I have a list of values, some of which could be lists/collections or single values. In JavaScript notation it might look like:

const input = [1,2,[3,4], [5,6], 7];

and I want to get:

const concatenated = [1,2,3,4,5,6,7];

So I have this Java code:

      ArrayList<T> concatenated = new ArrayList<>();

      for (T v : input) {
          concatenated.addAll((Collection) v);
        catch (Exception e1){
            concatenated.addAll((List) v);
          catch (Exception e2){


but that code seems pretty terrible to me. First I don't know if attempting to cast to List or Collection is sufficient - are there are other types I should attempt to cast to? Are there any errors I shouldn't ignore?

How to do this right?

  • 1
    fyi Java does not support mixed match type in list as you have in input, it can be like input = [[1],[2],[3,4], [5,6], [7]]; – dkb Feb 11 at 5:11
  • and there could be null values there (exception handling is for what otherwise)? – nullpointer Feb 11 at 5:13
  • I think you can do this concatenated.addAll((Iterable) v); instead of try to cast to both Collection and List. – MrCholo Feb 11 at 5:23
  • 2
    @MrCholo An array list does not have an overload for addAll with Iterable. The simplest interface you can use is Collection See here. The reason being that Iterable doesn't have to persist the data. It can be a read once, or even random in what data is returned. All it specifies is that you can iterate on it. – flakes Feb 11 at 5:42
  • This type of list operation is often called "flatten". – Fax Feb 11 at 11:52

The code doesn't need Exception handling as such unless there are null values in the lists. It should be sufficient though in your case to just cast basis of instanceOf as:

// Edit: Since the type of the input `Collection` is not bound strictly
List<Object> flatten(Collection<?> input) {
    List<Object> concatenated = new ArrayList<>();
    for (Object v : input) {
        if (v instanceof Collection) {
            concatenated.addAll(flatten((Collection<?>) v));
        } else {
    return concatenated;

using it further on jshell gives me this output:

jshell> List<Object> list = List.of(1,2,List.of(3,4),List.of(5,6),7) 
list ==> [1, 2, [3, 4], [5, 6], 7]

jshell> flatten(list)
$3 ==> [1, 2, 3, 4, 5, 6, 7]


  • yeah but what about Collection? Can you use instanceof on Iterable? Collection and List both implement Iterable, so that might work – MrCholo Feb 11 at 5:25
  • 1
    @MrCholo null is a valid argument to instanceof. it will always return false. And an ArrayList can accept null as an input to add. – flakes Feb 11 at 5:33
  • 2
    I think a nice addition to this solution would be to make it recursive. ie concatenated.addAll(concatenateList((List<T>) v)) This way you can handle multiple levels of nesting. A better name on this method might be flatten – flakes Feb 11 at 5:37
  • 1
    @MrCholo List extends Collection – nullpointer Feb 11 at 5:47
  • 1
    @nullpointer It's an interesting problem! I have tried to solve this problem before (when dealing with examining JSON data without having a schema ahead of time) and I don't think Java has a good model for dealing with this. The root problem is that a basic Collection or List or Map interface does not account for nested hierarchies of data when specializing the container. Other languages combat this problem differently, say through the use of pattern matching rather than strict class matching. A good example of tackling this is in Python's new type hints system. – flakes Feb 11 at 6:32

As others have mentioned, using exceptions for control flow is not ideal. You can instead use the instanceof operator to test if an element is a Collection. The answer by nullpointer shows a good example of this. If you want an more generic option you could also do something like:

import java.lang.reflect.Array;
import java.util.Arrays;
import java.util.ArrayList;
import java.util.List;
import java.util.stream.IntStream;

public static <E> List<E> deepFlatten(final Iterable<?> iterable, final Class<E> type) {
    if (type.isPrimitive() || type.isArray() || Iterable.class.isAssignableFrom(type)) {
        throw new IllegalArgumentException(
                "type must not denote a primitive, array, or java.lang.Iterable type: " + type);
    final List<E> result = new ArrayList<>();
    for (final Object element : iterable) {

        if (element instanceof Iterable<?>) {
            result.addAll(deepFlatten((Iterable<?>) element, type)); // recursion

        } else if (element != null && element.getClass().isArray()) {

            if (element instanceof Object[]) {
                result.addAll(deepFlatten(Arrays.asList((Object[]) element), type)); // recursion
            } else { // primitive array
                final Iterable<?> itrArray = IntStream.range(0, Array.getLength(element))
                        .mapToObj(index -> Array.get(element, index))::iterator; // method reference
                result.addAll(deepFlatten(itrArray, type)); // recursion

        } else {
             * Will throw ClassCastException if any element is not an instance
             * of "type". You could also throw a NullPointerException here if
             * you don't want to allow null elements.

    return result;

This also handles "embedded" arrays, as well as Iterables, through recursion. Note it doesn't handle Maps because of the ambiguity; should we flatten the keys or the values—or both?

Calling the above with:

Iterable<?> iterable = List.of(
        "A", "B", "C", "D",
        List.of("E", "F", List.of("G", "H"), "I", "J"),
        new String[]{"L", "M", "N", "O", "P"},
        new String[][]{{"Q", "R"}, {"S", "T"}, {"U"}, {"V"}},
        new Object[]{"W", "X"},
        "Y", "Z"
List<String> flattened = deepFlatten(iterable, String.class);

Gave me:

[A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z]

Note that the letters are in order because Lists and arrays have guaranteed iteration orders. If your Iterable contained a Set the result of the deepFlatten may not be in the same order each time.


Use of Exceptions to control application flow/business logic is an anti-pattern. You can read more about it here, here and here.

Regarding storing different types of elements in Collections could be difficult to debug and maintain. You can write your own wrapper and encapsulate the handling of it from usage. You can refer this for an inspiration.

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