I am wanting to create an array of arraylist like below:

ArrayList<Individual>[] group = new ArrayList<Individual>()[4]

But it's not compiling. How can I do this?

  • 8
    Don't mix arrays and collections. In fact, don't use arrays unless you are dealing with primitives (or you know what you are doing). Arrays are a usability nightmare, they make your code unmaintainable. – Sean Patrick Floyd Dec 19 '11 at 9:14
  • 9
    @SeanPatrickFloyd Can you explain why arrays are usability nightmare? – user May 13 '12 at 10:58
  • 3
    @crucifiedsoul sure. an array can't grow, you can't insert anything into an array, an array doesn't override standard methods like equals hashcode or toString etc. – Sean Patrick Floyd May 13 '12 at 16:45
  • 5
    @SeanPatrickFloyd okay -- well I need exactly four arraylists -- I plan to access each one by index -- I don't need the outer array to grow or shrink -- I don't need any toString or hashcode, etc. -- to me, an array is the obvious choice here -- what would you recommended as an alternative in this situation? – BrainSlugs83 Mar 14 '15 at 22:04
  • 3
    Okay this is an old question but I'm going to ask anyway and see if anyone answers. I'm seeing everyone talking about why an array of lists is a terrible idea, bad coding practice, etc. I looked this up because I'm learning to do hash chains, and the definition of a hash chain is an array of lists! So how exactly can a central programming data structure be terrible coding practice? Or does this just fall into the IYKWYD category mentioned by @Sean? – jimboweb Nov 5 '16 at 13:04

19 Answers 19


As per Oracle Documentation:

"You cannot create arrays of parameterized types"

Instead, you could do:

ArrayList<ArrayList<Individual>> group = new ArrayList<ArrayList<Individual>>(4);

As suggested by Tom Hawting - tackline, it is even better to do:

List<List<Individual>> group = new ArrayList<List<Individual>>(4);
  • 19
    List<List<Individual>> group = new ArrayList<List<Individual>>(); would probably be better. – Tom Hawtin - tackline Dec 19 '11 at 9:34
  • 4
    What does "cannot create an array of generic type" mean? That doesn't really make sense to me because its not a generic if you provide what its suppose to hold, right? – Andy Sep 1 '12 at 21:57
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    I am surprised of the upvotes as It doesnt' answer the question (i.e. I want to do this, how can I do it). Except maybe for the 1st sentence. – Florian F Jun 30 '15 at 13:59
  • 13
    why is List reference better than ArrayList? – shifu Jul 8 '15 at 15:24
  • 3
    @shifu a List reference is more general than ArrayList; declaring as List abstracts away the API of ArrayList that extends beyond List API. That is good be cause it simplifies the reference to List whose API probably has the entirety of what the List is needed for anyways, without cluttering that reference's API with the extras ArrayList has. You should only declare as ArrayList if you need something specific from its API to be available via the reference. – cellepo Mar 22 '16 at 21:22

As the others have mentioned it's probably better to use another list to store the ArrayList in but if you have to use an array:

ArrayList<Individual>[] group = (ArrayList<Individual>[])new ArrayList[4];
  • 4
    No one seems to explain well why and i like your snippet above. why do you recommend using list over this? – clankill3r Jun 17 '13 at 13:05
  • 3
    If array group doesn't change, then this approach is better, because arrays are faster than List<> classes. – Borzh Jun 17 '15 at 18:45
  • 25
    Thanks for actually answering the question. There is no logical reason to automatically presume a list is preferable to an array without further context. – Special Sauce Nov 19 '15 at 13:23
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    Any reason this would be preferable over @kelvincer Answer (ArrayList<String>[] group = new ArrayList[4])? What extra good doe sthe cast do? – cellepo Mar 22 '16 at 21:12
  • 1
    You should use new ArrayList<?>[N] to avoid using a raw type. – Radiodef May 16 '17 at 14:33

This works:

ArrayList<String>[] group = new ArrayList[4];
  • 6
    shut be the correct answer. – doev Aug 25 '15 at 7:57
  • Yes, this is it. – Johanna Dec 14 '15 at 9:26
  • 1
    This satisfyingly has the desired benefit that adding an ArrayList of any Object besides String (i.e: ArrayList<String> instead of ArrayList<NotString>) to group does not compile – cellepo Mar 22 '16 at 21:37
  • 10
    This produces a warning: Note: hello.java uses unchecked or unsafe operations. Note: Recompile with -Xlint:unchecked for details. – math Jan 9 '17 at 13:28

You can create a class extending ArrayList

class IndividualList extends ArrayList<Individual> {


and then create the array

IndividualList[] group = new IndividualList[10];

I totally do not get it, why everyone is suggesting the genric type over the array particularly for this question.

What if my need is to index n different arraylists.

With declaring List<List<Integer>> I need to create n ArrayList<Integer> objects manually or put a for loop to create n lists or some other way, in any way it will always be my duty to create n lists.

Isn't it great if we declare it through casting as List<Integer>[] = (List<Integer>[]) new List<?>[somenumber]. I see it as a good design where one do not have to create all the indexing object (arraylists) by himself

Can anyone enlighten me why this (arrayform) will be a bad design and what are its disadvantages?

  • AFAICT it seems to be a kind of cargo cult mentality induced by the awful typing system that Java brings to the table. – BrainSlugs83 Mar 14 '15 at 22:13
  • @smsIce: It is not a bad design. The Problem is, that many writers don't read the full question or understand it clearly. – doev Aug 25 '15 at 7:50

You can create Array of ArrayList

List<Integer>[] outer = new List[number];
for (int i = 0; i < number; i++) {
    outer[i] = new ArrayList<>();

This will be helpful in scenarios like this. You know the size of the outer one. But the size of inner ones varies. Here you can create an array of fixed length which contains size-varying Array lists. Hope this will be helpful for you.

In Java 8 and above you can do it in a much better way.

List<Integer>[] outer = new List[number];
Arrays.setAll(outer, element -> new ArrayList<>());

Even better using method reference

List<Integer>[] outer = new List[10];
Arrays.setAll(outer,  ArrayList :: new);

The problem with this situation is by using a arraylist you get a time complexity of o(n) for adding at a specific position. If you use an array you create a memory location by declaring your array therefore it is constant

  • Adding at a specific position is O(n) for both array and ArrayList. Filling is also O(n) for both arrays and ArrayList. – Navin Jan 1 '14 at 13:17
  • 2
    Adding at a specific position is O(1) for arrays. It's O(n) for ArrayList, but O(1) for arrays. – aviemet Mar 21 '14 at 6:19

This works, array of ArrayList. Give it a try to understand how it works.

import java.util.*;

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

        // Put the length of the array you need
        ArrayList<String>[] group = new ArrayList[15];
        for (int x = 0; x < group.length; x++) {
            group[x] = new ArrayList<>();

        //Add some thing to first array

        //Add some thing to Secondarray
        group[1].add("In here");

        //Try to output 'em

Credits to Kelvincer for some of codes.


You can't create array of generic type. Create List of ArrayLists :

 List<ArrayList<Individual>> group = new ArrayList<ArrayList<Individual>>();

or if you REALLY need array (WARNING: bad design!):

 ArrayList[] group = new ArrayList[4];
  1. Creation and initialization

    Object[] yourArray = new Object[ARRAY_LENGTH];
  2. Write access

    yourArray[i]= someArrayList;

    to access elements of internal ArrayList:

    ((ArrayList<YourType>) yourArray[i]).add(elementOfYourType); //or other method
  3. Read access

    to read array element i as an ArrayList use type casting:

    someElement= (ArrayList<YourType>) yourArray[i];

    for array element i: to read ArrayList element at index j

    arrayListElement= ((ArrayList<YourType>) yourArray[i]).get(j);

To declare an array of ArrayLists statically for, say, sprite positions as Points:

ArrayList<Point>[] positionList = new ArrayList[2];

public Main(---) {
    positionList[0] = new ArrayList<Point>(); // Important, or you will get a NullPointerException at runtime
    positionList[1] = new ArrayList<Point>();


ArrayList<Point>[] positionList;
int numberOfLists;

public Main(---) {
    numberOfLists = 2;
    positionList = new ArrayList[numberOfLists];
    for(int i = 0; i < numberOfLists; i++) {
        positionList[i] = new ArrayList<Point>();

Despite the cautions and some complex suggestions here, I have found an array of ArrayLists to be an elegant solution to represent related ArrayLists of the same type.


You can create like this ArrayList<Individual>[] group = (ArrayList<Individual>[])new ArrayList[4];

You have to create array of non generic type and then cast it into generic one.


List[] listArr = new ArrayList[4];

Above line gives warning , but it works (i.e it creates Array of ArrayList)

  • can someone explain why this work? – ls. Feb 21 at 9:23

I find this easier to use...

static ArrayList<Individual> group[];
void initializeGroup(int size)
 group=new ArrayList[size];
 for(int i=0;i<size;i++)
  group[i]=new ArrayList<Individual>();

You can do this :

//Create an Array of type ArrayList

`ArrayList<Integer>[] a = new ArrayList[n];`

//For each element in array make an ArrayList

for(int i=0; i<n; i++){ 
    a[i] = new ArrayList<Integer>();
ArrayList<String>[] lists = (ArrayList<String>[])new ArrayList[10]; 
ArrayList<String> al[] = new ArrayList[n+1];
for(int i = 0;i<n;i++){
   al[i] = new ArrayList<String>();

ArrayList<Integer>[] graph = new ArrayList[numCourses] It works.

  • 2
    this answer already given by another user – janith1024 Sep 10 '18 at 4:54

you can create a List[] and initialize them by for loop. it compiles without errors:

List<e>[] l;
for(int i = 0; i < l.length; i++){
    l[i] = new ArrayList<e>();

it works with arrayList[] l as well.

  • 2
    l.length is undefined in the for-loop. This might be a runtime error. – bourbaki4481472 Jan 22 '15 at 20:49
  • l is not initialized to have a length, it is a still a null pointer when it reaches the for loop. i e List<e>[] l = new List[LENGTH]; – Erik Oct 11 '17 at 8:41

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