Common Mistakes in Software Testing

The blog post, “The 3 Biggest Software Testing Mistakes” from Daniel Knott focused on highlighting vital mistakes that software testing groups frequently come upon in their testing strategies. I chose this blog post because as we continue to learn different software testing strategies in class I think it was important to highlight some mistakes that could be made as a tester so we can avoid these in the future. 

 The first mistake that Knott highlighted was the mistake of not asking enough questions. When you are working as a tester your first job should be to ask as many questions during the development phase of the product as possible. This will allow you to verify that the product will work as intended for the customer. These questions should be highlighting product features, limitations, etc. The second mistake is trying to automate everything. Automation if done right can be very helpful however there are scenarios where automation can do more harm than good. Knott says that many teams mistakenly aim to automate everything, often driven by those unfamiliar with automation’s true benefits. Some parts of the code that are still in development, may not be ready for automation, while other areas will require detailed quality checks that automation cannot provide. Due to this, a risk assessment and informed questioning should precede test automation while working. Once suitable areas for automation are identified, decisions on the level of automated checks should be made by the team.The third mistake in software testing is reusing the same test data repeatedly. Software testing heavily relies on data such as text, images, or voice, and system configurations. Reusing test data compromises its integrity. The system’s state or configuration may change between tests which could affect results. To effectively test an application, the development team must define and generate appropriate test data. Generating test data can be complex, depending on the system’s intricacy and technologies involved. Ideally, scripts can create test data for specific tests, allowing for deletion or reset afterward. The conclusion of the blog post has Knott describing how mistakes can be good as they are a part of growing as a software tester. The best thing we can do is to be transparent about our mistakes to allow for a culture of learning.

After reading this blog post, I believe that I am now more confident and informed about how a software tester should go about testing strategies. Being able to identify common mistakes will be beneficial so I can avoid doing those mistakes in my own work. I found it interesting the fine line between automation since it can be both beneficial and harmful depending on just what you are working on. This is why as I read it is best to be left to a team decision as automation has its own list of pros and cons.

https://shiftsync.tricentis.com/testing-strategies-methodologies-42/the-3-biggest-software-testing-mistakes-95

From the blog CS@Worcester – Giovanni Casiano – Software Development by Giovanni Casiano and used with permission of the author. All other rights reserved by the author.

Sprint 2 Retrospective

After finishing our second sprint I believe it went very well. Our team did a great job of communicating, time management and ensuring everyone’s ideas were heard. We also made sure to ask each other questions if we were stuck on an issue as well as ask anyone if they needed any help with their issue if they were having any problems. I believe the only problem we had was reviewing the issues, we either got a little sidetracked or were waiting on a response to a question we had about the issue so it kind of prevented the reviewer from checking on it. As a group of 5, we needed a weight total of 30, we managed to complete all of our issues. Since the last sprint, I believe we made a lot of progress as a team and managed to get through this sprint without a lot of issues.

As a team, I believe we made a lot of progress in this sprint and didn’t have a lot of issues to work on. We made sure to communicate with each other about how everyone’s progress was going on with their issue and if they needed any help with anything. The reason why we managed to get through this sprint is because of our communication and teamwork. As a team an improvement that we can make is our reviewing, we did have a couple of issues left in the needs review column that just needed to be checked but we kind of delayed that. I believe that was our only problem this sprint since for most of the issues we worked as a group and managed to get it done in one meeting. If we just made sure to stay on top of any work that needs review I feel like our sprint would’ve been done sooner than later.

As an Individual I believe I made a lot of improvements since the last sprint. I made sure that the work was even spread out between me and the team. The issues I worked on were Get the InventorySystem General test and build working and Verifying GuestInfosystem/Documentation. I made sure that the guestinfo system documentation had the right extensions, linters and that the pipelines were working. The only problem I ended up having was with the inventory system general test and build working. I just ended up asking Professor Wurst what I should do with them since by looking at other repos the general didn’t have a test or build so I just ended up disabling those pipelines and everything ran smoothly. Next sprint I plan on working on my issues and making sure that nothing sits in needs review so my team members don’t have to do more work than they need to and make sure that I’m contributing as well. I also plan on making sure to get any questions I have asked as soon as possible so that the issue can be solved sooner rather than later. 

From the blog CS@Worcester – Kaylene Noel's Blog by Kaylene Noel and used with permission of the author. All other rights reserved by the author.

Object Oriented Testing

For this week’s blog post, I decided to discuss the article “Object-oriented Testing in Software Testing” by Mitali Varatiya. I chose this article because it compliments the object oriented testing topic in the syllabus. This article discusses what object oriented testing is, how you can develop test cases with object oriented testing, how to implement object oriented testing, different techniques with implementing object oriented testing, and challenges associated with the implementation of object oriented testing.

The author first discusses how object oriented testing can be done at multiple levels of a program, for example the algorithmic, class, cluster, and system levels. “Object Oriented testing can be performed at different levels to detect the issues. At the algorithmic level, a single module of every class should be tested. As discussed earlier, testing of classes is the main concern of the Object Oriented program. Every class gets tested as an individual entity at the class level. Generally, programmers who are creating the classes are involved in testing. Test cases for Object-Oriented Testing in Software Testing can be constructed based on the requirement specifications, programming language, and models.” The author then goes on to discuss how, at the class level, testing focuses on the integration of individual classes and their interactions with other classes in the program. “Once class-level testing is done, Cluster level testing will be performed. Cluster-level testing is the integration of individual classes. The main purpose of doing integration testing is to verify the interconnection between classes and how well they perform interclass interactions.” The author also discusses some ways in which object oriented test cases can be developed.

The author states that conventional methods of developing test cases are sufficient for creating object oriented test cases, but there are some features that may be helpful with object oriented testing that might be looked over when using more typical techniques on their own. “The following points should be considered while creating test cases for object-oriented environments. Which class is going to be tested should be mentioned properly within the test cases. What is the purpose of using particular test cases? What external pre-condition needs to be conducted while performing the test case? All the states should be specified for testing.” The author then discusses some of the challenges with implementing object oriented testing.

Some challenges that are associated with implementing object oriented testing as described by the author are the impossibility of dynamic testing, the necessity of different types of testing to be implemented to properly test the program, and the difficulties associated with the implementation of testing for inheritance in object oriented programs.

Article: https://www.scaler.com/topics/software-testing/object-oriented-testing-in-software-testing/

From the blog CS@Worcester – P. McManus Worcester State CS Blog by patrickmcmanus1 and used with permission of the author. All other rights reserved by the author.

Sprint 2 Retrospective

Introduction

As we conclude Sprint 2, it’s essential to take stock of our journey, examining both our successes and the challenges we’ve encountered along the way. This sprint, our primary focus was on scaling up productivity and initiating the UI development process. Despite its longer duration compared to the previous sprint, Sprint 2 felt back-heavy due to delays in commencing frontend work until we obtained access to the new template.

Challenges Faced and Lessons Learned

Both sprints presented us with unique challenges, contributing to our team’s growth and development. One significant challenge in Sprint 2 was the unexpected complexity encountered while coding a UI component. Initially deemed a simple task, unforeseen changes in the source code necessitated extensive adjustments, resulting in delays and frustration. However, this challenge provided valuable lessons in flexibility and adaptability. By grappling with the intricacies of the component and adapting to evolving requirements, we honed our problem-solving skills and gained a deeper understanding of UI development.

Another challenge stemmed from the weight of certain child issues, which had a more substantial impact on our workflow than initially anticipated. This highlighted the importance of thorough planning and assessment when breaking down tasks and allocating resources. Moving forward, we recognize the need for a more nuanced approach to issue prioritization to ensure each task receives the appropriate attention and resources.

Team Dynamics and Communication

Effective communication emerged as a cornerstone of our approach throughout both sprints. We found that tackling problems collectively as a group significantly eased the resolution process. Whether through online discussions or face-to-face meetings, open dialogue and transparent communication channels were maintained, ensuring alignment and informed decision-making. We intend to prioritize effective communication, proactive problem-solving, and meticulous planning in future endeavors.

Strategies for Improvement

Team Improvement

  1. Keep a consistent schedule: In hopes of avoiding a repeat of the last sprint where everything was stacked at the back of the sprint, it would be beneficial to manage our time better as a group with a more consistent meeting time.
  2. Division of Labor: We continue to ensure that one person does not get stacked with too much to do while others get left with little to work on.

Personal Improvement

  1. Frequent Check-Ins: In realizing the significance of team alignment, I commit to checking in more frequently with my team members. By maintaining regular communication and seeking feedback, I aim to ensure that our efforts remain aligned towards our common objectives throughout each sprint.

Moving Forward

As we look ahead, we are committed to leveraging the lessons learned from Sprint 2 to inform our approach in subsequent iterations. Documenting challenges, solutions, and key takeaways in a “lessons learned” repository will serve as a valuable resource for future sprints, enabling us to anticipate and mitigate potential obstacles more effectively. With a shared commitment to continuous improvement and a supportive team environment, we are confident in our ability to overcome challenges and achieve our goals collectively.

Links to Activity on GitLab

From the blog CS@Worcester – CS: Start to Finish by mrjfatal and used with permission of the author. All other rights reserved by the author.

share your knowledge

As my final Apprenticeship Pattern blog post for my capstone course, I found it fitting to write about the “Share What You Learn” pattern. The idea is fairly simple, if you are gaining knowledge on a topic, you should be able to share that knowledge with others effectively to foster mutual growth, which results in everyone building on their ‘craftsmanship,’ which further results in better products from everyone involved.

We don’t work in a vacuum by ourselves, and so communication is incredibly important. We will always be working on teams of software developers, and even in our personal projects, we are working with information that we are informed about from the entirety of the software development ‘community.’ As such, learning to communicate your ideas and share your knowledge is always great for your team.

Different people have different specializations, and in software development, we have our own specializations and interests within this field, and it is beneficial to not only contribute your expertise to the project you are working on with your team, but also share things about that expertise to get everyone on the same board with what you are doing, and perhaps foster growth in them as people and the project as a whole.

The intersting thing is that you can also learn from others’ specializations and expertise when you are sharing your own, and you can also build on your knowledge from ideas and suggestions that others may make when hearing your ideas. It’s a bounce back and forth.

I think everyone has probably experienced this to some extent, even in small circumstances. As the authors mention, simply knowing one small thing more than another person allows you the opportunity to inform that person about your piece of knowledge, and that fosters growth, no matter how small. I know that, for me, I’ve had multiple people ask me about how to do things when they need reminders or help with assignments or issues that they run into at work, and in that situation, it is beneficial to know how to communicate solutions, suggestions and feedback in a way where everyone stands to gain.

From the blog CS@Worcester – V's CompSCi Blog by V and used with permission of the author. All other rights reserved by the author.

Understanding Test-Driven Development (TDD)

In a recent episode of the Python Test Podcast, titled “TDD: Don’t Be Afraid of Test-Driven Development”, developer Chris May shared his journey with Test-Driven Development (TDD).  If you’re a programmer interested in improving your code quality and development process, this blog post offers a summary of the discussion and explores why TDD is a powerful technique.

What is Test-Driven Development?

TDD turns the traditional coding process on its head. Instead of writing a large chunk of code and hoping it works, you start by defining the precise behavior you expect from a piece of code. These expectations are written as tests, and they will initially fail because the code itself doesn’t exist yet.

Key Concepts and Benefits of TDD

The core of TDD is the “Red-Green-Refactor” cycle:

  1. Red: Write a failing test that reflects a desired feature or behavior.
  2. Green: Write the simplest possible code to make the test pass.
  3. Refactor: Improve the code’s design and readability while ensuring all tests continue to pass.

This approach offers several key benefits:

  • Improved Code Design: By focusing on functionality first, TDD encourages you to create well-structured, modular code.
  • Less Debugging: Catching errors as early as possible through tests greatly reduces time spent troubleshooting complex issues later on.
  • Increased Confidence: A comprehensive test suite provides a safety net, allowing you to make code changes with less fear of breaking existing functionality.
  • Living Documentation: Tests serve as a clear explanation of how your code is intended to work.

Overcoming Challenges with TDD

As Chris May discussed in the podcast, TDD requires a change in how you think about coding. Here are some common concerns and how to address them:

  • “It feels too slow”: It’s true that initially, TDD might seem to slow you down. However, the time saved from reduced debugging and a more solid codebase easily makes up for it in the long run.
  • “I don’t know how to write tests”: Learning to write effective tests is a skill in itself. Start simple and leverage online tutorials and resources specific to your programming language.

Resources for Learning TDD

  • Books:
    • “Test-Driven Development by Example” by Kent Beck
    • “Growing Object-Oriented Software, Guided by Tests” by Steve Freeman and Nat Pryce
  • Online Tutorials: Explore the numerous tutorials and guides tailored to different programming languages.

Conclusion

While it may have a learning curve, Test-Driven Development offers a structured and rewarding approach to software development. By embracing TDD, you can write cleaner, more maintainable, and ultimately more reliable code.

Podcast link: https://podcast.pythontest.com/episodes/76-tdd-don-t-be-afraid-of-test-driven-development-chris-may

From the blog CS@Worcester – Site Title by Iman Kondakciu and used with permission of the author. All other rights reserved by the author.

Elevating Code Reviews

A Path to Enhanced Development

Code reviews are an essential practice in software development, pivotal not only for error detection but also for fostering an environment of continuous learning and collaboration. When executed effectively, they can significantly enhance both individual skills and organizational efficiency.

The Foundation of Effective Code Reviews

An effective review scrutinizes how the proposed changes integrate with the existing codebase, focusing on clarity, correctness, and adherence to established coding practices. Reviewers should critically evaluate the necessity and implementation of the changes, suggesting more granular modifications if the changes are too expansive.

The Art of Communication

The tone in which feedback is delivered can dramatically influence team dynamics. Constructive feedback should be presented through open-ended questions and thoughtful suggestions rather than direct criticism. This approach encourages a collaborative atmosphere and reduces the likelihood of defensive responses. It is essential to recognize the efforts of developers and maintain an empathetic and supportive tone throughout the review process.

Decision Making in Reviews

The decision to approve changes, request modifications, or leave comments unresolved should be clearly communicated. Reviews should be flexible, allowing for follow-up changes when necessary, with reviewers making themselves available for quick re-assessments to accommodate urgent updates.

From Written Reviews to Direct Conversations

When extensive feedback from a review indicates potential misunderstandings, switching from written comments to direct conversations can be beneficial. This transition can help clarify issues more effectively and expedite the review process, especially in cases of complex or contentious changes.

Navigating Challenges in Remote Reviews

Remote and asynchronous reviews present unique challenges, particularly when reviewers are in different time zones. To mitigate these challenges, it’s advantageous to schedule discussions during overlapping working hours or to utilize video calls, enhancing clarity and collaboration.

Cultivating a Supportive Review Culture

Organizations should strive to create a culture that values thorough and empathetic code reviews, recognizing them as crucial to the development process. Continuous improvement in review practices should be encouraged, and engineers should feel empowered to both contribute to and learn from each review session.

By prioritizing effective communication, thoughtful feedback, and continuous improvement, organizations can make code reviews a cornerstone of development excellence, leading to higher quality software and more productive teams.

Integrating Newcomers through Code Reviews

For new team members, adapting to a new codebase and review process can be daunting. A supportive review culture is crucial in easing this transition. Experienced reviewers should use the initial code reviews to not only evaluate the technical aspects but also to mentor and guide newcomers. By explaining alternative approaches, pointing to coding guidelines, and maintaining a positive tone, reviewers can help new engineers integrate effectively while maintaining high standards. This practice ensures that new developers feel welcomed and supported as they navigate their initial contributions to the team.

Based on this blog link: https://stackoverflow.blog/2019/09/30/how-to-make-good-code-reviews-better/

From the blog CS@Worcester – Coding by asejdi and used with permission of the author. All other rights reserved by the author.

Sprint 2 Retrospective Blog

As we wrap up our second sprint, it’s time to pause, reflect, and glean insights from the journey we’ve undertaken together. Sprint 2 has been a period of significant learning, characterized by both triumphs and obstacles that have shaped our team dynamics and individual growth. In this retrospective, we’ll delve into the challenges we faced, the lessons we learned, and the strategies we’ll implement moving forward.

One of the pivotal challenges we encountered during this sprint was the coding of a UI component. Initially perceived as a straightforward task, it quickly evolved into a complex endeavor due to unforeseen changes in the source. These alterations necessitated extensive adjustments to our initial plans, leading to delays and frustration. However, amidst the challenges, we discovered an opportunity for growth. By grappling with the intricacies of the component and adapting to evolving requirements, we honed our problem-solving skills and gained a deeper understanding of UI development. This experience underscored the importance of flexibility and adaptability in the face of unforeseen circumstances, emphasizing the need to approach tasks with an open mind and a willingness to iterate and refine our approach.

Another significant aspect that influenced our sprint was the weight of certain child issues. What initially appeared as minor tasks turned out to have a more substantial impact on our workflow than anticipated. This discrepancy highlighted the importance of thorough planning and assessment when breaking down tasks and allocating resources. Moving forward, we recognize the need for a more nuanced approach to issue prioritization, ensuring that each task receives the appropriate level of attention and resources commensurate with its importance. By fostering a culture of careful planning and strategic resource allocation, we aim to mitigate the risk of unexpected bottlenecks and delays in future sprints.

Despite the challenges encountered, sprint 2 has been instrumental in fostering our team’s growth and development. We’ve had the opportunity to enhance our problem-solving skills, adapt to changing circumstances, and refine our communication and collaboration strategies. Effective communication emerged as a cornerstone of our approach, enabling us to navigate challenges and coordinate efforts seamlessly. Whether through online discussions or face-to-face meetings, we remained committed to fostering open dialogue and transparent communication channels, ensuring that everyone remained aligned and informed throughout the sprint.

Looking ahead, we recognize the importance of carrying forward the lessons learned from sprint 2. We are committed to prioritizing effective communication, proactive problem-solving, and meticulous planning to ensure the success of future endeavors. Additionally, we plan to leverage our experiences from this sprint to inform our approach in subsequent iterations. By documenting our challenges, solutions, and key takeaways in a “lessons learned” repository, we aim to create a knowledge base that will serve as a valuable resource for future sprints, enabling us to anticipate and mitigate potential obstacles more effectively.

In conclusion, sprint 2 has been a journey of growth, resilience, and collaboration. While we encountered our fair share of challenges along the way, each obstacle served as an opportunity for learning and development. Armed with newfound insights and a renewed sense of determination, we look forward to tackling the challenges that lie ahead and achieving our goals as a team. With a shared commitment to continuous improvement and a supportive team environment, we are confident in our ability to overcome any obstacle and emerge stronger than before.

Links to issues covered:

Review GUI mockup
https://gitlab.com/LibreFoodPantry/client-solutions/theas-pantry/inventorysystem/checkoutguestfrontend/-/issues/45

Coding new UI and fixing gitpod implementation
https://gitlab.com/LibreFoodPantry/client-solutions/theas-pantry/inventorysystem/checkoutguestfrontend/-/issues/43

From the blog CS@Worcester – Kadriu's Blog by Arber Kadriu and used with permission of the author. All other rights reserved by the author.

SOFTWARE TECHNICAL REVIEW.

Software technical review is a systematic examination of software artifacts, such as source code, design documents, requirements specifications, and test plans, by a team of peers or experts. The primary objective is to identify defects, inconsistencies, inefficiencies, and potential improvements early in the development lifecycle. Some types of software technical review include code review. It involves a thorough examination of source code by peers to ensure coding standards are met, to identify buys and to improve code readability. Another type is design review. It focuses on evaluating the software architecture and design documents to ensure they meet the project’s requirements, are scalable, maintainable, and align with best practices and architectural principles. Requirements review. It aims to validate the completeness, correctness, and clarity of the project requirements, ensuring they accurately represent the stakeholders’ needs and are feasible to implement. The last one is test plan review. It examines the test plans and strategies to verify that they cover all the functional and non-functional requirements and provide sufficient test coverage.

Importance of doing software technical reviews include bug detection and prevention. Software technical review helps identify defects, inconsistencies, and potential issues early in the development process, reducing the likelihood of bugs and improving software quality. Knowledge sharing and collaboration is also important. By involving multiple team members in the review process, knowledge sharing, and collaboration are promoted, leading to improved understanding of the codebase, better solutions, and fostering a culture of learning and improvement. Code quality and consistency. Through code reviews, developers can ensure that the codebase adheres to coding standards, best practices, and design principles, resulting in better code quality, readability, and maintainability. Some of the impacts of software reviews on industries include 51% of young adults searched on the internet daily as opposed to weekly or monthly. 52% of young adults researched online reviews, 41% of young adults preferred online reviews to personal suggestions, and on average, readers read ten reviews for a company or software before trusting it. The top reasons for writing an effective software review is to create reviews with quality content. Readers turn on reviewers from the moment that they feel their opinions can no longer be trusted. It creates a negative impact on the industry, especially when it comes to decent products. The reason I chose this article is it goes into depth about software reviews and why they are used in the industry. It helps improve the product features and to also check for bugs.

References.

Writing An Effective Software Review

From the blog CS@Worcester – Site Title by lynnnsubuga and used with permission of the author. All other rights reserved by the author.

Sprint #2 Retrospective

What Worked Well:

Sprint #2 was another productive learning experience for our team. We were able to continue building upon the momentum gained from Sprint #1 and were able to achieve commendable progress. In this sprint, we were tasked with completing eight different issues to reach a total issue weight of 30. We crushed this number, completing all eight of our issues on our issue board before the end of the sprint. Something worth noting was our familiarity with the project, what tools we needed, and the process. When comparing last sprint to this one, we found ourselves navigating through GitLab and GitPod more efficiently without any major issues. This resulted in a much smoother workflow. Additionally, I thought that our communication throughout the Sprint remained a cornerstone of our success. We stood up to date with scheduled meetings through Discord and in-person, allowing us to touch on some points, any updates, problems, discussions, and allowed for collaborative problem-solving. This consistent communication fostered a sense of cohesion within the team and ensured that every team member stayed aligned towards completing our tasks. I also found our workflow to be great. We completed some issues together and some individually, but as we finished one thing no one was hesitant to pick up another issue, help someone out, or review work. In regards to what didn’t work well, I don’t have much. Sprint #1 was a learning process for the entire team and once we understood everything, how to time manage our work, and how everything functions in the system, we brought what we learned into Sprint #2. We were able to complete tasks in a very timely manner while also knowing exactly what’s happening in the system and how to correct any issues.

Improvements As A Team:

We made some drastic improvements from the previous sprint in regards to how we took on work, the time we worked on it, our review process, and much more. Although I really liked the progress our team made throughout this sprint I believe one possible area for improvement could potentially be commenting or adding notes for work being completed. As stated, some tasks we completed individually. With this being said, when having other individuals of the team review work, it can be a little challenging to actually see what was changed, added, or the thought process behind someone’s work. By adding some comments directly to issues or connected to merge requests, it allows for both reviewers and anyone going through the work to easily understand what was completed, added, or needs to still be done. A simple message such as, fixed linter errors or solved merge conflicts can go a long way.

Improvements As An Individual:

During Sprint #2, I was able to complete one issue individually and two issues with my team. My first issue was Get Inventory Backend Test Working in InventoryBackend. In Sprint #1, we had some issues with the Inventory System test pipeline. I wanted to really get that testing pipeline to work to continue progressing the project forward. This issue involved me creating a test-runner file, along with an automated_testing_docker-compose.yaml file to integrate into the project. I also communicated with other groups for what they were completing to then integrate our work together and have the testing pipeline run and pass. My second and third issues were completed with my team. This being Verifying that all Thea’s Pantry projects have the correct extensions, linters, and pipeline stages in the GuestInfoBackend, and Verifying that all Thea’s Pantry projects have the correct extensions, linters, and pipeline stages in the GuestInfoAPI. These issues involved adding and enabling the different linters in our system and testing their respective pipelines to ensure they passed. If they didn’t pass, we needed to go into their specific files to make changes and correct the issues. In regards to improvements as an individual, I’d like to see myself become more of a team player for our last sprint. Sometimes I tend to get so focused on fixing and completing one issue that I forget to check in with the needs of the rest of the team. For me, this could be jumping in to help someone that’s stuck on a specific issue, reviewing the team’s work and providing feedback, and even voicing my thoughts, interests, or opinions more to my team. By doing so, I believe it’ll help me grow as an individual and a teammate, and help me tremendously with my professional career.

From the blog CS@Worcester – Conner Moniz Blog by connermoniz1 and used with permission of the author. All other rights reserved by the author.