.getDept(),Collectors.maxBy(Comparator.comparingInt(PayRoll::getPayRollId))));


        k.entrySet().forEach(p->
        {
            if(p.getValue().isPresent())
            {
                System.out.println(p.getValue().get());
            }
        });



    }
}

Output:

PayRoll [payRollId=1611, id=1, name=D, dept=Technical, salary=70000]
PayRoll [payRollId=1811, id=3, name=F, dept=Technical, salary=70000]
PayRoll [payRollId=1411, id=2, name=B, dept=Technical, salary=70000]
PayRoll [payRollId=1511, id=1, name=C, dept=HR, salary=70000]

Late to the party but I sometimes use this one-liner as an equivalent:

((Function<Value, Key>) Value::getKey).andThen(new HashSet<>()::add)::apply

The expression is a Predicate<Value> but since the map is inline, it works as a filter. This is of course less readable but sometimes it can be helpful to avoid the method.

I would like to improve Stuart Marks answer. What if the key is null, it will through NullPointerException. Here I ignore the null key by adding one more check as keyExtractor.apply(t)!=null.

public static <T> Predicate<T> distinctByKey(Function<? super T, ?> keyExtractor) {
Set<Object> seen = ConcurrentHashMap.newKeySet();
return t -> keyExtractor.apply(t)!=null && seen.add(keyExtractor.apply(t));

}

Building on @josketres's answer, I created a generic utility method:

You could make this more Java 8-friendly by creating a Collector.

public static <T> Set<T> removeDuplicates(Collection<T> input, Comparator<T> comparer) {
    return input.stream()
            .collect(toCollection(() -> new TreeSet<>(comparer)));
}


@Test
public void removeDuplicatesWithDuplicates() {
    ArrayList<C> input = new ArrayList<>();
    Collections.addAll(input, new C(7), new C(42), new C(42));
    Collection<C> result = removeDuplicates(input, (c1, c2) -> Integer.compare(c1.value, c2.value));
    assertEquals(2, result.size());
    assertTrue(result.stream().anyMatch(c -> c.value == 7));
    assertTrue(result.stream().anyMatch(c -> c.value == 42));
}

@Test
public void removeDuplicatesWithoutDuplicates() {
    ArrayList<C> input = new ArrayList<>();
    Collections.addAll(input, new C(1), new C(2), new C(3));
    Collection<C> result = removeDuplicates(input, (t1, t2) -> Integer.compare(t1.value, t2.value));
    assertEquals(3, result.size());
    assertTrue(result.stream().anyMatch(c -> c.value == 1));
    assertTrue(result.stream().anyMatch(c -> c.value == 2));
    assertTrue(result.stream().anyMatch(c -> c.value == 3));
}

private class C {
    public final int value;

    private C(int value) {
        this.value = value;
    }
}

Maybe will be useful for somebody. I had a little bit another requirement. Having list of objects A from 3rd party remove all which have same A.b field for same A.id (multiple A object with same A.id in list). Stream partition answer by Tagir Valeev inspired me to use custom Collector which returns Map<A.id, List<A>>. Simple flatMap will do the rest.

 public static <T, K, K2> Collector<T, ?, Map<K, List<T>>> groupingDistinctBy(Function<T, K> keyFunction, Function<T, K2> distinctFunction) {
    return groupingBy(keyFunction, Collector.of((Supplier<Map<K2, T>>) HashMap::new,
            (map, error) -> map.putIfAbsent(distinctFunction.apply(error), error),
            (left, right) -> {
                left.putAll(right);
                return left;
            }, map -> new ArrayList<>(map.values()),
            Collector.Characteristics.UNORDERED)); }

I had a situation, where I was suppose to get distinct elements from list based on 2 keys. If you want distinct based on two keys or may composite key, try this

class Person{
    int rollno;
    String name;
}
List<Person> personList;


Function<Person, List<Object>> compositeKey = personList->
        Arrays.<Object>asList(personList.getName(), personList.getRollno());

Map<Object, List<Person>> map = personList.stream().collect(Collectors.groupingBy(compositeKey, Collectors.toList()));

List<Object> duplicateEntrys = map.entrySet().stream()`enter code here`
        .filter(settingMap ->
                settingMap.getValue().size() > 1)
        .collect(Collectors.toList());

A variation of the top answer that handles null:

    public static <T, K> Predicate<T> distinctBy(final Function<? super T, K> getKey) {
        val seen = ConcurrentHashMap.<Optional<K>>newKeySet();
        return obj -> seen.add(Optional.ofNullable(getKey.apply(obj)));
    }

In my tests:

        assertEquals(
                asList("a", "bb"),
                Stream.of("a", "b", "bb", "aa").filter(distinctBy(String::length)).collect(toList()));

        assertEquals(
                asList(5, null, 2, 3),
                Stream.of(5, null, 2, null, 3, 3, 2).filter(distinctBy(x -> x)).collect(toList()));

        val maps = asList(
                hashMapWith(0, 2),
                hashMapWith(1, 2),
                hashMapWith(2, null),
                hashMapWith(3, 1),
                hashMapWith(4, null),
                hashMapWith(5, 2));

        assertEquals(
                asList(0, 2, 3),
                maps.stream()
                        .filter(distinctBy(m -> m.get("val")))
                        .map(m -> m.get("i"))
                        .collect(toList()));

What's about this solution.

It will only work if your key implements Equal which most base types do, but it's a little bit simpler.

person.stream().map(person -> p.getName()).distinct()

In my case I needed to control what was the previous element. I then created a stateful Predicate where I controled if the previous element was different from the current element, in that case I kept it.

public List<Log> fetchLogById(Long id) {
    return this.findLogById(id).stream()
        .filter(new LogPredicate())
        .collect(Collectors.toList());
}

public class LogPredicate implements Predicate<Log> {

    private Log previous;

    public boolean test(Log atual) {
        boolean isDifferent = previouws == null || verifyIfDifferentLog(current, previous);

        if (isDifferent) {
            previous = current;
        }
        return isDifferent;
    }

    private boolean verifyIfDifferentLog(Log current, Log previous) {
        return !current.getId().equals(previous.getId());
    }

}

My solution in this listing:

List<HolderEntry> result ....

List<HolderEntry> dto3s = new ArrayList<>(result.stream().collect(toMap(
            HolderEntry::getId,
            holder -> holder,  //or Function.identity() if you want
            (holder1, holder2) -> holder1 
    )).values());

In my situation i want to find distinct values and put their in List.

As everyone is sharing their own ideas and implementation I also have one, it's not an efficient one, but it's working:

Set<String> personNameList = personList.stream().
map(tempPerson->tempPerson.getName()).collect(Collectors.toSet());

personList.stream().
                   collect(()->new ArrayList<Person>(),
                           (l1,p)->{
                                  if(!personNameList.contains(p.getName())) {
                                        l1.add(p);
                                  }
        }, ArrayList::addAll);