Can a List<T> be initialized to contain a given number of nulls, where T is a type parameter of the class of which the list is a member? I sure can do it with a loop, but like to know whether it is possible without.

List<T> myList = new ArrayList<T>(numEls);

creates a list of the given capacity, but size 0, so myList.get(x) fails for all x, and so does, e.g. myList.set(numEls-1,null).

myList = Arrays.asList(new T[numEls]);

does not compile, and

 myList = (List<T>) Arrays.asList(new Object[numEls]);

compiles in Eclipse (with an Unchecked cast warning), but not with javac.

Update: Thank you for the answers! However, I found another, quite short, solution close to my last attempt above, which compiles both in eclipse and with our automated build system: Cast the array, not the list!

myList = Arrays.asList((T[]) new Object[numEls]);
  • 1
    Why do you need to solve this without a loop? It's pretty unreasonable. Just call ensureCapacity and then n times add(null). – Roland Illig Nov 22 '11 at 7:44
  • @RolandIllig I do not need to solve it without a loop, I would just like to know whether it is possible. – arne.b Nov 22 '11 at 7:49
  • Why are you going to such lengths to avoid a one line loop, by replacing it with something much more complicated? If you know the size you want to can wrap an Object[]. – Peter Lawrey Nov 22 '11 at 8:14
  • Not a solution either: but you can write an implementation of List that behaves as a sparse list and returns null for all get(i) | i < size(). IMHO, "initializing a List" doesn't make sense since List is just an interface. – Alistair A. Israel Nov 22 '11 at 8:18
  • @AlistairIsrael Fair point. What I meant was "initialize something implementing list", which may be the ordinary ArrayList, or the list type Arrays.asList(...) returns, or another, whichever works best. – arne.b Nov 22 '11 at 8:30

if you want an ArrayList you can use reflection to cheat

ArrayList<T> myList = new ArrayList<T>(numEls);
Field f = ArrayList.class.getField("size");//cache this
f.setInt(myList, numEls);
  • A solution without Class object parameter or unnecessary array copies! Thank you. Nitpick: getField(String) is only for public fields, getDeclaredField is needed. – arne.b Nov 23 '11 at 7:54
  • This seems dangerous; since it doesn't update the (presumed) backing-array at all it seems like an AIOOBE could be thrown later - e.g. what happens after an add when the internal capacity is still sufficient? It is not a gonna-bite-me-sometime bug I want to deal with. – user166390 Sep 27 '12 at 23:27
  • @pst note I used the capacity constructor so it will match, but indeed it's a niche application – ratchet freak Sep 27 '12 at 23:36
  • Meddling with the internals of a foreign class is wrong on so many levels. There are few exceptional situations where this is defensible. Avoiding a loop is clearly not one of them. – Björn Zurmaar Jan 26 '20 at 20:59

If you don't need to mutate the list...

List<T> result = Collections.nCopies(num, (T) null);

... or alternately

List<T> result = new ArrayList<T>(Collections.nCopies(num, (T) null));
  • Please explain second option. Using this when I try to access list it gives me NullPointerException. My code List<ProfileSectionDTO> psDTOs = new ArrayList<ProfileSectionDTO>(Collections.nCopies(15, (ProfileSectionDTO) null)); – Half Blood Prince Apr 6 '16 at 6:46
  • How are you trying to access the list? It's full of nulls. – Louis Wasserman Apr 6 '16 at 6:49
  • Yeah. Stupid me. Thanks. – Half Blood Prince Apr 6 '16 at 6:57

You would need to use reflection to instantiate a backing array T[] using Array.newInstance():

public static <T> List<T> getListWithNulls(Class<T> componentType, int length) {
   T[] array = (T[])Array.newInstance(componentType, length);
   return new ArrayList<T>(Arrays.asList(array));

As you can see, this requires a reference to the Class<T> object representing the type of T:

List<String> strListWithNulls = getListWithNulls(String.class, 100);

Also make sure not to confuse the classes java.lang.reflect.Array and java.util.Arrays which are both used here.

Finally, note that reflection is going to be much slower than just using a loop.

  • 1
    Why do you need the new ArrayList<T>? Arrays.asList already returns a List instance. – dmeister Nov 22 '11 at 7:43
  • 2
    @dmeister - That method returns a List backed by the array. In order to have a resizeable list, it needs to be copied to another List implementation. – Paul Bellora Nov 22 '11 at 7:47
  • @KublaiKhan Thank you! In fact, dmeister's suggestion would fit the purpose as the List size is fixed in my case (but I did not say that in the question). Anyway, I was hoping for a solution whose code would be shorter than the loop, but if I cannot have that, I will not blame the messenger. ;-) – arne.b Nov 22 '11 at 7:56

What you probably want is something like this....

final int maxSize = 50;

List<T> v = new Vector<T>() {{setSize(maxSize);}};

Vectors allow you to set a size, which fills them with null's.

  • Nice one! I would use the Vector to initialise an ArrayList, something like List<T> v = new ArrayList<T>(new Vector<T>() {{setSize(maxSize);}}); but nice thinking. – OldCurmudgeon Nov 22 '11 at 9:50
  • Very interesting indeed! And as far as I can see, with an extra variable instead of double brace initialization, there is no hidden loop here: Vector<T> tmp = new Vector<T>(maxSize); creates an internal array of the desired size, tmp.setSize(maxSize); ensures that vector's toArray() returns an array of just that size, and this array is used by the ArrayList constructor in @Paul's suggestion! (The array is unnecessarily copied once, however.) – arne.b Nov 22 '11 at 10:19
  • Indeed, Vector is often overlooked by developers as being just a synchronized version of ArrayList, and dismissed for the same reason, but it does enable little gems such as this. – Crollster Nov 22 '11 at 11:11

Not really a solution, but you wanted to avoid a loop.

void fillNullList(List<T> list, count) {
   if (count > 0) {
       fillNullList(list, count - 1);

Seriously, why do you want to avoid a loop? Probably, you want a solution with O(1) complexity and not a O(n) complexity solution regardless if a loop is used for not.


I would just use a loop, its simpler and likely to be faster as well.

List<T> list = 
while(list.size()<size) list.add(null);

Any other approach you use is likely to use a loop for you. If this is fine, just write your own method which hides the loop used.


new option with streams:

List resultColumn = IntStream.range(0, 10000).mapToObj(i -> null).collect(Collectors.toList());


Try this:

List<String> list = new ArrayList<String>(Arrays.asList(new String[100]));
for(String string : list){

Well, you can write a hierarchy:

class Base<T>{
    protected List<T> list; 

    public List<T> getList(){
       return list;

class Child extends Base<String>{
    public Child(){
        list = new ArrayList<String>(Arrays.asList(new String[100]));

It can be used in the next way:

Base<String> base = new Child();
  • 2
    But I do not want a List<String>, I want a List<T> where nothing is known about T (at least nothing relevant to list creation). – arne.b Nov 22 '11 at 7:20
  • This post does not answers the question. Obviously it is possible with concrete type, but @arme.b wants to write code for generic type. – AlexR Nov 22 '11 at 7:30
  • What does your update change? You are still not creating the list at the point where it is needed, but at a point where the concrete type is known (which is not my class or any subclass thereof). – arne.b Nov 22 '11 at 9:02
  • I don't implore you to accept my answer. This way can be used in some cases and it uses the abstraction, not the specific type. – StKiller Nov 22 '11 at 9:10

What I did was

MyClass[] array = {new MyClass(), new MyClass(), new MyClass(), new MyClass(), new ProfileSectionDTO(), new MyClass()};
List<MyClass> MyClassList = Arrays.asList(array);

Dirty, but working :)

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