We have already implemented a Binary Tree in Java a few weeks back, and this is the logical continuation of that. In this post, we’ll see how we can implement a Binary Search Tree (BST) in Java. This is very similar to binary tree, but there is one requirement that a binary tree has to fulfil to qualify as a binary search tree. Read more... “Binary Search Tree Implementation in Java”

# Tag: java data structures implementation

# Binary Tree Implementation in Java

More in **The Data Structures series**.

After learning how to implement a stack, various types of linked lists, and even a hash map in Java, today we’ll see how we can build our own binary tree in Java. Read more... “Binary Tree Implementation in Java”

# Circular Double Linked List Implementation in Java

More in The Data Structures series. We'll continue our data structures journey with this post about how to implement a circular Double Linked List (DLL) in Java. This is very similar to the standard DLL with the only difference being the connection of the head with the tail. That means, we link the head the tail to each other, which we can visualise as a circle, because a circle has no start and no end. Because the head and the tail of the list are connected to each other, we can say that there is no start and no end. But of course, we have references to both the head and the tail, to make our traversal easy. If you have not

# HashMap implementation in Java

More in The Data Structures series. In our data structure series, we have already looked at a couple of ways in which we can implement a stack, and also Single Linked Lists (SLL) and Double Linked Lists (DLL). In this post, we'll see how we can implement our own HashMap and see a couple of examples of how we can use that HashMap. Let's get started. The HashMap Before we can start with the implementation of the HashMap, we need to understand how the stuff actually works. This is a combination of an array and a LinkedList. So it's a bit interesting. When we add an item to a HashMap, we provide a key and a value. The key will be used as a

# Stack Implementation in Java using Linked Lists

More in The Data Structures series. In our previous Stack implementation post, we saw how we can implement a Stack data structure using an ArrayList. But as you can imagine, that's not the right way to implement a stack. A much better implementation is using a LinkedList. In this post, we'll see just that. If you've missed it, I've already written about how to implement Single Linked List (SLL) and Double Linked List (DLL), and I'd encourage you to check those two out first as we'll be using the same Linked List implementation here, and you can find more detailed Linked List explanation there. Assuming that you have done that, let's now move on to the Stack. The Node The first thing we have

# Double Linked List Implementation in Java

More in The Data Structures series. In the previous post, we saw how we can implement Single Linked List in Java. In this post, we'll see how we can extend that and implement a double linked list. The difference between a Single Linked List (SLL) and a Double Linked List (DLL) is that in DLL we have links to both the previous and the next node in the list. In SLL, we only have a pointer to the next node. So in DLL, we have the advantage of traversing the list in both the forward and reverse direction. This adds a lot more flexibility in the linked list. This ins't very much difficult once we have the SLL implementation done. So let's

# Single Linked List Implementation in Java

More in The Data Structures series. In the previous post, we saw how a stack can be implemented in Java. But as that was the first data structures post on this blog, I used an ArrayList internally. In this post, we'll implement a simple Linked List in Java. Starting with this post, we'll be getting serious about these data structure implementations. So we'll write 100% custom implementation without using any built-in classes in Java. Also, I'm not going to explain how the data structures work. Which means, in this post, I'll not have illustrations like I had for the stack implementation post explaining each step. So we're going to jump right into the implementation from now on. The Node We know that any linked

# Stack Implementation example in Java

More in The Data Structures series. A stack is one of the most simplest data structure to understand. If you had data structures in your academia, you already know what it means. It’s a simple Last In First Out (LIFO) queue. What that means is the last element to enter the stack will be first element to go out of the stack. Let’s try to understand the concept first with a few illustrations. The concept Suppose we have an empty container which looks like the container shown in the image below: Empty stack That’s pretty simple to understand. Now suppose again that we “push” a string with value “string1” to this empty stack. The stack now looks like this: Stack with one element That’s pretty simple to