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Collections
A Collection in Java is a group of objects which can be ordered (List) or unordered (Set). The Collection
interface is at the top of the hierarchy and all other classes and interfaces extend from this interface. It is located in the java.util
package.
The Collection
interface also extends the Iterable
interface, which means that every collection in java must be iterable. This in turn means that a for-each
loop can be used to fetch elements from a collection in a sequence.
public interface Collection<E> extends Iterable<E>
Some of the most common methods provided by this interface are:
boolean add(E e) // Adds the specified element to the collection if not present and returns true if this collection changed.
void clear() // Removes all the elements from the collection.
boolean contains(Object o) // Returns true if the specified element is in the collection else false.
boolean isEmpty() // Returns true if the collection is empty else false.
boolean remove(Object o) // Removes the specifies element and return true on successful removal else false.
int size() // Returns number of items in the collection.
These and various other methods have to be implemented by any class implementing Collection interface.
Interfaces extending Collection interface
Other important interfaces extending the collection interface are:
-
Set
: A collection containing only unique elements. -
Queue
: Implement the queue behaviour where elements are added only in the beginning and removed from the end. -
List
: This collection handles a list/sequence of objects.
These four interfaces (Collection
, Set
, Queue
, List
) along with SortedSet
, Deque
and NavigableSet
form the collective Collection
hierarchy.
The LinkedList Class
LinkedList
is one the most important Collection
classes which provides a doubly-linked list implementation. It implements the List
, Deque
, Cloneable
and Serializable
interfaces.
Create a LinkedList
LinkedList<Integer> intList = new LinkedList<Integer>(); // Creates a new list of Integer objects.
You can also create a list of any other object type. For eg.
LinkedList<String> stringList = new LinkedList<>();
LinkedList<LinkedList<Integer>> listOfList = new LinkedList<>();
Note: All collections in Java have been converted to generic types since JDK 1.5.
Add elements to the list
intList.add(new Integer(1)); // Add 1 to the end.
intList.add(2); // This works as Java provides autoboxing and unboxing of primitive datatypes and their respective wrapper classes.
intList.addFirst(3); // Add to the beginning of the list.
intList.addLast(2); // Add to the end of the list.
intList.add(2, 5); // Add element 5 at index 2.
Let us print the list:
System.out.println(intList); // toString() method is automatically called on the list
Output:
[3, 1, 5, 2, 2]
Retrieve elements from the list
intList.get(3); // Returns element at index 3 i.e. 2.
intList.getFirst(); // Get the first element i.e. 3.
intList.getLast(); // Returns last element i.e. 2.
intList.indexOf(2); // Returns first occured index of 2 i.e. 3.
intList.lastIndexOf(2); // Returns last occured index of 2 i.e. 4.
LinkedList as a Stack
You can use a LinkedList
to implement the Stack
data structure:
intList.push(5); // Add element to the end of list. Works same as addLast().
intList.pop(); // Removes and returns the last element of the list.
Remove elements from the list
intList.remove(3); // Removes the element at index 3 of the list
intList.removeFirst(); // Removes first element of the list
intList.removeLast(); // Removes last element of the list
Note: All the above mentioned methods for removing and fetching an element return NoSuchElementException
on an empty list.