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Producer Consumer Solution using BlockingQueue in Java Thread

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The Producer-Consumer problem is a synchronization issue that arises when one or more threads generate data, placing it on a buffer, and simultaneously, one or more threads consume data from the same buffer. 

Doing so can cause a race condition in which the threads are racing against each other to complete their task. In this scenario, nothing stops them from entering methods at the same time and producing erroneous results. 

Moreover, due to a lack of inter-thread communication, the consumer may try to remove an element even though the buffer is empty. Similarly, the producer may try to add an element when the buffer is full. 

Possible Solutions:

  1. Checking the size of the buffer before removing and adding seems like a solution. Producer-Consumer systems generally use an infinite while loop. Checking the size for every iteration of the loop would be inefficient. Also, thread-safety cannot be guaranteed. Hence this solution is not used.
  2. wait() & notify() methods can be used to establish inter-thread communication.
  3. BlockingQueue is a less-complex thread-safe alternative to wait() & notify(). This method is discussed in this article.

BlockingQueue:

The BlockingQueue interface is part of the java.util.concurrent package. 

  • If a producer thread tries to put an element in a full BlockingQueue, it gets blocked and stays blocked until a consumer removes an element.
  • Similarly, if a consumer thread tries to take an element from an empty BlockingQueue, it gets blocked and remains blocked until a producer adds an element.

BlockingQueue has two primary methods i.e. put() and take()

put()

void put(E e) throws InterruptedException

e is the element to be added
InterruptedException is thrown if the thread is interrupted while waiting

take()

E take() throws InterruptedException

returns head of the queue
InterruptedException is thrown if the thread is interrupted while waiting

BlockingQueue also has add(E e) and remove() methods. But these methods must not be used for producer-consumer problems because:

  • add will throw IllegalStateException if the queue is full.
  • remove returns a boolean, but an element is to be returned.

Implementation of BlockingQueue

Since BlockingQueue is an interface, we cannot create its object. Instead, we can create objects of one of the classes which implement BlockingQueue. For this demonstration, ArrayBlockingQueue shall be used.

ArrayBlockingQueue

  • As the name suggests, an ArrayBlockingQueue uses the array data structure as a buffer.
  • Since it is an array, its capacity is fixed after declaration.
  • It provides fairness as an option. This means threads are given access to the buffer on a first-come, first-serve basis. Fairness is off by default. It can be turned on by placing the boolean value true inside the constructor.

Production-Consumer Solution

Now that we understand what a BlockingQueue is and its usage. Let us apply this knowledge to solve the producer-consumer problem. We can divide this problem into two subproblems by creating a separate class for producer and consumer for convenience. The producer and consumer will be acted upon by different threads but will share a common BlockingQueue buffer.

Producer: As the name suggests, the producer class will produce data. In our case, the producer class is producing numbers in the range [1,4]. It will place this data in the BlockingQueue buffer.

Java




// Java program to demonstrate producer code
  
// Implement Runnable since object
// of this class will be executed by
// a separate thread
class producer implements Runnable {
  
    BlockingQueue<Integer> obj;
  
    public producer(BlockingQueue<Integer> obj)
    {
        // accept an ArrayBlockingQueue object from
        // constructor
        this.obj = obj;
    }
  
    @Override public void run()
    {
          
         // Produce numbers in the range [1,4]
         // and put them in the buffer
        for (int i = 1; i <= 4; i++) {
            try {
                obj.put(i);
                System.out.println("Produced " + i);
            }
            catch (InterruptedException e) {
                e.printStackTrace();
            }
        }
    }
}


Consumer: The Consumer will take data from the BlockingQueue buffer. In our case, this data will simply be printed.

Java




// Java program to demonstrate consumer code
  
// Implement Runnable since object
// of this class will be executed by
// a separate thread
class consumer implements Runnable {
  
    BlockingQueue<Integer> obj;
  
    // Initialize taken to -1
    // to indicate that no number
    // has been taken so far.
    int taken = -1;
  
    public consumer(BlockingQueue<Integer> obj)
    {
        // accept an ArrayBlockingQueue object from
        // constructor
        this.obj = obj;
    }
  
    @Override public void run()
    {
  
        // Take numbers from the buffer and
        // print them, if the last number taken
        // is 4 then stop
        while (taken != 4) {
            try {
                taken = obj.take();
                System.out.println("Consumed " + taken);
            }
            catch (InterruptedException e) {
                e.printStackTrace();
            }
        }
    }
}


Now let us create an ArrayBlockingQueue buffer object, one thread each for Producer and Consumer, and execute the solution.

Producer-Consumer Problem Solution:

Java




// Java Program to demonstrate producer consumer
// problem solution
  
// Import the BlockingQueue interface and
// ArrayBlockingQueue class
import java.util.concurrent.ArrayBlockingQueue;
import java.util.concurrent.BlockingQueue;
  
// Create a Main class for execution
public class Main {
    public static void main(String[] args)
    {
  
        // Create an ArrayBlockingQueue object with capacity
        // 4
        BlockingQueue<Integer> bqueue
            = new ArrayBlockingQueue<Integer>(4);
  
        // Create 1 object each for producer
        // and consumer and pass them the common
        // buffer created above
        producer p1 = new producer(bqueue);
        consumer c1 = new consumer(bqueue);
  
        // Create 1 thread each for producer
        // and consumer and pass them their
        // respective objects.
        Thread pThread = new Thread(p1);
        Thread cThread = new Thread(c1);
  
        // Start both threads
        pThread.start();
        cThread.start();
    }
}
  
class producer implements Runnable {
  
    BlockingQueue<Integer> obj;
  
    public producer(BlockingQueue<Integer> obj)
    {
        this.obj = obj;
    }
  
    @Override public void run()
    {
        for (int i = 1; i <= 4; i++) {
            try {
                obj.put(i);
                System.out.println("Produced " + i);
            }
            catch (InterruptedException e) {
                e.printStackTrace();
            }
        }
    }
}
  
class consumer implements Runnable {
  
    BlockingQueue<Integer> obj;
  
    int taken = -1;
  
    public consumer(BlockingQueue<Integer> obj)
    {
        this.obj = obj;
    }
  
    @Override public void run()
    {
        while (taken != 4) {
            try {
                taken = obj.take();
                System.out.println("Consumed " + taken);
            }
            catch (InterruptedException e) {
                e.printStackTrace();
            }
        }
    }
}


Output

Produced 1
Produced 2
Produced 3
Produced 4
Consumed 1
Consumed 2
Consumed 3
Consumed 4

 

Note: 

  • The above program may give different orders of production and consumption with every run. But it is noteworthy that all the numbers produced will get consumed and there won’t be any inter-thread communication issues.
  • Poison element: This element signals the end of Production-Consumption activity, in the above example, 4 is the poison element.
  • In case the number of elements is not known beforehand, LinkedBlockingQueue can be used.


Last Updated : 28 Jan, 2021
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