I want to create a list of options for testing purposes. At first, I did this:

ArrayList<String> places = new ArrayList<String>();
places.add("Buenos Aires");
places.add("La Plata");

Then I refactored the code as follows:

ArrayList<String> places = new ArrayList<String>(
    Arrays.asList("Buenos Aires", "Córdoba", "La Plata"));

Is there a better way to do this?

  • 23
    If this is intended for unit testing, try groovy out for a swing. You can write your test code in it while testing java code, and use ArrasyList<String> places = ["Buenos Aires", "Córdoba", "La Plata"] – ripper234 Dec 31 '10 at 21:40
  • 2
    In Java SE 7, you can substitute the parameterized type of the constructor with an empty set of type parameters (<>): Map<String, List<String>> myMap = new HashMap<>(); – Rose Jul 7 '15 at 21:12
  • 1
  • 1
    use double bracing initialization :) – Mohammad Reza Khatami Apr 26 '16 at 15:36
  • 3
    Stream.of("val1", "val2").collect(Collectors.toList()); //creates ArrayList, Java8 solution. – torina Oct 13 '17 at 17:37

30 Answers 30

up vote 1633 down vote accepted

Actually, probably the "best" way to initialize the ArrayList is the method you wrote, as it does not need to create a new List in any way:

ArrayList<String> list = new ArrayList<String>();

The catch is that there is quite a bit of typing required to refer to that list instance.

There are alternatives, such as making an anonymous inner class with an instance initializer (also known as an "double brace initialization"):

ArrayList<String> list = new ArrayList<String>() {{

However, I'm not too fond of that method because what you end up with is a subclass of ArrayList which has an instance initializer, and that class is created just to create one object -- that just seems like a little bit overkill to me.

What would have been nice was if the Collection Literals proposal for Project Coin was accepted (it was slated to be introduced in Java 7, but it's not likely to be part of Java 8 either.):

List<String> list = ["A", "B", "C"];

Unfortunately it won't help you here, as it will initialize an immutable List rather than an ArrayList, and furthermore, it's not available yet, if it ever will be.

  • 134
    See stackoverflow.com/questions/924285 for more information about the double-brace initialization, pros and cons. – Eddie Jun 17 '09 at 4:21
  • 5
    @Eddie: Good call for the link -- one sentence on double-brace initialization isn't enough to describe it fully. – coobird Jun 17 '09 at 4:23
  • Only works if you aren't relying on Auto boxing List<Double> list = [1.0, 2.0, 3.0]; fails. – Richard B Dec 15 '14 at 11:42
  • 6
    Well, just goes to show - one man's syntactic sugar is another mans syntactic diabetes. I'll stay away from these 'alternatives'. – corsiKa Mar 13 '15 at 14:28
  • 3
    Since this answer is the most upvoted and mentioned Project Coin I think you should call out that java 9 shipped with List.of(...) syntax: docs.oracle.com/javase/9/docs/api/java/util/List.html#of-E...- – Asaf Dec 19 '17 at 4:32

It would be simpler if you were to just declare it as a List - does it have to be an ArrayList?

List<String> places = Arrays.asList("Buenos Aires", "Córdoba", "La Plata");

Or if you have only one element:

List<String> places = Collections.singletonList("Buenos Aires");

This would mean that places is immutable (trying to change it will cause an UnsupportedOperationException exception to be thrown).

To make a mutable list that is a concrete ArrayList you can create an ArrayList from the immutable list:

ArrayList<String> places = new ArrayList<>(Arrays.asList("Buenos Aires", "Córdoba", "La Plata"));
  • 16
    @Marcase: Can you not change your class to use a List instead of ArrayList? – Lawrence Dol Jun 17 '09 at 5:04
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    As per my answer, if you're not using methods specific to ArrayList, it would be better design to change the declaration to List. Specify interfaces, not implementations. – Christoffer Hammarström Sep 9 '10 at 12:37
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    @Christoffer Hammarström: if he changes the declaration to List and uses the List<String> places = Arrays.asList(...); he will not be able to use places.add("blabla") – maks Sep 25 '11 at 12:48
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    Just to be clear, asList(...) returns a fixed size List that blows up on mutating operations like remove and clear, things the List contract claims to support. Even if you left declaration as List, you sill need to use List l = new ArrayList(asList(...)) in order to get an object that doesn't throw OperationNotSupported exceptions. Liskov Substitution Principle anyone? – Splash Apr 12 '12 at 0:50
  • 3
    @Splash: remove and clear are optional operations in List, so asList(...) does follow the contract. Nowhere does the OP say he needs to add more elements later, the example is just of a List that needs to be initialized with three elements. – Christoffer Hammarström Aug 11 '12 at 13:03

The simple answer

In Java 8 or earlier:

List<String> strings = Arrays.asList("foo", "bar", "baz");

This will give you a List backed by the array, so it cannot change length.
But you can call List.set, so it's still mutable.

In Java 9:

List<String> strings = List.of("foo", "bar", "baz");

This will give you an immutable List, so it cannot be changed.
Which is what you want in most cases where you're prepopulating it.

The shorter answer

You can make Arrays.asList even shorter with a static import:

List<String> strings = asList("foo", "bar", "baz");

The static import:

import static java.util.Arrays.asList;  

Which any modern IDE will suggest and automatically do for you.
For example in IntelliJ IDEA you press Alt+Enter and select Static import method....

However, i don't recommend shortening the Java 9 List.of method, because having just of becomes confusing.
List.of is already short enough and reads well.

Using Streams

Why does it have to be a List?
With Java 8 or later you can use a Stream which is more flexible:

Stream<String> strings = Stream.of("foo", "bar", "baz");

You can concatenate Streams:

Stream<String> strings = Stream.concat(Stream.of("foo", "bar"),
                                       Stream.of("baz", "qux"));

Or you can go from a Stream to a List:

List<String> strings = Stream.of("foo", "bar", "baz").collect(toList());

But preferably, just use the Stream without collecting it to a List.

If you really specifically need a java.util.ArrayList

(You probably don't.)
To quote JEP 269 (emphasis mine):

There is a small set of use cases for initializing a mutable collection instance with a predefined set of values. It's usually preferable to have those predefined values be in an immutable collection, and then to initialize the mutable collection via a copy constructor.

If you want to both prepopulate an ArrayList and add to it afterwards (why?), use

List<String> strings = new ArrayList<>(asList("foo", "bar", "baz"));

or in Java 9:

List<String> strings = new ArrayList<>(List.of("foo", "bar", "baz"));

or using Stream:

List<String> strings = Stream.of("foo", "bar", "baz")

But again, it's better to just use the Stream directly instead of collecting it to a List.

Program to interfaces, not to implementations

You said you've declared the list as an ArrayList in your code, but you should only do that if you're using some member of ArrayList that's not in List.

Which you are most likely not doing.

Usually you should just declare variables by the most general interface that you are going to use (e.g. Iterable, Collection, or List), and initialize them with the specific implementation (e.g. ArrayList, LinkedList or Arrays.asList()).

Otherwise you're limiting your code to that specific type, and it'll be harder to change when you want to.

For example:

// Iterable if you just need iteration, for (String s : strings):
Iterable<String> strings = new ArrayList<>();   

// Collection if you also need .size() or .stream():
Collection<String> strings = new ArrayList<>(); 

// List if you also need .get(index):
List<String> strings = new ArrayList<>();       

// Don't declare a specific list implementation
// unless you're sure you need it:
ArrayList<String> strings = new ArrayList<>();  // You don't need ArrayList

Another example would be always declaring variable an InputStream even though it is usually a FileInputStream or a BufferedInputStream, because one day soon you or somebody else will want to use some other kind of InputStream.

  • Thank you ever so much. I tried to omit 'static' import in my code, but the compiler wouldn't have any of it. Why is static necessary for the code to work? – jollyroger Jan 31 '13 at 1:13
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    @jollyroger: Arrays.asList is a static method. See docs.oracle.com/javase/1.5.0/docs/guide/language/… – Christoffer Hammarström Jan 31 '13 at 12:28
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    @ChristofferHammarström In that case, my novice mind tells me that static import bares strong resemblance to global variables and the perils that pertain to such usage. Is this assumption correct and is it also the reason for the similar answer above getting more votes? – jollyroger Feb 1 '13 at 13:27
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    If you don't want the static import you can also define the full path to the static asList method, as so: List<String> strings = java.util.Arrays.asList("",""); – Geert Weening Feb 27 '13 at 23:50
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    Or you can use import java.util.Arrays; and Arrays.asList("",""); You don't have to use a static import. You don't have to use a full path. Static methods don't care about the import. They just get annoyed if you use an instance to find them. – candied_orange Sep 12 '14 at 5:11

If you need a simple list of size 1:

List<String> strings = new ArrayList<String>(Collections.singletonList("A"));

If you need a list of several objects:

List<String> strings = new ArrayList<String>();

With Guava you can write:

ArrayList<String> places = Lists.newArrayList("Buenos Aires", "Córdoba", "La Plata");

In Guava there are also other useful static constructors. You can read about them here.

Collection literals didn't make it into Java 8, but it is possible to use the Stream API to initialize a list in one rather long line:

List<String> places = Stream.of("Buenos Aires", "Córdoba", "La Plata").collect(Collectors.toList());

If you need to ensure that your List is an ArrayList:

ArrayList<String> places = Stream.of("Buenos Aires", "Córdoba", "La Plata").collect(Collectors.toCollection(ArrayList::new));
import com.google.common.collect.ImmutableList;


List<String> places = ImmutableList.of("Buenos Aires", "Córdoba", "La Plata");
  • 2
    I don't want to add a new dependency just to do that. – Macarse May 12 '10 at 14:16
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    That's the same as Collections.unmodifiableList(Arrays.asList("Buenos Aires", "Córdoba", "La Plata")), which becomes unmodifiableList(asList("Buenos Aires", "Córdoba", "La Plata")) with static imports. You don't need Google Collections for this. – Christoffer Hammarström Sep 17 '10 at 9:47
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    No, it's not the same. As ImmutableList is documenting its immutability in the result type when unmodifiableList masquerades it as a normal List. – David Pierre Nov 3 '10 at 13:42
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    Instead of the immutable one, google collections also offer mutable array list: List<String> = Lists.newArrayList("Buenos Aires", "Córdoba", "La Plata"); – L. Holanda Aug 15 '12 at 21:40
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    You're going to pass that ImmutableList to other methods that take a List, and then you've lost that documentation anyway. – Christoffer Hammarström Jul 16 '14 at 13:21

You could create a factory method:

public static ArrayList<String> createArrayList(String ... elements) {
  ArrayList<String> list = new ArrayList<String>();
  for (String element : elements) {
  return list;


ArrayList<String> places = createArrayList(
  "São Paulo", "Rio de Janeiro", "Brasília");

But it's not much better than your first refactoring.

For greater flexibility, it can be generic:

public static <T> ArrayList<T> createArrayList(T ... elements) {
  ArrayList<T> list = new ArrayList<T>();
  for (T element : elements) {
  return list;
  • 1
    Look back at the original post, it is asking for array initialization in one line, not 7 additional lines. – L. Holanda Aug 15 '12 at 21:24
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    @LeoHolanda: Creating factory methods for every little thing is too much, I agree. But depending on the situation, and on the number of times that that method is going to be used, it might make sense to create it. Creating extra abstraction layers is meant to remove complexity, by creating more meaningful methods that capture the intent of the designer. – Jordão Aug 15 '12 at 22:39

With Java 9, as suggested in JDK Enhancement Proposal - 269, this could be achieved using collection literals now as -

List<String> list = List.of("A", "B", "C");

Set<String> set = Set.of("A", "B", "C");

Also a similar approach would apply to Map as well -

Map<String, String> map = Map.of("k1", "v1", "k2", "v2", "k3", "v3")

which is similar to Collection Literals proposal as stated by @coobird as well. Further clarified in the JEP doc as well -


Language changes have been considered several times, and rejected:

Project Coin Proposal, 29 March 2009

Project Coin Proposal, 30 March 2009

JEP 186 discussion on lambda-dev, January-March 2014

The language proposals were set aside in preference to a library-based proposal as summarized in this message.

Chained read about the same ~> What is the point of overloaded Convenience Factory Methods

In Java 9 we can easily initialize an ArrayList in a single line:

List<String> places = List.of("Buenos Aires", "Córdoba", "La Plata");


List<String> places = new ArrayList<>(List.of("Buenos Aires", "Córdoba", "La Plata"));

This new approach of Java 9 has many advantages over the previous ones:

  1. Space Efficiency
  2. Immutability
  3. Thread Safe

See this post for more details -> What is the difference between List.of and Arrays.asList?

About the most compact way to do this is:

Double array[] = { 1.0, 2.0, 3.0};
List<Double> list = Arrays.asList(array);

With Eclipse Collections (formerly GS Collections), you can write the following:

List<String> list = Lists.mutable.with("Buenos Aires", "Córdoba", "La Plata");

You can also be more specific about the types and whether they are Mutable or Immutable.

MutableList<String> mList = Lists.mutable.with("Buenos Aires", "Córdoba", "La Plata");
ImmutableList<String> iList = Lists.immutable.with("Buenos Aires", "Córdoba", "La Plata");

You can also do the same with Sets and Bags:

Set<String> set = Sets.mutable.with("Buenos Aires", "Córdoba", "La Plata");
MutableSet<String> mSet = Sets.mutable.with("Buenos Aires", "Córdoba", "La Plata");
ImmutableSet<String> iSet = Sets.immutable.with("Buenos Aires", "Córdoba", "La Plata");

Bag<String> bag = Bags.mutable.with("Buenos Aires", "Córdoba", "La Plata");
MutableBag<String> mBag = Bags.mutable.with("Buenos Aires", "Córdoba", "La Plata");
ImmutableBag<String> iBag = Bags.immutable.with("Buenos Aires", "Córdoba", "La Plata");

Note: I am a committer for Eclipse Collections.

Simply use below code as follows.

List<String> list = new ArrayList<String>() {{
  • 2
    @bsd You can use this method to declare the list before entering any method. So when defining class variables, content can be added to the list without having to invoke a method to do so. – melwil Aug 10 '14 at 1:30
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    double braces initialization should be avoided as far as possible. see : stackoverflow.com/a/924326/760393 – Raúl Nov 15 '16 at 13:38

Here is another way:

List<String> values = Stream.of("One", "Two").collect(Collectors.toList());

You can use the below statements:

Code Snippet:

String [] arr = {"Sharlock", "Homes", "Watson"};

List<String> names = Arrays.asList(arr);
  • You can inline first expression to have compact solution: letters = Arrays.asList(new String[]{"A", "B", "C"}); – Pavel Repin Feb 26 at 13:42

(Should be a comment, but too long, so new reply). As others have mentioned, the Arrays.asList method is fixed size, but that's not the only issue with it. It also doesn't handle inheritance very well. For instance, suppose you have the following:

class A{}
class B extends A{}

public List<A> getAList(){
    return Arrays.asList(new B());

The above results in a compiler error, because List<B>(which is what is returned by Arrays.asList) is not a subclass of List<A>, even though you can add Objects of type B to a List<A> object. To get around this, you need to do something like:

new ArrayList<A>(Arrays.<A>asList(b1, b2, b3))

This is probably the best way to go about doing this, esp. if you need an unbounded list or need to use inheritance.

Like Tom said:

List<String> places = Arrays.asList("Buenos Aires", "Córdoba", "La Plata");

But since you complained of wanting an ArrayList, you should firstly know that ArrayList is a subclass of List and you could simply add this line:

ArrayList<String> myPlaces = new ArrayList(places);

Although, that might make you complain of 'performance'.

In that case it doesn't make sense to me, why, since your list is predefined it wasn't defined as an array (since the size is known at time of initialisation). And if that's an option for you:

String[] places = {"Buenos Aires", "Córdoba", "La Plata"};

In case you don't care of the minor performance differences then you can also copy an array to an ArrayList very simply:

ArrayList<String> myPlaces = new ArrayList(Arrays.asList(places));

Okay, but in future you need a bit more than just the place name, you need a country code too. Assuming this is still a predefined list which will never change during run-time, then it's fitting to use an enum set, which would require re-compilation if the list needed to be changed in the future.


would become:

enum Places {
    BUENOS_AIRES("Buenos Aires",123),
    LA_PLATA("La Plata",789);

    String name;
    int code;
    Places(String name, int code) {

Enum's have a static values method that returns an array containing all of the values of the enum in the order they are declared, e.g.:

for (Places p:Places.values()) {
    System.out.printf("The place %s has code %d%n",
                  p.name, p.code);

In that case I guess you wouldn't need your ArrayList.

P.S. Randyaa demonstrated another nice way using the static utility method Collections.addAll.

Java 9 has the following method to create an immutable list:

List<String> places = List.of("Buenos Aires", "Córdoba", "La Plata");

which is easily adapted to create a mutable list, if required:

List<String> places = new ArrayList<>(List.of("Buenos Aires", "Córdoba", "La Plata"));

Similar methods are available for Set and Map.

List<String> names = Arrays.asList("2","@2234","21","11");

You can use StickyList from Cactoos:

List<String> names = new StickyList<>(
  "Scott Fitzgerald", "Fyodor Dostoyevsky"

Try with this code line:

  • 1
    Add a brief description of your answer. – Morales Batovski May 16 '16 at 14:05

Yes with the help of Arrays you can initialize array list in one line,

List<String> strlist= Arrays.asList("aaa", "bbb", "ccc");

In Java, you can't do

ArrayList<String> places = new ArrayList<String>( Arrays.asList("Buenos Aires", "Córdoba", "La Plata"));

As was pointed out, you'd need to do a double brace initialization:

List<String> places = new ArrayList<String>() {{ add("x"); add("y"); }};

But this may force you into adding an annotation @SuppressWarnings("serial") or generate a serial UUID which is annoying. Also most code formatters will unwrap that into multiple statements/lines.

Alternatively you can do

List<String> places = Arrays.asList(new String[] {"x", "y" });

but then you may want to do a @SuppressWarnings("unchecked").

Also according to javadoc you should be able to do this:

List<String> stooges = Arrays.asList("Larry", "Moe", "Curly");

But I'm not able to get it to compile with JDK 1.6.

  • 5
    Wrong! You can do the first line, and that is the right answer btw – Bohemian Aug 9 '12 at 12:53

If you'd need to have a list of one item!

Collections is from java.util package.

Here is code by AbacusUtil

// ArrayList
List<String> list = N.asList("Buenos Aires", "Córdoba", "La Plata");
// HashSet
Set<String> set = N.asSet("Buenos Aires", "Córdoba", "La Plata");
// HashMap
Map<String, Integer> map = N.asMap("Buenos Aires", 1, "Córdoba", 2, "La Plata", 3);

// Or for Immutable List/Set/Map
ImmutableList.of("Buenos Aires", "Córdoba", "La Plata");
ImmutableSet.of("Buenos Aires", "Córdoba", "La Plata");
ImmutableSet.of("Buenos Aires", 1, "Córdoba", 2, "La Plata", 3);

// The most efficient way, which is similar with Arrays.asList(...) in JDK. 
// but returns a flexible-size list backed by the specified array.
List<String> set = Array.asList("Buenos Aires", "Córdoba", "La Plata");

Declaration: I'm the developer of AbacusUtil.

For me Arrays.asList() is the best and convenient one. I always like to initialize that way. If you are a beginner into Java Collections then I would like you to refer ArrayList initialization

  • Why is Arrays.asList() better than creating a new ArrayList in one line with add() methods? – Igor Ganapolsky Dec 1 '15 at 20:50

The best way to do it:

package main_package;

import java.util.ArrayList;

public class Stackkkk {
    public static void main(String[] args) {
        ArrayList<Object> list = new ArrayList<Object>();
        add(list, "1", "2", "3", "4", "5", "6");
        System.out.println("I added " + list.size() + " element in one line");

    public static void add(ArrayList<Object> list,Object...objects){
        for(Object object:objects)

Just create a function that can have as many elements as you want and call it to add them in one line.

  • 1
    If you go through all the trouble you might as well make it a template method instead of using plain Object. – Robert Sep 8 '16 at 21:27

Why not make a simple utility function that does this?

static <A> ArrayList<A> ll(A... a) {
  ArrayList l = new ArrayList(a.length);
  for (A x : a) l.add(x);
  return l;

"ll" stands for "literal list".

ArrayList<String> places = ll("Buenos Aires", "Córdoba", "La Plata");

Actually, it's possible to do it in one line:

Arrays.asList(new MyClass[] {new MyClass("arg1"), new MyClass("arg2")})
  • 3
    May I ask what this adds to the question? This answer is already covered multiple times by other answers. – Mysticial Jun 2 '13 at 13:37
  • 2
    This answer does not add much to the already existing ones. – Koushik Shetty Jun 2 '13 at 13:52
  • This is actually a really bad soluition as it creates an ABSTRACT LIST. You will not be able to add anything more to the container. – Atais Sep 23 '15 at 10:35
public static <T> List<T> asList(T... a) {
    return new ArrayList<T>(a);

This is the implementation of Arrays.asList, so you could go with

ArrayList<String> arr = (ArrayList<String>) Arrays.asList("1", "2");

protected by Aniket Thakur Apr 9 '15 at 9:51

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