I'm new to Java. How can I convert a List<Integer> to int[] in Java?

I'm confused because List.toArray() actually returns an Object[], which can be cast to neither Integer[] nor int[].

Right now I'm using a loop to do so:

int[] toIntArray(List<Integer> list) {
  int[] ret = new int[list.size()];
  for(int i = 0; i < ret.length; i++)
    ret[i] = list.get(i);
  return ret;

Is there's a better way to do this?

This is similar to the question How can I convert int[] to Integer[] in Java?.

  • 11
    You can only cast to Integer[] by using: Integer[] arr = (Integer[])list.toArray(new Integer[list.size]);
    – Hardcoded
    Jul 5, 2010 at 15:48
  • 1
    @Hardcoded you might want to edit your comment to use list.size() method and drop the unnecessary cast.
    – sactiw
    Apr 9, 2013 at 16:10
  • 2
    Is there a better way to do this now in Java 8?
    – Makoto
    Jun 16, 2014 at 0:14
  • 2
    (@Makoto : see Pshemo's answer)
    – greybeard
    Feb 9, 2016 at 19:11
  • 6
    int[] arr = listOfIntegers.stream().mapToInt(x->x).toArray(); Sep 22, 2018 at 23:49

16 Answers 16


With streams added in Java 8 we can write code like:

int[] example1 = list.stream().mapToInt(i->i).toArray();
// OR
int[] example2 = list.stream().mapToInt(Integer::intValue).toArray();

Thought process:

  • The simple Stream#toArray returns an Object[] array, so it is not what we want. Also, Stream#toArray(IntFunction<A[]> generator) doesn't do what we want, because the generic type A can't represent the primitive type int

  • So it would be nice to have some stream which could handle the primitive type int instead of the wrapper Integer, because its toArray method will most likely also return an int[] array (returning something else like Object[] or even boxed Integer[] would be unnatural here). And fortunately Java 8 has such a stream which is IntStream

  • So now the only thing we need to figure out is how to convert our Stream<Integer> (which will be returned from list.stream()) to that shiny IntStream.

    Quick searching in documentation of Stream while looking for methods which return IntStream points us to our solution which is mapToInt(ToIntFunction<? super T> mapper) method. All we need to do is provide a mapping from Integer to int.

    Since ToIntFunction is functional interface we can provide its instance via lambda or method reference.

    Anyway to convert Integer to int we can use Integer#intValue so inside mapToInt we can write:

    mapToInt( (Integer i) -> i.intValue() )

    (or some may prefer: mapToInt(Integer::intValue).)

    But similar code can be generated using unboxing, since the compiler knows that the result of this lambda must be of type int (the lambda used in mapToInt is an implementation of the ToIntFunction interface which expects as body a method of type: int applyAsInt(T value) which is expected to return an int).

    So we can simply write:

    mapToInt((Integer i)->i)

    Also, since the Integer type in (Integer i) can be inferred by the compiler because List<Integer>#stream() returns a Stream<Integer>, we can also skip it which leaves us with

    mapToInt(i -> i)
  • 5
    Clearly the best solution. Too bad it lacks explanation. Nov 26, 2015 at 14:53
  • 18
    @PimpTrizkit Updated this answer a little. Hope it is clearer now.
    – Pshemo
    Nov 26, 2015 at 15:32
  • 3
    @Pshemo - Thanks! I didn't personally need an explanation. But I hate seeing the perfect answer without one! Regardless, your explanation did educate me and was helpful. I wonder why the mapTo... functions don't allow for null lambda.... like sort does.... which makes it default to a default behavior... in this case, i -> i would be a perfect default behavior. Nov 27, 2015 at 3:29
  • I guess this answer is faster than ColinD's answer using Guava, right?
    – vefthym
    Mar 2, 2017 at 10:47
  • 1
    @vefthym I didn't test it, but I suspect that both solution work on same simple principle so I would expect similar speed (but feel free to benchmark it). One advantage of this answer is that it doesn't require additional libraries as long as we have Java 8.
    – Pshemo
    Mar 2, 2017 at 15:55

Unfortunately, I don't believe there really is a better way of doing this due to the nature of Java's handling of primitive types, boxing, arrays and generics. In particular:

  • List<T>.toArray won't work because there's no conversion from Integer to int
  • You can't use int as a type argument for generics, so it would have to be an int-specific method (or one which used reflection to do nasty trickery).

I believe there are libraries which have autogenerated versions of this kind of method for all the primitive types (i.e. there's a template which is copied for each type). It's ugly, but that's the way it is I'm afraid :(

Even though the Arrays class came out before generics arrived in Java, it would still have to include all the horrible overloads if it were introduced today (assuming you want to use primitive arrays).

  • 33
    Also see ColinD's answer about guava's Ints.toArray(Collection<Integer>)
    – ron
    Jun 16, 2011 at 12:34
  • 8
    @JonSkeet you mean like the horrible overloads that exists already in the Arrays class for binarySearch, copyOf, copyOfRange...? I wonder why they couldn't add another set of horrible overloads. May 24, 2013 at 20:30
  • 1
    @ron ColinD's answer doesn't give anything but what the OP already had - for loop to fill primitive array with non-primitive one. Mar 6, 2015 at 19:47
  • meanwhile at Oracle java engineers are fixated with overcomplicating the language with modules...
    – Gubatron
    Feb 17, 2016 at 20:41
  • 2
    @bvdb: I'm saying that without other libraries (which basically still have the loop, but in their code not yours), I don't believe there's a better approach. That's a significantly stronger assertion than saying I don't know whether or not there is a better approach.
    – Jon Skeet
    Jun 20, 2016 at 13:50

In addition to Commons Lang, you can do this with Guava's method Ints.toArray(Collection<Integer> collection):

List<Integer> list = ...
int[] ints = Ints.toArray(list);

This saves you having to do the intermediate array conversion that the Commons Lang equivalent requires yourself.

  • 4
    Unfortunately, the intermediate array is hidden inside Guava: Object[] boxedArray = collection.toArray();
    – kamczak
    Feb 25, 2014 at 12:05
  • 8
    "Fortunately, the intermediate array is hidden inside Guava." - Fixed that for you. ;)
    – Eddified
    Aug 5, 2016 at 21:03

The easiest way to do this is to make use of Apache Commons Lang. It has a handy ArrayUtils class that can do what you want. Use the toPrimitive method with the overload for an array of Integers.

List<Integer> myList;
 ... assign and fill the list
int[] intArray = ArrayUtils.toPrimitive(myList.toArray(new Integer[myList.size()]));

This way you don't reinvent the wheel. Commons Lang has a great many useful things that Java left out. Above, I chose to create an Integer list of the right size. You can also use a 0-length static Integer array and let Java allocate an array of the right size:

static final Integer[] NO_INTS = new Integer[0];
int[] intArray2 = ArrayUtils.toPrimitive(myList.toArray(NO_INTS));
  • The toPrimitive link is broken.
    – Mark Byers
    Nov 29, 2012 at 9:35
  • Here's a link to 2.6 Commons Lang API: toPrimitive Mar 13, 2013 at 16:10
  • 12
    Note that this will entail 2 allocations and copies: myList.toArray() will create an Integer[] and populate it, while ArrayUtils.toPrimitive() will allocate an int[] and unbox the input.
    – atanamir
    May 24, 2013 at 2:56

Java 8 has given us an easy way to do this via streams...

Using the collections stream() function and then mapping to ints, you'll get an IntStream. With the IntStream we can call toArray() which gives us int []

int [] ints = list.stream().mapToInt(Integer::intValue).toArray();

to int []

to IntStream



int[] toIntArray(List<Integer> list)  {
    int[] ret = new int[list.size()];
    int i = 0;
    for (Integer e : list)
        ret[i++] = e;
    return ret;

This slight change to your code is to avoid expensive list indexing (since a List is not necessarily an ArrayList, but it could be a linked list, for which random access is expensive).

  • I dont understand: looking up an elepment in an array is not slow. It runs in O, where n is the size of the array, ie it's not dependent on the size of the array at all or anything. In C: myarray[c] is the same as: myarray + c * sizeof( myarray[0] ) ... which runs very fast. Jul 4, 2010 at 1:26
  • 5
    The method takes List as argument, not all implementations have fast random access (like ArrayList)
    – Arjan
    Jul 4, 2010 at 22:03
  • 1
    @Hugh: The difference is not how the array is accessed, but how the List is accessed. list.get(i) performs bounds checks and stuff for each access. I don't know whether the new solution is actually better, but Mike says so at least, so perhaps it is. Edit: I forgot that Java allows indexing into a linked list (I'm used to C++'s std::list, which does not allow it). So what arjantop said about non-ArrayList is true as well; indexing isn't necessarily fast even without the bounds checks.
    – Lajnold
    Jul 4, 2010 at 22:06
  • @Lajnold The bounds checks for an ArrayList are free in a modern JIT. However, I'd prefer if Java more followed STL and implemented only methods which really make sense (LinkedList::get(int) does not as it may be arbitrary slow).
    – maaartinus
    Apr 25, 2015 at 17:57
  • @maaartinus The entire purpose of interfaces is to separate implementation from interface. It makes perfect sense the way it is solved in Java if you understand the underlying idea. Here is some information about it.
    – Nearoo
    Apr 13, 2018 at 17:15

Here is a Java 8 single line code for this:

public int[] toIntArray(List<Integer> intList){
    return intList.stream().mapToInt(Integer::intValue).toArray();

If you are simply mapping an Integer to an int then you should consider using parallelism, since your mapping logic does not rely on any variables outside its scope.

int[] arr = list.parallelStream().mapToInt(Integer::intValue).toArray();

Just be aware of this

Note that parallelism is not automatically faster than performing operations serially, although it can be if you have enough data and processor cores. While aggregate operations enable you to more easily implement parallelism, it is still your responsibility to determine if your application is suitable for parallelism.

There are two ways to map Integers to their primitive form:

  1. Via a ToIntFunction.

  2. Via explicit unboxing with lambda expression.

    mapToInt(i -> i.intValue())
  3. Via implicit (auto-) unboxing with lambda expression.

    mapToInt(i -> i)

Given a list with a null value

List<Integer> list = Arrays.asList(1, 2, null, 4, 5);

Here are three options to handle null:

  1. Filter out the null values before mapping.

    int[] arr = list.parallelStream().filter(Objects::nonNull).mapToInt(Integer::intValue).toArray();
  2. Map the null values to a default value.

    int[] arr = list.parallelStream().map(i -> i == null ? -1 : i).mapToInt(Integer::intValue).toArray();
  3. Handle null inside the lambda expression.

    int[] arr = list.parallelStream().mapToInt(i -> i == null ? -1 : i.intValue()).toArray();
  • 1
    Note that mapToInt(Integer::intValue) and mapToInt(i -> i.intValue()) are strictly identical (two ways of expressing the exact same method call), and all three are effectively identical (same bytecode).
    – AndrewF
    Feb 13, 2018 at 0:38
  • This is awesome, thanks for sharing it.!
    – kzs
    Jun 2, 2021 at 14:59

This simple loop is always correct! no bugs

  int[] integers = new int[myList.size()];
  for (int i = 0; i < integers.length; i++) {
      integers[i] = myList.get(i);
  • 3
    "Valid" is not the same as "ideal", and performance problems can be considered bugs. List#get(int) is not guaranteed to be a constant-time operation, as you may have assumed, so it shouldn't be used for iteration. Instead, use an iterator, which is designed for this use case. Either use the Java 5+ foreach loop or call List#iterator() and work with the iterator. Also, the list's size could change during this loop, leading to either an IndexOutOfBoundsException or an incomplete array. Many iterator implementations have well-documented strategies to handle this situation.
    – AndrewF
    Feb 13, 2018 at 0:30
  • 1
    Far better than the dog's dinner that is Java streams
    – garryp
    Nov 17, 2021 at 23:56
  • This is identical to the one in the question. The question was "Is there's a better way to do this?". How does this answer the question? Most of the other answers attempt to answer the question. Apr 13 at 19:37

I've noticed several uses of for loops, but you don't even need anything inside the loop. I mention this only because the original question was trying to find less verbose code.

int[] toArray(List<Integer> list) {
    int[] ret = new int[ list.size() ];
    int i = 0;
    for( Iterator<Integer> it = list.iterator();
         ret[i++] = it.next() );
    return ret;

If Java allowed multiple declarations in a for loop the way C++ does, we could go a step further and do for(int i = 0, Iterator it...

In the end though (this part is just my opinion), if you are going to have a helping function or method to do something for you, just set it up and forget about it. It can be a one-liner or ten; if you'll never look at it again you won't know the difference.


There is really no way of "one-lining" what you are trying to do, because toArray returns an Object[] and you cannot cast from Object[] to int[] or Integer[] to int[].

  • 5
    You can cast between Object[] and Integer[] due to array covariance - but you can't cast between int[] and Integer[].
    – Jon Skeet
    Jun 6, 2009 at 20:35
  • thanks for correcting me I will edit my answer to reflect what you said.
    – neesh
    Jun 6, 2009 at 20:38
int[] ret = new int[list.size()];       
Iterator<Integer> iter = list.iterator();
for (int i=0; iter.hasNext(); i++) {       
    ret[i] = iter.next();                
return ret;                              
  • An explanation would be in order. What is the idea/gist? Apr 13 at 19:12

Also try Dollar (check this revision):

import static com.humaorie.dollar.Dollar.*

List<Integer> source = ...;
int[] ints = $(source).convert().toIntArray();

With Eclipse Collections, you can do the following if you have a list of type java.util.List<Integer>:

List<Integer> integers = Lists.mutable.with(1, 2, 3, 4, 5);
int[] ints = LazyIterate.adapt(integers).collectInt(i -> i).toArray();

Assert.assertArrayEquals(new int[]{1, 2, 3, 4, 5}, ints);

If you already have an Eclipse Collections type like MutableList, you can do the following:

MutableList<Integer> integers = Lists.mutable.with(1, 2, 3, 4, 5);
int[] ints = integers.asLazy().collectInt(i -> i).toArray();

Assert.assertArrayEquals(new int[]{1, 2, 3, 4, 5}, ints);

Note: I am a committer for Eclipse Collections


I would recommend you to use the List<?> skeletal implementation from the Java collections API. It appears to be quite helpful in this particular case:

package mypackage;

import java.util.AbstractList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;

public class Test {

    // Helper method to convert int arrays into Lists
    static List<Integer> intArrayAsList(final int[] a) {
        if(a == null)
            throw new NullPointerException();
        return new AbstractList<Integer>() {

            public Integer get(int i) {
                return a[i]; // Autoboxing
            public Integer set(int i, Integer val) {
                final int old = a[i];
                a[i] = val; // Auto-unboxing
                return old; // Autoboxing
            public int size() {
                return a.length;

    public static void main(final String[] args) {
        int[] a = {1, 2, 3, 4, 5};

Beware of boxing/unboxing drawbacks.

  • 1
    This doesn't answer the OP's question -- the OP asked how to convert from a List to an array. Mar 6, 2014 at 22:16

Using a lambda you could do this (compiles in JDK lambda):

public static void main(String ars[]) {
    TransformService transformService = (inputs) -> {
        int[] ints = new int[inputs.size()];
        int i = 0;
        for (Integer element : inputs) {
            ints[ i++ ] = element;
        return ints;

    List<Integer> inputs = new ArrayList<Integer>(5) { {add(10); add(10);} };

    int[] results = transformService.transform(inputs);

public interface TransformService {
    int[] transform(List<Integer> inputs);
  • 2
    You could not have done that when the question was asked, but this is a good way to handle the situation now (assuming you have upgraded Java). What you have done could be further modified to provide a general way to transform lots of things with the same methodology. +1
    – Loduwijk
    Jul 23, 2013 at 15:43
  • 5
    The solution here is only in the loop code. The rest (functional interface, lambda, main method, list with dummy data) is extraneous and doesn't help answer the question.
    – AndrewF
    Feb 13, 2018 at 0:45