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I want to filter a java.util.Collection based on a predicate.

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You should take a look at Scala: gist.github.com/2304539 –  santiagobasulto Apr 4 '12 at 18:31

20 Answers 20

up vote 130 down vote accepted

lambdaj allows to filter collections without writing loops or inner classes as in the following example:

List<Person> beerDrinkers = select(persons, having(on(Person.class).getAge(),
    greaterThan(16)));

Can you imagine something more readable? You can find it here:

http://code.google.com/p/lambdaj/

Update:

With Java 8 update (2014) comes streams and lambdas, solving this problem with a simple one-liner:

List<Person> beerDrinkers = persons.stream()
    .filter(p -> p.getAge() > 16).collect(Collectors.toList());

Some tutorial.

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2  
Wow! Thanks for this answer, this is definitely going to be helpful! –  Sandman Nov 14 '09 at 16:36
10  
Nice but the static imports obfuscate whats going on. For reference, select/having/on are static imports on ch.lambdaj.Lambda, greaterThan is org.hamcrest.Matchers –  MikePatel Mar 15 '12 at 11:57
6  
LambdaJ is really sexy, but it worths noting that it implies a significant overhead (2.6 average): code.google.com/p/lambdaj/wiki/PerformanceAnalysis. –  PomCompot Apr 10 '12 at 11:54
42  
@MarioFusco I think it would be have nice for you to disclose that you are an authour of/contributor to LambdaJ. Don't know if you were at the time of your answer, but discovering that made it seem a little shady. –  ArtB Apr 18 '12 at 18:21
2  
Apparently doesn't work on Android: groups.google.com/forum/#!msg/lambdaj/km7uFgvSd3k/grJhgl3ik5sJ –  Moritz May 17 '13 at 9:37

Assuming that you are using Java 1.5, and that you cannot add Google Collections, I would do something very similar to what the Google guys did. This is a slight variation on Jon's comments.

First add this interface to your codebase.

public interface IPredicate<T> { boolean apply(T type); }

Its implementers can answer when a certain predicate is true of a certain type. E.g. If T were User and AuthorizedUserPredicate<User> implements IPredicate<T>, then AuthorizedUserPredicate#apply returns whether the passed in User is authorized.

Then in some utility class, you could say

public static <T> Collection<T> filter(Collection<T> target, IPredicate<T> predicate) {
    Collection<T> result = new ArrayList<T>();
    for (T element: target) {
        if (predicate.apply(element)) {
            result.add(element);
        }
    }
    return result;
}

So, assuming that you have the use of the above might be

Predicate<User> isAuthorized = new Predicate<User>() {
    public boolean apply(User user) {
        // binds a boolean method in User to a reference
        return user.isAuthorized();
    }
};
// allUsers is a Collection<User>
Collection<User> authorizedUsers = filter(allUsers, isAuthorized);

If performance on the linear check is of concern, then I might want to have a domain object that has the target collection. The domain object that has the target collection would have filtering logic for the methods that initialize, add and set the target collection.

Update:

In the utility class (let's say Predicate), I have added a select method with an option for default value when the predicate don't return the expected value, and also a static property for params to be used inside the new IPredicate.

public class Predicate {
public static Object predicateParams;

public static <T> Collection<T> filter(Collection<T> target, IPredicate<T> predicate) {
    Collection<T> result = new ArrayList<T>();
    for (T element : target) {
        if (predicate.apply(element)) {
            result.add(element);
        }
    }
    return result;
}

public static <T> T select(Collection<T> target, IPredicate<T> predicate) {
    T result = null;
    for (T element : target) {
        if (!predicate.apply(element))
            continue;
        result = element;
        break;
    }
    return result;
}

public static <T> T select(Collection<T> target, IPredicate<T> predicate, T defaultValue) {
    T result = defaultValue;
    for (T element : target) {
        if (!predicate.apply(element))
            continue;
        result = element;
        break;
    }
    return result;
}

}

The following example looks for missing objects between collections:

List<MyTypeA> missingObjects = (List<MyTypeA>) Predicate.filter(myCollectionOfA,
    new IPredicate<MyTypeA>() {
        public boolean apply(MyTypeA objectOfA) {
            Predicate.predicateParams = objectOfA.getName();
            return Predicate.select(myCollectionB, new IPredicate<MyTypeB>() {
                public boolean apply(MyTypeB objectOfB) {
                    return objectOfB.getName().equals(Predicate.predicateParams.toString());
                }
            }) == null;
        }
    });

The following example, looks for an instance in a collection, and returns the first element of the collection as default value when the instance is not found:

MyType myObject = Predicate.select(collectionOfMyType, new IPredicate<MyType>() {
public boolean apply(MyType objectOfMyType) {
    return objectOfMyType.isDefault();
}}, collectionOfMyType.get(0));
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14  
Yeah, but I hate to reinvent the wheel, again, repeatedly. I'd rather find some utility library that does when I want. –  Kevin Wong Sep 25 '08 at 18:18
2  
This isn't the best way in case you don't want the new collection. Use the filter iterator metaphor, which may input into a new collection, or it may be all that you a need. –  Josh Oct 11 '08 at 19:54
1  
Thanks Alan! This was key! –  user295190 Apr 14 '10 at 3:01
18  
And Java still does not have lambdas :( –  Martin Konicek Jul 19 '11 at 17:16
2  
@MartinKonicek yes it does :) –  Robert Grant Apr 9 at 12:48

Consider Google Collections for an updated Collections framework that supports generics.

UPDATE: The google collections library is now deprecated. You should use the latest release of Guava instead. It still has all the same extensions to the collections framework including a mechanism for filtering based on a predicate.

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I actually had that in the comment, but I left out "http://" –  Heath Borders Sep 23 '08 at 18:21
    
ya, I knew about the Google collections lib. The version I was using didn't have Collections2 in it. I added a new answer to this question that lists the specific method. –  Kevin Wong Sep 23 '08 at 18:25
5  
Kevin, Iterables.filter() and Iterators.filter() have been there from the beginning, and are usually all you need. –  Kevin Bourrillion Nov 8 '09 at 16:43

Use CollectionUtils.filter(Collection,Predicate), from Apache Commons.

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this is okay, but it's no generic, and modifies the collection in place (not nice) –  Kevin Wong Sep 23 '08 at 16:30
1  
There are other filter methods in CollectionUtils that do not modify the original collection. –  skaffman Sep 6 '09 at 15:08
16  
In particular, the method that does not modify the collection in place is org.apache.commons.collections.CollectionUtils#select(Collection,Predicate) –  Eero Sep 29 '10 at 12:27
1  
While this link may answer the question, it is better to include the essential parts of the answer here and provide the link for reference. Link-only answers can become invalid if the linked page changes. –  Gaffi May 21 at 16:22
    
The link is dead, too. –  Warren Dew May 21 at 16:41

"Best" way is too wide a request. Is it "shortest"? "Fastest"? "Readable"? Filter in place or into another collection?

Simplest (but not most readable) way is to iterate it and use Iterator.remove() method:

Iterator<Foo> it = col.iterator();
while( it.hasNext() ) {
  Foo foo = it.next();
  if( !condition(foo) ) it.remove();
}

Now, to make it more readable, you can wrap it into a utility method. Then invent a IPredicate interface, create an anonymous implementation of that interface and do something like:

CollectionUtils.filterInPlace(col,
  new IPredicate<Foo>(){
    public boolean keepIt(Foo foo) {
      return foo.isBar();
    }
  });

where filterInPlace() iterate the collection and calls Predicate.keepIt() to learn if the instance to be kept in the collection.

I don't really see a justification for bringing in a third-party library just for this task.

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3  
My vote goes for this one: it just works, with no external libraries. I never realized instantiating an Iterator could actually be useful compared to using the for-each syntax, or that you could remove items from a list without a ConcurrentModificationException or something like that. :) –  ZeroOne Dec 21 '12 at 11:40

Wait for Java 8:

List<Person> olderThan30 = 
  //Create a Stream from the personList
  personList.stream().
  //filter the element to select only those with age >= 30
  filter(p -> p.age >= 30).
  //put those filtered elements into a new List.
  collect(Collectors.toCollection(() -> new ArrayList<Person>()));
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7  
Ugh...it's so verbose. Why couldn't they just do: List<Person> result = personList.filter(p -> p.age > 30); –  Kevin Wong Aug 30 '13 at 13:38
    
@KevinWong I actually get with example from official tutorial so don't know about another syntax... –  gavenkoa Aug 30 '13 at 13:42
3  
To use filter directly on Collection you need use removeIf call: download.java.net/jdk8/docs/api/java/util/… –  gavenkoa Sep 7 '13 at 13:55
1  
@KevinWong "verbose" pretty much describes the whole language I would think. At least they're consistent? –  Rogue May 12 at 5:09
3  
Why not use Collectors.toList() in the last part? –  Nestor Hernandez Loli May 12 at 13:45

The setup:

public interface Predicate<T> {
  public boolean filter(T t);
}

void filterCollection(Collection<T> col, Predicate<T> predicate) {
  for (Iterator i = col.iterator(); i.hasNext();) {
    T obj = i.next();
    if (predicate.filter(obj)) {
      i.remove();
    }
  }
}

The usage:

List<MyObject> myList = ...;
filterCollection(myList, new Predicate<MyObject>() {
  public boolean filter(MyObject obj) {
    return obj.shouldFilter();
  }
});
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1  
Fine, but I prefer Alan implementation because you get a copy of the collection instead of altering it. Moreover, Alan's code is thread safe while yours is not. –  marcospereira Sep 24 '08 at 3:45

Since the early release of Java 8, you could try something like:

Collection<T> collection = ...;
Stream<T> stream = collection.stream().filter(...);

For example, if you had a list of integers and you wanted to filter the numbers that are > 10 and then print out those numbers to the console, you could do something like:

List<Integer> numbers = Arrays.asList(12, 74, 5, 8, 16);
numbers.stream().filter(n -> n > 10).forEach(System.out::println);
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Are you sure you want to filter the Collection itself, rather than an iterator?

see org.apache.commons.collections.iterators.FilterIterator

or using version 4 of apache commons org.apache.commons.collections4.iterators.FilterIterator

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With the ForEach DSL you may write

import static ch.akuhn.util.query.Query.select;
import static ch.akuhn.util.query.Query.$result;
import ch.akuhn.util.query.Select;

Collection<String> collection = ...

for (Select<String> each : select(collection)) {
    each.yield = each.value.length() > 3;
}

Collection<String> result = $result();

Given a collection of [The, quick, brown, fox, jumps, over, the, lazy, dog] this results in [quick, brown, jumps, over, lazy], ie all strings longer than three characters.

All iteration styles supported by the ForEach DSL are

  • AllSatisfy
  • AnySatisfy
  • Collect
  • Counnt
  • CutPieces
  • Detect
  • GroupedBy
  • IndexOf
  • InjectInto
  • Reject
  • Select

For more details, please refer to https://www.iam.unibe.ch/scg/svn_repos/Sources/ForEach

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That's pretty clever! A lot of work to implement a nice Ruby-ish syntax though! The negative is that your filter is not a first-class function and hence cannot be re-used. Roll on closures... –  oxbow_lakes Feb 25 '09 at 21:47
    
Good point. One way to reuse the loop body is by refactoring the loop into a method that takes the selection query as parameter. That is however by far not as handy and powerful as real closures, for sure. –  akuhn Feb 28 '09 at 16:00

Let’s look at how to filter a built-in JDK List and a MutableList using GS Collections.

List<Integer> jdkList = Arrays.asList(1, 2, 3, 4, 5);
MutableList<Integer> gscList = FastList.newListWith(1, 2, 3, 4, 5);

If you wanted to filter the numbers less than 3, you would expect the following outputs.

List<Integer> selected = FastList.newListWith(1, 2);
List<Integer> rejected = FastList.newListWith(3, 4, 5);

Here’s how you can filter using an anonymous inner class as the Predicate.

Predicate<Integer> lessThan3 = new Predicate<Integer>()
{
    public boolean accept(Integer each)
    {
        return each < 3;
    }
};

Assert.assertEquals(selected, Iterate.select(jdkList, lessThan3));

Assert.assertEquals(selected, gscList.select(lessThan3));

Here are some alternatives to filtering JDK lists and GS Collections MutableLists using the Predicates factory.

Assert.assertEquals(selected, Iterate.select(jdkList, Predicates.lessThan(3)));

Assert.assertEquals(selected, gscList.select(Predicates.lessThan(3)));

Here is a version that doesn't allocate an object for the predicate, by using the Predicates2 factory instead with the selectWith method that takes a Predicate2.

Assert.assertEquals(
    selected, gscList.selectWith(Predicates2.<Integer>lessThan(), 3));

Sometimes you want to filter on a negative condition. There is a special method in GS Collections for that called reject.

Assert.assertEquals(rejected, Iterate.reject(jdkList, lessThan3));

Assert.assertEquals(rejected, gscList.reject(lessThan3));

Here’s how you can filter using a Java 8 lambda as the Predicate.

Assert.assertEquals(selected, Iterate.select(jdkList, each -> each < 3));
Assert.assertEquals(rejected, Iterate.reject(jdkList, each -> each < 3));

Assert.assertEquals(selected, gscList.select(each -> each < 3));
Assert.assertEquals(rejected, gscList.reject(each -> each < 3));

The method partition will return two collections, containing the elements selected by and rejected by the Predicate.

PartitionIterable<Integer> jdkPartitioned = Iterate.partition(jdkList, lessThan3);
Assert.assertEquals(selected, jdkPartitioned.getSelected());
Assert.assertEquals(rejected, jdkPartitioned.getRejected());

PartitionList<Integer> gscPartitioned = gscList.partition(lessThan3);
Assert.assertEquals(selected, gscPartitioned.getSelected());
Assert.assertEquals(rejected, gscPartitioned.getRejected());

Note: I am a developer on GS Collections.

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This, combined with the lack of real closures, is my biggest gripe for Java. Honestly, most of the methods mentioned above are pretty easy to read and REALLY efficient; however, after spending time with .Net, Erlang, etc... list comprehension integrated at the language level makes everything so much cleaner. Without additions at the language level, Java just cant be as clean as many other languages in this area.

If performance is a huge concern, Google collections is the way to go (or write your own simple predicate utility). Lambdaj syntax is more readable for some people, but it is not quite as efficient.

And then there is a library I wrote. I will ignore any questions in regard to its efficiency (yea, its that bad)...... Yes, i know its clearly reflection based, and no I don't actually use it, but it does work:

LinkedList<Person> list = ......
LinkedList<Person> filtered = 
           Query.from(list).where(Condition.ensure("age", Op.GTE, 21));

OR

LinkedList<Person> list = ....
LinkedList<Person> filtered = Query.from(list).where("x => x.age >= 21");
share|improve this answer
    
Link? Even if your library is inefficient or otherwise unusable it might be interesting to look at if the source is available. –  MatrixFrog Jun 20 '11 at 22:39
    
Made the repo public (net-machine.com/indefero/p/jdclib/source/tree/master). You are interested in the expression package. The test package has a tester with example usage. I never really did much work on the string query interface referenced above (didnt feel like writing a real parser), so the explicit query interface in the tester is the way to go. –  jdc0589 Jun 23 '11 at 3:02

The Collections2.filter(Collection,Predicate) method in Google's Guava library does just what you're looking for.

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JFilter http://code.google.com/p/jfilter/ is best suited for your requirement.

JFilter is a simple and high performance open source library to query collection of Java beans.

Key features

  • Support of collection (java.util.Collection, java.util.Map and Array) properties.
  • Support of collection inside collection of any depth.
  • Support of inner queries.
  • Support of parameterized queries.
  • Can filter 1 million records in few 100 ms.
  • Filter ( query) is given in simple json format, it is like Mangodb queries. Following are some examples.
  • { "id":{"$le":"10"}
    • where object id property is less than equals to 10.
  • { "id": {"$in":["0", "100"]}}
    • where object id property is 0 or 100.
  • {"lineItems":{"lineAmount":"1"}}
    • where lineItems collection property of parameterized type has lineAmount equals to 1.
  • { "$and":[{"id": "0"}, {"billingAddress":{"city":"DEL"}}]}
    • where id property is 0 and billingAddress.city property is DEL.
  • {"lineItems":{"taxes":{ "key":{"code":"GST"}, "value":{"$gt": "1.01"}}}}
    • where lineItems collection property of parameterized type which has taxes map type property of parameteriszed type has code equals to GST value greater than 1.01.
  • {'$or':[{'code':'10'},{'skus': {'$and':[{'price':{'$in':['20', '40']}}, {'code':'RedApple'}]}}]}
    • Select all products where product code is 10 or sku price in 20 and 40 and sku code is "RedApple".
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1  
You should disclaim that you are the author (as I think it is the case). –  assylias Apr 5 '12 at 11:01
    
Yes, I am the author of this library. –  Kamran Ali Khan Apr 6 '12 at 5:50

How about some plain and straighforward Java

 List<Customer> list ...;
 List<Customer> newList = new ArrayList<>();
 for (Customer c : list){
    if (c.getName().equals("dd")) newList.add(c);
 }

Simple, readable and easy (and works in Android!) But if you're using Java 8 you can do it in a sweet one line:

List<Customer> newList = list.stream().filter(c -> c.getName().equals("dd")).collect(toList());

Note that toList() is statically imported

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Filtering is not the only way to retrieve objects matching a predicate.

There are more scalable ways to do this.

Filtering is like doing a table scan without indexes. Performance will degrade as the number of objects in the collection increases, or as the complexity of the query increases.

An alternative approach using CQEngine (Collection Query Engine) which is based on set theory, is discussed in similar question: How do you query object collections in Java (Criteria/SQL-like)?

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I wrote an extended Iterable class that support applying functional algorithms without copying the collection content.

Usage:

List<Integer> myList = new ArrayList<Integer>(){ 1, 2, 3, 4, 5 }

Iterable<Integer> filtered = Iterable.wrap(myList).select(new Predicate1<Integer>()
{
    public Boolean call(Integer n) throws FunctionalException
    {
        return n % 2 == 0;
    }
})

for( int n : filtered )
{
    System.out.println(n);
}

The code above will actually execute

for( int n : myList )
{
    if( n % 2 == 0 ) 
    {
        System.out.println(n);
    }
}
share|improve this answer

The simple pre-Java8 solution:

ArrayList<Item> filtered = new ArrayList<Item>(); 
for (Item item : items) if (condition(item)) filtered.add(item);

Unfortunately this solution isn't fully generic, outputting a list rather than the type of the given collection. Also, bringing in libraries or writing functions that wrap this code seems like overkill to me unless the condition is complex, but then you can write a function for the condition.

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I'll throw RxJava in the ring, which is also available on Android. RxJava might not always be the best option, but it will give you more flexibility if you wish add more transformations/filters on your collection or handle errors while filtering.

Observable.from(Arrays.asList(1, 2, 3, 4, 5))
    .filter(new Func1<Integer, Boolean>() {
        public Boolean call(Integer i) {
            return i % 2 != 0;
        }
    })
    .subscribe(new Action1<Integer>() {
        public void call(Integer i) {
            System.out.println(i);
        }
    });

Output:

1
3
5

Instead of printing, you could add the results to a new, filtered list. More details on RxJava's filter can be found here.

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https://code.google.com/p/joquery/

Supports different possibilities,

Given collection,

Collection<Dto> testList = new ArrayList<>();

of type,

class Dto
{
    private int id;
    private String text;

    public int getId()
    {
        return id;
    }

    public int getText()
    {
        return text;
    }
}

Filter

Java 7

Filter<Dto> query = CQ.<Dto>filter(testList)
    .where()
    .property("id").eq().value(1);
Collection<Dto> filtered = query.list();

Java 8

Filter<Dto> query = CQ.<Dto>filter(testList)
    .where()
    .property(Dto::getId)
    .eq().value(1);
Collection<Dto> filtered = query.list();

Also,

Filter<Dto> query = CQ.<Dto>filter()
        .from(testList)
        .where()
        .property(Dto::getId).between().value(1).value(2)
        .and()
        .property(Dto::grtText).in().value(new string[]{"a","b"});

Sorting (also available for the Java 7)

Filter<Dto> query = CQ.<Dto>filter(testList)
        .orderBy()
        .property(Dto::getId)
        .property(Dto::getName)
    Collection<Dto> sorted = query.list();

Grouping (also available for the Java 7)

GroupQuery<Integer,Dto> query = CQ.<Dto,Dto>query(testList)
        .group()
        .groupBy(Dto::getId)
    Collection<Grouping<Integer,Dto>> grouped = query.list();

Joins (also available for the Java 7)

Given,

class LeftDto
{
    private int id;
    private String text;

    public int getId()
    {
        return id;
    }

    public int getText()
    {
        return text;
    }
}

class RightDto
{
    private int id;
    private int leftId;
    private String text;

    public int getId()
    {
        return id;
    }

    public int getLeftId()
        {
            return leftId;
        }

    public int getText()
    {
        return text;
    }
}

class JoinedDto
{
    private int leftId;
    private int rightId;
    private String text;

    public JoinedDto(int leftId,int rightId,String text)
    {
        this.leftId = leftId;
        this.rightId = rightId;
        this.text = text;
    }

    public int getLeftId()
    {
        return leftId;
    }

    public int getRightId()
        {
            return rightId;
        }

    public int getText()
    {
        return text;
    }
}

Collection<LeftDto> leftList = new ArrayList<>();

Collection<RightDto> rightList = new ArrayList<>();

Can be Joined like,

Collection<JoinedDto> results = CQ.<LeftDto, LeftDto>query().from(leftList)
                .<RightDto, JoinedDto>innerJoin(CQ.<RightDto, RightDto>query().from(rightList))
                .on(LeftFyo::getId, RightDto::getLeftId)
                .transformDirect(selection ->  new JoinedDto(selection.getLeft().getText()
                                                     , selection.getLeft().getId()
                                                     , selection.getRight().getId())
                                 )
                .list();

Expressions

Filter<Dto> query = CQ.<Dto>filter()
    .from(testList)
    .where()
    .exec(s -> s.getId() + 1).eq().value(2);
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