Practical Aspects of Software Design

• 26 hrs lectures
• 26 hrs projects

• 30 pts mid-term test (written part)
• 70 pts projects

Students will get acquainted with modern approaches to software development, having successfully completed the course, students will be able to take part in teams developing shared code, will know the tools helping the development of efficient and well-documented code as well as applications better reflecting the users needs.
Students will learn to work on projects. They will also improve their knowledge on modern development and documenting tools.

To understand the process of software development in teams and to get acquaint with real applications that help creating and documenting component-based projects, to learn how to easily prototype graphical user interfaces, what are preconditions of successful free software and usability measurement.

The course IVS was established as a preparatory course for student collaboration on research at the FIT. It provides students with insight into the entire process of SW development from planning, design, implementation and testing to final product deployment in the customers company. The graduate will know what each stage of SW development involves and what tools are used in it, which will allows him / her to be better oriented when choosing his / her specialization and other elective courses. An essential part of the course is the preparation of students for teamwork on SW development and familiarization with version control systems, as these are basic knowledge and skills for developing any larger SW.

• Introduction to Software Engineering (IUS)
• Introduction to Programming Systems (IZP)

• Ken Schwaber and Mike Beedle Agile Software Development with Scrum Addision-Wesley, 2002
• BATH, Graham a Judy MCKAY. The software test engineer's handbook. Santa Barbara: Rocky Nook, 2008, xviii, 397 s. ISBN 978-1-933952-24-6.
• S. A. Babkin: The Practice of Parallel Programming. Create Space, 2010. https://www.createspace.com/3438465
• STEPHENS, Matt a Doug, ROSENBERG. Design Driven Testing. 2010. ISBN 978-1-4302-2944-5.
• Dustin Boswell, Trevor Foucher: The Art of Readable Code. O'Reily, 2010. https://www.oreilly.com/library/view/the-art-of/9781449318482/
• Scott Chacon: Pro Git, 2009 http://knihy.nic.cz/files/nic/edice/scott_chacon_pro_git.pdf
• Fowler, M.: Refactoring: Improving the Design of Existing Code (2nd Edition), 2018.
• J. Pérez López, L. Ribas i Xirgo: Introduction to Software development, 2010. http://ftacademy.org/sites/ftacademy.org/files/materials/fta-m7-fs_development.pdf
• Baumann, H.; Grässle, P.; Baumann, P.: UML 2.0 in Action: A project-based tutorial. Birmingham: Packt Publishing, Prosinec 2009, ISBN 1-904811-55-8. Download

1. Introduction, practical rules for writing of sustainable code and effective usage of IDE
2. Software testing, TDD (Test-Driven Development) and its usage in team development
3. Team work, communication, team data sharing, basics of project design and planning
4. Distributed version contol, GIT
5. Documentation types, system documentation generated from the code, Component-based development and cross-platform libraries
6. Code assembling, Make, Cmake a Qmake.
7. User interfaces
8. Issue tracking, debugging, bugtracking and QA
9. Mid-term test
10. Program deployment
11. Algorithm optimization, paralelization and profiling
12. Programming languages and paradigms, SWIG and integration of legacy code
13. Invited experts from companies

1. Test definition (18 points)
2. Project focused to team development (52 points)

• Mid-term test (30 points)
• Projects (70 points in total)

Exam prerequisites:
At least 50 points.

At least 50 points.