Data Structure and Types

What are Data Structures?

Data structure is a storage that is used to store and organize data. It is a way of arranging data on a computer so that it can be accessed and updated efficiently.

Depending on your requirement and project, it is important to choose the right data structure for your project. For example, if you want to store data sequentially in the memory, then you can go for the Array data structure.

Storing data sequentially in the array data structure
Array data Structure Representation

Note: Data structure and data types are slightly different. Data structure is the collection of data types arranged in a specific order.


Types of Data Structure

Basically, data structures are divided into two categories:

  • Linear data structure
  • Non-linear data structure

Let's learn about each type in detail.


Linear data structures

In linear data structures, the elements are arranged in sequence one after the other. Since elements are arranged in particular order, they are easy to implement.

However, when the complexity of the program increases, the linear data structures might not be the best choice because of operational complexities.

Popular linear data structures are:

1. Array Data Structure

In an array, elements in memory are arranged in continuous memory. All the elements of an array are of the same type. And, the type of elements that can be stored in the form of arrays is determined by the programming language.

To learn more, visit Java Array.

An array
An array with each element represented by an index

2. Stack Data Structure

In stack data structure, elements are stored in the LIFO principle. That is, the last element stored in a stack will be removed first.

It works just like a pile of plates where the last plate kept on the pile will be removed first. To learn more, visit Stack Data Structure.

stack
In a stack, operations can be perform only from one end (top here).

3. Queue Data Structure

Unlike stack, the queue data structure works in the FIFO principle where first element stored in the queue will be removed first.

It works just like a queue of people in the ticket counter where first person on the queue will get the ticket first. To learn more, visit Queue Data Structure.
 

queue
In a queue, addition and removal are performed from separate ends.

4. Linked List Data Structure

In linked list data structure, data elements are connected through a series of nodes. And, each node contains the data items and address to the next node.

To learn more, visit Linked List Data Structure.
 

A linked list
A linked list

Non linear data structures

Unlike linear data structures, elements in non-linear data structures are not in any sequence. Instead they are arranged in a hierarchical manner where one element will be connected to one or more elements.

Non-linear data structures are further divided into graph and tree based data structures.

1. Graph Data Structure

In graph data structure, each node is called vertex and each vertex is connected to other vertices through edges.

To learn more, visit Graph Data Structure.

Graph data structure example
Graph data structure example

Popular Graph Based Data Structures:

2. Trees Data Structure

Similar to a graph, a tree is also a collection of vertices and edges. However, in tree data structure, there can only be one edge between two vertices.

To learn more, visit Tree Data Structure.

Tree data structure example
Tree data structure example

Popular Tree based Data Structure


Linear Vs Non-linear Data Structures

Now that we know about linear and non-linear data structures, let's see the major differences between them.

Linear Data Structures Non Linear Data Structures
The data items are arranged in sequential order, one after the other. The data items are arranged in non-sequential order (hierarchical manner).
All the items are present on the single layer. The data items are present at different layers.
It can be traversed on a single run. That is, if we start from the first element, we can traverse all the elements sequentially in a single pass. It requires multiple runs. That is, if we start from the first element it might not be possible to traverse all the elements in a single pass.
The memory utilization is not efficient. Different structures utilize memory in different efficient ways depending on the need.
The time complexity increase with the data size. Time complexity remains the same.
Example: Arrays, Stack, Queue Example: Tree, Graph, Map

Why Data Structure?

Knowledge about data structures help you understand the working of each data structure. And, based on that you can select the right data structures for your project.

This helps you write memory and time efficient code.

To learn more about the importance of data structure, visit Why Learn Data Structure?

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