# Getting unique elements of List

all I have list containing Duplicate values I want somehow to get only Unique values from it and store it another list or set.So that I can perform some operation on it. My code:

``````{
List<Integer[]> list1 = new ArrayList<Integer[]>();

for(int i=0;i<list1.size();i++)
{
System.out.println("I - 0 :"+list1.get(i)[0]+"\t I - 1 :"+list1.get(i)[1]+"\n");
}

Set<Integer[]> uniquelist = new HashSet<Integer[]>(list1);

for(Integer[] number: uniquelist){
System.out.println(number[0]+"\t"+number[1]);
}
}
``````

I want the result `{1,10;2,10;3,10}` to be in separate list.When i googled I got to know for unique we should use set as in `Set<Integer[]> uniquelist = new HashSet<Integer[]>(list1);` But after doing this I dont know how to access each elements Thanks in advance

``````Output:
1   10
2   10
1   10
3   10
1   10
1   10
``````
-

You won't get the result you want using the normal `Set` approach. As your `List` contains `Integer[]`, and then won't be considered unique by default. All the array objects are distinct. So, your `Set` will contain the same elements as your list. However, you can define your `Custom Comparator`, and use it with a `TreeSet` constructor.

Another way of doing it can be, define a method `contains(List<Integer[]> list, Integer[] value)`, which checks whether your list contains that array. Define a list named `uniqueList`. Now, iterate over your original list, and then for each value, call `contains` method passing `uniqueList` and that `value`, as parameters.

Here's how your `contains` method would look like: -

``````public static boolean contains(List<Integer[]> list, Integer[] value) {
for (Integer[] arr: list) {
// We can compare two arrays using `Arrays.equals` method.
if (Arrays.equals(arr, value)) {
return true;
}
}
return false;
}
``````

So, you can see that, checking for containment is not the same as, how it would look for just `Integer`.

Now, from your `main` method, use this code: -

``````List<Integer[]> unique = new ArrayList<Integer[]>();

for (Integer[] arr: list1) {
// Use your method here, to test whether this value - `arr`
// is already in `unique` List or not. If not, then add it.
if (!contains(unique, arr)) {
}
}

for (Integer[] arr: unique) {
System.out.println(arr);
}
``````
-
@Downvoter.. Any useful comments please? –  Rohit Jain Jan 21 '13 at 9:26
Thanks a lot @Rohit Jain u idea worked –  HkFreaKuser1673718 Jan 21 '13 at 10:02

I would rather use a `Set` implementation in this case. Use `LinkedHashSet` if you want your elements to be ordered.

You could declare a class IntegerPair to hold your pairs:

``````class IntegerPair {
private int key;

private int value;

public IntegerPair(int k, int v) {
key = k;
value = v;
}

public int getKey() {
return key;
}

public int getValue() {
return value;
}

public int hashCode() {
return key * value;
}

public boolean equals(Object o) {
if (!(o instanceof IntegerPair)) {
return false;
}
IntegerPair other = (IntegerPair) o;
return key == other.key && value == other.value;
}
}
``````

Declare it this way:

``````Set<IntegerPair> set = new LinkedHashSet<IntegerPair>();
``````

Instead of putting `new Integer[]` values, just do `set.add(new IntegerPair(1, 10));`

You can loop through your elements using the foreach approach:

``````for (IntegerPair value : set) {
System.out.println(value.getKey() + "  =  " + value.getValue());
}
``````
-
I'm afraid, the `Set` implementation would not work here. See the explanation in my answer. –  Rohit Jain Jan 21 '13 at 9:13
Right. I "redesigned" it. –  Dan Jan 21 '13 at 9:18
Well, I like the idea, but it may fail, if the integer array contains more than two values. –  Rohit Jain Jan 21 '13 at 9:24
@Dan thanks but map.put(1,2); map.put(1,10); map.put(2,2); map.put(2,10); map.put(3,10); give sme only 1-10,2-10,3-10 and 2-2,1-2 is missing –  HkFreaKuser1673718 Jan 21 '13 at 9:51
OK, I changed back to a Set based implementation. –  Dan Jan 21 '13 at 10:12

You can access elements by `Iterator` or by using for each loop

``````for(Integer number: setOfNumbers){
System.out.println(number);
}
``````
-

Put them into set using your custom comparator like following:

``````new TreeSet(list1, new Comparator<Integer[]>() {
public int compare(Integer[] one, Integer[] two) {
int n = one.length;
for (int i = 0;  i < n;  i++) {
int comp = one.compareTo(two);
if (comp != 0) {
return comp;
}
}
return 0;
}
});
``````

Pay attention that I used `TreeSet` that can accept custom comparator. It is because you are dealing with arrays. If however you define your own class that holds 2 int values you can make it to implement `equals()` and `hashCode()` that allows using any Set implementation.

-

Problem :

Obviously it will return in same manner in witch its returning because set is..

A collection that contains no duplicate elements. More formally, sets contain no pair of elements e1 and e2 such that e1.equals(e2), and at most one null element. As implied by its name, this interface models the mathematical set abstraction.

``````List<Integer[]> list1 = new ArrayList<Integer[]>();
``````

Here `new Integer[] { 1,10 }` every time is a different object so that its adding all the objects.

Solution :
Simply the solution is you have to take care that in list no duplicate(according to your requirement) Integer array can add.

So you can create one method that can check weather if that Array is already in list that don't add it , if not in list then add that.

``````public void addUnique(List<Integer[]> list, Integer[] newValue) {
for (Integer[] array: list) {
//Compare two arrays using `Arrays.equals` method.
if (Arrays.equals(array, newValue)) {
}
}
}
``````

``````List<Integer[]> list1 = new ArrayList<Integer[]>();
addUnique(list1  , new Integer[] { 1,10 });
addUnique(list1  , new Integer[] { 1,10 });
addUnique(list1  , new Integer[] { 1,10 });
addUnique(list1  , new Integer[] { 2,10 });
addUnique(list1  , new Integer[] { 1,10 });
addUnique(list1  , new Integer[] { 3,10 });
``````
-

the `Integer[] number` in your for loop is an array. to get the values inside you have to use `number[index]` instruction. to do that you can either do a classic while or for loop using a variable as an index

``````for(int i=0;i<number.length;i++) {
...
}
``````

or a foreach loop:

``````for(Integer num : number){
...
}
``````
-

``````public static void main(String [] args){
Set<Integer []> set = new TreeSet<Integer []>(new Comparator<Integer[]>(){
public int compare(Integer[] o1, Integer[] o2) {
if(o1.length == o2.length){
for(int i = 0; i < o1.length; i++){
if(o1[i] != o2[i]){
return -1;
}
}
return 0;
}
return -1;
}
});

int j = 0;
for(Integer[] i: set){
System.out.println("\nElements: "+j);
j++;
for(Integer k : i){
System.out.print(k+" ");
}
}
}
``````

You need to use `Comparator` to compare two elements of same. As we don't have comparator for Array, Set will use actual object to compare.. using comparator you will have to tell set that this two arrays are same and do not add other same array

-

``````Table<Integer, Integer, Integer[]> sampleTable = HashBasedTable.create();