The Java.util.concurrent.ConcurrentLinkedDeque.iterator() method is used to return an iterator of the same elements as that of the ConcurrentLinkedDeque. The elements are returned in random order from what was present in the deque.
Syntax:
Iterator iterate_value = ConcurrentLinkedDeque.iterator();
Parameters: The function does not take any parameter.
Return Value: The method iterates over the elements of the deque and returns the values(iterators).
Below program illustrates the use of Java.util.concurrent.ConcurrentLinkedDeque.iterator() method:
Example 1:
// Java code to illustrate iterator() import java.util.concurrent.*;
import java.util.*;
public class ConcurrentLinkedDequeDemo {
public static void main(String args[])
{
// Creating an empty ConcurrentLinkedDeque
ConcurrentLinkedDeque<String> deque
= new ConcurrentLinkedDeque<String>();
// Use add() method to add elements
// into the ConcurrentLinkedDeque
deque.add( "Welcome" );
deque.add( "To" );
deque.add( "Geeks" );
deque.add( "4" );
deque.add( "Geeks" );
// Displaying the ConcurrentLinkedDeque
System.out.println( "ConcurrentLinkedDeque: "
+ deque);
// Creating an iterator
Iterator value = deque.iterator();
// Displaying the values
// after iterating through the deque
System.out.println( "The iterator values are: " );
while (value.hasNext()) {
System.out.println(value.next());
}
}
} |
Output:
ConcurrentLinkedDeque: [Welcome, To, Geeks, 4, Geeks] The iterator values are: Welcome To Geeks 4 Geeks
Example 2: ConcurrentLinkedDeque with integer elements.
// Java code to illustrate iterator() import java.util.concurrent.*;
import java.util.*;
public class ConcurrentLinkedDequeDemo {
public static void main(String args[])
{
// Creating an empty ConcurrentLinkedDeque
ConcurrentLinkedDeque<Integer> deque
= new ConcurrentLinkedDeque<Integer>();
// Use add() method
// to add elements into the ConcurrentLinkedDeque
deque.add( 10 );
deque.add( 20 );
deque.add( 30 );
deque.add( 40 );
deque.add( 50 );
// Displaying the ConcurrentLinkedDeque
System.out.println( "ConcurrentLinkedDeque: "
+ deque);
// Creating an iterator
Iterator value = deque.iterator();
// Displaying the values
// after iterating through the deque
System.out.println( "The iterator values are: " );
while (value.hasNext()) {
System.out.println(value.next());
}
}
} |
Output:
ConcurrentLinkedDeque: [10, 20, 30, 40, 50] The iterator values are: 10 20 30 40 50