What is an API as well as How Does It Work?

What is an API as well as How Does It Work?
What is an API as well as How Does It Work?

What exactly is an API?

What is an API?
What is an API as well as How Does It Work?

API stands for Application Programming Interface. An API is a software intermediary that allows two applications to talk to each other. In other words, an API is a messenger that delivers your request to the provider that you’re requesting it from as well as then delivers the response back to you.

Functionalities of an API

An API defines functionalities that are independent of their respective implementations, which allows those implementations as well as definitions to vary without compromising each other. Therefore, a good API makes it easier to develop a program by providing the building blocks.

When developers create code, they don’t often start from scratch. Fundamental to developer productivity is how APIs make often repeated yet complex processes highly reusable with a little bit of code. The speed at that APIs enable developers to build out apps is crucial to the current pace of application development.

Developers are now much more productive than they were before since they had to write a lot of code from scratch. With an API they don’t have to reinvent the wheel every time they write a new program. Instead, they can focus on the unique proposition of their applications while outsourcing all of the commodity functionality to APIs.

The principle of API abstraction enables speed as well as agility

One of the chief advantages of APIs is that they allow the abstraction of functionality between one system as well as another. An API endpoint decouples the consuming application from the infrastructure that provides a service.

As long as the specification for what the service provider is delivering to the endpoint remains unchanged, the alterations to the infrastructure behind the endpoint should not be noticed by the applications that rely on that API. Therefore the service provider is given a great deal of flexibility when it comes to how its services are offered.

For example, if the infrastructure behind the API involves physical servers at a data center, the service provider can easily switch to virtual servers that run in the cloud.

If the software running on those servers such as credit card processing software is written in, say, Java running on an Oracle-based Java application server, the service provider can migrate that to Node.js (server-side Javascript) running on Windows Azure.

The ability of API-led connectivity to allow systems to change as easily as plugging a plug into a socket is key to the modern vision of enterprise IT. Gone are the days of messy point-to-point integrations for connecting enterprise solutions which take time and resources to maintain.

How do APIs work?

A real example of an API:

Imagine a waiter in a restaurant.  You, the customer, are sitting at the table with a menu of choices to order from, as well as the kitchen is the provider who will fulfill your order.

You need a link to communicate your order to the kitchen as well as then to deliver your food back to your table. It can’t be the chef because she’s cooking in the kitchen. You need something to connect the customer who’s ordering food as well as the chef who prepares it. That’s where the waiter or the API enters the picture.

The waiter takes your order, and delivers it to the kitchen, telling the kitchen what to do. It then delivers the response, in this case, the food, back to you. Moreover, if it’s designed correctly, hopefully, your order won’t crash.

How are APIs used in the real world?

Here’s a very common scenario

When booking a flight:

When you search for flights online, you have a menu of options to choose from. You choose a departure city as well as the date, a return city, and date, cabin class, as well as other variables like your meal, your seat, or baggage requests.

To book your flight, you need to interact with the airline’s website to access the airline’s database to see if any seats are available on those dates, as well as what the cost might be based on the date, flight time, route popularity, etc.

You need access to that information from the airline’s database, whether you’re interacting with it from the website or an online travel service that aggregates information from multiple airlines. Alternatively, you might be accessing the information from a mobile phone. In any case, you need to get the information, as well as so the application must interact with the airline’s API, giving it access to the airline’s data.

The API is the interface that, like your helpful waiter, runs as well as delivers the data from the application you’re using to the airline’s systems over the Internet. It also then takes the airline’s response to your request and delivers it right back to the travel application you’re using. Moreover, each step of the process, facilitates the interaction between the application and the airline’s systems – from seat selection to payment and booking.

APIs do the same for all interactions between applications, data, and devices. They allow the transmission of data from system to system, creating connectivity. APIs provide a standard way of accessing any application data, or device, whether it’s accessing cloud applications like Salesforce, or shopping from your mobile phone.

Different Types of APIs

There are numerous types of APIs. For example, you may have heard of Java APIs or interfaces within classes that let objects talk to each other in the Java programming language.

Along with program-centric APIs, there are also Web APIs such as the Simple Object Access Protocol (SOAP), Remote Procedure Call (RPC), and perhaps the most popular Representational State Transfer (REST).


What is an API?

APIs are mechanisms that enable two software components to communicate with each other using a set of definitions and protocols.

What is the best use of an API?

An API, short for Application Programming Interface, is a software-to-software interface. APIs provide a secure and standardized way for applications to work with each other and deliver the information or functionality requested without user intervention.

Why it is better to use native API?

Typically, the productivity enhancements that come from additional abstractions are only in the form of familiarity and the developer's resistance to learning a new API and framework.