The remainingCapacity() method of LinkedBlockingQueue returns the number of more elements that can be added to LinkedBlockingQueue without blocking. The Capacity returned arises three cases:
- If remaining Capacity is Zero, then no more elements can be added to the LinkedBlockingQueue.
- If remaining Capacity of LinkedBlockingQueue is equal to the size of the Queue, then no element can be removed from the queue because in such situation queue is empty.
- In any other case, Capacity is always equal to a difference between the initial capacity of this LinkedBlockingQueue and the current size of this LinkedBlockingQueue.
Syntax:
public int remainingCapacity()
Return Value: This method returns the remaining capacity of the LinkedBlockingQueue.
Below programs illustrates remainingCapacity() method of LinkedBlockingQueue class:
Program 1: Returning the remaining Capacity of the LinkedBlockingQueue using remainingCapacity() method where LinkedBlockingQueue contains list of names.
// Java Program Demonstrate remainingCapacity() // method of LinkedBlockingQueue import java.util.concurrent.LinkedBlockingQueue;
public class GFG {
public static void main(String[] args)
{
// define capacity of LinkedBlockingQueue
int capacityOfQueue = 7 ;
// create object of LinkedBlockingQueue
LinkedBlockingQueue<String> linkedQueue
= new LinkedBlockingQueue<String>(capacityOfQueue);
// Add element to LinkedBlockingQueue
linkedQueue.add("John");
linkedQueue.add("Tom");
linkedQueue.add("Clark");
linkedQueue.add("Kat");
// find remaining Capacity of linkedQueue
// using remainingCapacity() method
int remainingCapacity = linkedQueue.remainingCapacity();
// print result
System.out.println("Queue is " + linkedQueue);
// print head of queue
System.out.println("Remaining Capacity of Queue is "
+ remainingCapacity);
}
} |
Queue is [John, Tom, Clark, Kat] Remaining Capacity of Queue is 3
Program 2: Finding Remaining Capacity of LinkedBlockingQueue which contains list of Employees.
// Java Program Demonstrate remainingCapacity() // method of LinkedBlockingQueue import java.util.concurrent.LinkedBlockingQueue;
public class GFG {
public void findPeek()
{
// define capacity of LinkedBlockingQueue
int capacityOfQueue = 7 ;
// create object of LinkedBlockingQueue
LinkedBlockingQueue<Employee> linkedQueue
= new LinkedBlockingQueue<Employee>(capacityOfQueue);
// Add element to LinkedBlockingQueue
Employee emp1 = new Employee("Ravi", "Tester", " 39000 ");
Employee emp2 = new Employee("Sanjeet", "Manager", " 98000 ");
// Add Employee Objects to linkedQueue
linkedQueue.add(emp1);
linkedQueue.add(emp2);
// add element and find remaining capacity
// follow same process again
// until the queue becomes full
while (linkedQueue.size() != 7 ) {
// adding emp2 again and again to queue
System.out.println("Adding employee is success "
+ linkedQueue.offer(emp2));
// find remaining capacity of linkedQueue
// using remainingCapacity() method
int remain = linkedQueue.remainingCapacity();
// print remaining capacity value
System.out.println("Remaining Capacity of list :"
+ remain);
}
}
// create an Employee Object with name,
// position and salary as an attribute
public class Employee {
public String name;
public String position;
public String salary;
Employee(String name, String position, String salary)
{
this .name = name;
this .position = position;
this .salary = salary;
}
@Override
public String toString()
{
return "Employee [name=" + name + ", position="
+ position + ", salary=" + salary + "]";
}
}
// Main Method
public static void main(String[] args)
{
GFG gfg = new GFG();
gfg.findPeek();
}
} |
Adding employee is success true Remaining Capacity of list :4 Adding employee is success true Remaining Capacity of list :3 Adding employee is success true Remaining Capacity of list :2 Adding employee is success true Remaining Capacity of list :1 Adding employee is success true Remaining Capacity of list :0