A testing framework is a group of guidelines that support testers in building test cases and performing software testing effectively. It also provides robust tools and methods to simplify the testing process. By using a testing framework, you can increase the accuracy and performance of software testing to high levels. Do you want to learn more about testing frameworks? Of course! This blog covers the fundamentals of testing frameworks, types of automated testing frameworks, and their benefits in greater detail.
Let’s discover more!
We all know that testing plays a pivotal role in software development. This is because you can find bugs and other issues in the software before deploying them into a production environment. By doing so, you can improve the quality and accuracy of the software. In return, it enhances customer satisfaction as well as trust significantly.
We can perform software testing in two ways: manual and automated. Gone are the days of manual testing. It is simply because manual testing consumes more effort and time for testers. At the same time, automated testing simplifies the testing process and ensures the quick delivery of software products. This way, automated testing frameworks help to optimize software testing, reduce cost and time, and boost the performance of the testing.
Well! This blog discusses the basic concepts of automated testing frameworks, their types, pros and cons, and their benefits straightforwardly.
Are you ready to know more? Let’s move on to the blog.
What is Testing Framework - Table of Contents |
In its basic form, an automated testing framework is a set of guidelines with which you can perform software testing efficiently. These guidelines include many elements, such as coding standards, reusable modules, and libraries. It also includes managing test data, storing test results, etc.
Now, the question is whether you need to follow the guidelines for every software test or not.
It's simple! There is no such rule that you need to follow all the guidelines of a testing framework altogether while performing software testing. However, if you follow the guidelines, it will help to boost the performance of a testing process and ensure the delivery of quality products.
With a testing framework, you can add, modify, and delete test scripts as well as functions in a standard way. In other words, it provides a defined structure that supports building and performing automated testing.
A typical automated testing framework facilitates logical interaction between the elements mentioned above. In addition, it also provides a physical structure for testers to create test cases and execute them. The physical structure includes excellent tools and methods that simplify software testing. An automated testing framework provides scalability, reusability, reliability, easy maintenance, and many more.
If you want to enrich your career and become a professional in Automated Testing Frameworks, then enroll in "Automation Anywhere Training". This course will help you to achieve excellence in this domain. |
As mentioned earlier, automated testing frameworks simplify testing and improve software quality. Let’s explore the reasons below:
Know that there are six automated testing frameworks that you can use to test codes. The frameworks differ in their architecture and functionalities. Testers must choose the correct framework based on their needs by considering the factors such as reusability, cost, maintenance, etc.
The different types of automated testing frameworks can be seen in the below image
Next, we will discuss the frameworks one by one, along with their pros and cons in the way ahead.
This framework is also named the ‘Record and Playback’ framework. It is one of the simplest automated testing frameworks. You can test small applications using this framework. For example, you can test web applications’ user interfaces. Mainly, this framework allows recording every step, such as navigation, checkpoints, user inputs, etc., and playback them in the following tests. That’s why this framework is named ‘Record and Playback’. Besides, testing is performed in sequential order.
Pros
Cons
Related Article: Automation Anywhere Tutorial |
This framework allows breaking the entire source code base into pieces. The pieces of code are known as modules. Essentially, these modules are nothing but test cases. You can create test scripts for every module application and store them in the function library. After that, you can test the modules separately. Also, it is simple to combine the codes together to conduct more extensive tests based on the hierarchical method. In short, you can decompose the code base into modules, and at the same time, you can recombine them again for performing more extensive tests.
It is essential to note that this framework creates an abstraction layer that isolates the modules. Simply put, abstraction is the underlying concept of this framework.
Pros
Cons
This framework is known as the ‘Structured Scripting’ or 'Functional Decomposition' framework. This framework is similar to modular testing, but only similar tasks are grouped together. In other words, similar tasks are grouped by functions and stored in a shared library. Test scripts can call the functions from the library whenever they require it.
The wonderful thing about this framework is that it comes with high reusability. This is because functions are stored in a shared library. So they can be used by multiple applications at any time.
Pros
Cons
This framework is introduced to overcome the drawback of the modular framework. It means that test data is not hard-coded in this approach. In this framework, we can isolate test data and test scripts separately. In other words, we can separate ScriptLogic from the test data. No single data is embedded with test cases. This framework allows testing codes with multiple datasets. It eliminates the need to modify test scripts. We can store the test data in excel sheets, CSV files, text files, SQL tables, databases with JDBC drivers, ODBC sources, and so on. In this framework, test scripts access data externally consistently.
Pros
Cons
In a way, this framework is introduced to overcome the setbacks in a data-driven framework. It is also known as the ‘Table-driven testing’ framework. Mainly, it provides predefined actions and methods in the form of keywords. Keywords are usually stored in keyword tables. Examples of keywords are InputText, VerifyPropety, VerifyValue, and so on.
Moreover, keywords can be labeled as login, verifying, click, clicking, etc. Know that you can store keywords with their associated objects with the help of shared object repositories. Not only that, you can use these keywords in multiple scripts. You can use this framework for testing small applications.
Pros
Cons
A hybrid automation framework is yet another framework where we can combine one or more testing frameworks based on the software's complexity. This framework allows imbibing the pluses of other frameworks. Above all, you can use this framework across agile projects elaborately.
Pros
Cons
There are plenty of excellent benefits that you can achieve by using automated testing frameworks.
Let’s have a look at them below. With automated testing frameworks, you can:
To sum up, you must have walked through the different types of testing frameworks with their pluses and minuses. It is very crucial for testers to choose the correct framework to build efficient software. Also, they must choose the right automation tool that will best fit the chosen framework. Overall, automated testing frameworks simplify software testing as well as boost the efficiency of software.
Stay updated with our newsletter, packed with Tutorials, Interview Questions, How-to's, Tips & Tricks, Latest Trends & Updates, and more ➤ Straight to your inbox!
Name | Dates | |
---|---|---|
Automation Anywhere Training | Aug 05 to Aug 20 | |
Automation Anywhere Training | Aug 08 to Aug 23 | |
Automation Anywhere Training | Aug 12 to Aug 27 | |
Automation Anywhere Training | Aug 15 to Aug 30 |
Madhuri is a Senior Content Creator at MindMajix. She has written about a range of different topics on various technologies, which include, Splunk, Tensorflow, Selenium, and CEH. She spends most of her time researching on technology, and startups. Connect with her via LinkedIn and Twitter .
1 /14
Copyright © 2013 - 2023 MindMajix Technologies