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I have a List declared as:

List<String[]> arrayList = new ArrayList<>();

This List contains multiple arrays of Strings.

I need to check if a String[] which I have is contained in this ArrayList<String[]>.

I am currently iterating through the ArrayList and comparing each String[] with the one I am searching for:

for(String[] array: arrayList){
    if(Arrays.equals(array, myStringArray)){
        return true;
return false;

Is there any better way to check if an ArrayList<String[]> contains a specific String[]?

share|improve this question
Seems fine. What's wrong with current approach ? –  sᴜʀᴇsʜ ᴀᴛᴛᴀ Aug 21 '14 at 7:03
arrayList.contains(myStringArray) –  bigdestroyer Aug 21 '14 at 7:04
@bigdestroyer This does not work. –  Swad Aug 21 '14 at 7:06
I agree with @sᴜʀᴇsʜᴀᴛᴛᴀ - your efficiency can't be better thanO(n*n) (equals takes n BTW) –  TheLostMind Aug 21 '14 at 7:07
if(!Arrays.equals()) Did you really want to negate equals? –  icza Aug 21 '14 at 7:14

4 Answers 4

up vote 9 down vote accepted

Array.equals() is the most efficient method afaik. That method alone meant for the purpose and optimized as less as it is in the current state of implementation which is a single for loop.

Just go for it.

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in my opinion this is not a response, it doesn't add any value to the current post. It would've been enough if you would've added it as comment to the question... –  Olimpiu POP Aug 21 '14 at 8:00
@user503413 -1 ?? When OP asked for the best way, I'm just telling that the current way is the best way. It just like a yes/or question. –  sᴜʀᴇsʜ ᴀᴛᴛᴀ Aug 21 '14 at 8:06

I agree with the answer from Rod_Algonquin, but there is another way to do it. Just write your own class wrapping your array and implement a custom equals and hashCode method and let them return Arrays.equals() and Arrays.hashCode(). With this approach you can store your objects in a List and do contains checks on the list directly.

List<ArrayWrapper> list = new ArrayList<ArrayWrapper>();
list.add(new ArrayWrapper(new String[]{"test", "123"}));
list.add(new ArrayWrapper(new String[]{"abc", "def"}));
list.add(new ArrayWrapper(new String[]{"789", "cgf"}));

String[] arrayToSearchFor = {"test", "123"};
ArrayWrapper wrapperToSearchFor = new ArrayWrapper(arrayToSearchFor);

String[] arrayToSearchFor2 = {"hello", "123"};
ArrayWrapper wrapperToSearchFor2 = new ArrayWrapper(arrayToSearchFor2);

class ArrayWrapper
    private String[] array;

    public ArrayWrapper(String[] array)
        this.array = array;

    public String[] getArray()
        return array;

    public int hashCode()
        return Arrays.hashCode(array);

    public boolean equals(Object obj)
        if (!(obj instanceof ArrayWrapper))
            return false;

        return Arrays.equals(array, ((ArrayWrapper) obj).getArray());

this will print

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Great idea, but wouldn't it be even better if you used a Set instead of a List and let ArrayWrapper cache its hashCode? –  Yogu Aug 23 '14 at 22:41
@Yogu depends on OP's needs. He said he has a list, so maybe he needs to get elements by index. Caching the hashcode will only work if the arrays are never modified. –  CalibeR.50 Aug 26 '14 at 7:40

I'd probably look for a solution where you don't store String[] objects directly in your list. That'd probably mean creating some kind of meaningful class that might store a String[] internally, or it might mean just switching to ArrayLists instead of arrays. Without knowing the context, though, the best I can suggest is wrapping them with lists using Arrays.asList

// Make a List that uses the provided array for its contents:
List<String> stringList = Arrays.asList(stringArray);

This gives you useful hashCode and equals methods, which allows you to use ArrayList.contains, or even HashSets if containment testing is the primary concern:

Set<List<String>> stringLists = new HashSet<>();

// when you want to add a String[]:

// when you want to check whether a String[] is in the set:

ArrayList.contains won't be any faster than what you're currently doing, and all the Arrays.asList calls are likely to be quite wordy, but HashSet.contains has the potential to be much faster than what you're doing.

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List.contains(Object) is broken with lists of arrays, so why don't you use lists of lists?

You can easily convert an array into a list with Arrays.asList(T... a).

String[] array = new String[2];
array[0] = "item1";
array[1] = "item2";
List<List<String>> arrayList = new ArrayList<List<String>>();
share|improve this answer
it is true because you pass the same reference to the String array that was added. try making a new array with the same content of array –  Rod_Algonquin Aug 21 '14 at 7:38
Yes, and passing another instance of the array with the same elements will return false (but should also return true)! –  icza Aug 21 '14 at 7:39
Improved with a suggestion. –  Joiner Aug 22 '14 at 7:10

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