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If I have a method like this (for simplicity assume integers):

public static List<Integer> doSomething(List<Integer> list) {
   // logic here  

and I need for my processing to create internally a new list which I will create and somehow populate and return to the caller, how can I do it since I don't know what type of list the caller passed in?

I don't want to return a List of different type that what the caller passed in.

E.g. If the caller passed a LinkedList and I don't want to return an ArrayList.

How can this issue best be approached?

share|improve this question
Why exactly do you need to return something of the same kind? Won't people be calling this with something like ArrayList<Integer> a = doSomething(a); in which case it will be cast automatically? – kba Jan 28 '12 at 16:07
Why would they be calling it with ArrayList a =?The other friends who answered already complained/pointed out that there should not be an ArrayList floating around anywhere (i.e. use interfaces) – Cratylus Jan 28 '12 at 16:12
@KristianAntonsen That doesn't make sense; if I pass in a LinkedList, I can't randomly cast the return value to an arbitrary implementation and expect it to work. – Dave Newton Jan 28 '12 at 16:12
@KristianAntonsen What would it mean to cast an ArrayList to a LinkedList? Would you suddenly have the random access capability of an ArrayList? Exception in thread "main" java.lang.ClassCastException: java.util.ArrayList cannot be cast to java.util.LinkedList – Dave Newton Jan 28 '12 at 16:17
@KristianAntonsen All casting does is attempt to reference one type as another--it doesn't do anything at runtime. – Dave Newton Jan 28 '12 at 16:19

You shouldn't tie your implementation to a particular implementation of List, the idea of using an interface is that, from the outside, it shouldn't matter what concrete class you're instantiating as long as it conforms to the List interface.


Anyway, here's a possible way:

List<Integer> lst1 = new ArrayList<Integer>();
Class<?> klass1 = lst1.getClass();
List<Integer> copy1 = (List<Integer>) klass1.newInstance();
> java.util.ArrayList

List<Integer> lst2 = new LinkedList<Integer>();
Class<?> klass2 = lst2.getClass();
List<Integer> copy2 = (List<Integer>) klass2.newInstance();
> java.util.LinkedList

As you can see in the console, the copies are instances of the same class as the original list.

share|improve this answer
I undertand what you are saying, but it is common for example to use List but assume that you have an ArrayList underneeth by default (I mean my concern is a ClassCastException somewhere) – Cratylus Jan 28 '12 at 16:04
Also swapping list implementation can affect performance elsewhere. – Cratylus Jan 28 '12 at 16:06
Some implementations do expect certain types of lists, though, notably random access lists. – Dave Newton Jan 28 '12 at 16:07

If you can get away with just using one of those two output types, then you can do

if (inputList instanceof RandomAccess) {
  // use an ArrayList
} else {
  // use a LinkedList.

The RandomAccess interface is meant to indicate that the implementation allows O(1) get operations.

Marker interface used by List implementations to indicate that they support fast (generally constant time) random access. The primary purpose of this interface is to allow generic algorithms to alter their behavior to provide good performance when applied to either random or sequential access lists.

By doing this, your APIs allow clients to defend their inputs. They can pass in the result of Collections.unmodifiableList(...) and be sure that it isn't modified by other code.

If you really know the input is a mutable list, you can clone() the list, then clear() it. Both ArrayList and LinkedList have public clone() methods which can be accessed reflectively.

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I thought of that but List does not offer a clone() – Cratylus Jan 28 '12 at 15:57
@user384706, the clone method can be accessed reflectively if you know that your input is going to have a public clone method. – Mike Samuel Jan 28 '12 at 16:00
I like this solution. However, it begs the question: if the user does pass in an unmodifiableList, does this method return an unmodifiableList too? And, if this is desired behavior, how do you decide if the passed in list was unmodifiable? – user949300 Jan 28 '12 at 16:31
@user949300, there is no easy way to detect whether a list is unmodifiable. java.util.Collections.unmodifiableList and Guava's ImmutableList are different approaches to the same end. There are other effectively immutable list Collections.emptyList comes to mind, and some are partially mutable -- you can't add to the end of the output of Arrays.asList. – Mike Samuel Jan 29 '12 at 1:29

The best thing to do is to remove the list creation from the method. Have the caller decide how to create the list:

public static void doSomething(List<Integer> dest, List<Integer> src) {
share|improve this answer
I like this approach. Better than depending on newInstance in the method. – david van brink Feb 1 '12 at 6:57

You could use Class.newInstance to create a list of the passed in type:

public static List<Integer> doSomething(List<Integer> list)
    List<Integer> newList = null;
        newList = list.getClass().newInstance();
    catch(InstantiationException e)
        throw new RuntimeException(e);
    catch(IllegalAccessException e)
        throw new RuntimeException(e);

    //Logic here

    return newList;

public void test()
    List<Integer> testList = new ArrayList<Integer>();

    List<Integer> resultList = doSomething(testList);
    Assert.assertEquals(testList.getClass(), resultList.getClass());
    Assert.assertNotSame(LinkedList.class, resultList.getClass());

    testList = new LinkedList<Integer>();

    resultList = doSomething(testList);
    Assert.assertEquals(testList.getClass(), resultList.getClass());
    Assert.assertNotSame(ArrayList.class, resultList.getClass());       
share|improve this answer
I just posted (then deleted) something very similar. As @Mike Samuel points out, this wont work so well if clients pass in a Unmodifiable wrapper. – user949300 Jan 28 '12 at 16:19
@user949300: True, if there's a chance that an unmodifiable wrapper is used, I'd suggest going with Mike Samuels' solution. – esaj Jan 28 '12 at 16:27

If you really, really care what kind of object comes out, I would include that as a parameter to the method, like:

<T extends List<Integer>> T doSomething(Class<T> returnType,List<Integer> v)
    throws Exception
    // constructors for your return will be tricky :)
    // returnType.newInstance() will probably work.
    T result = returnType.newInstance();
    result.add(86); result.add(99);
    return result;
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