Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am beginning work with a small group on the design of a complex control system for some scientific instrumentation. This project will include elements of data acquisition from hardware, control of hardware, scientific data processing, database access, feedback controllers, user interfaces, etc. We are a team of physicists with extensive programming experience in multiple languages and styles but with little experience in software engineering. I would like this to be a well organized project that will be intelligible to a newcomer to work with and maintain many years down the road.

I have some kind of MVC architecture in mind but I am sure that there are other paradigms out there that are better suited for this type of application.

Can anyone offer advice on what software architecture to use and what resources we should refer to in planning our project? Thanks.

(Sorry about the lack of project details but I wanted to keep my question brief. I can add more details if requested.)

share|improve this question

1 Answer 1

up vote 1 down vote accepted

You're on the right track with MVC - you need separation of concerns. However, I think you have more than 3 concerns. Keep everything in it's own isolated module. One module to handle database access, another to handle hardware control, another data aquisition, another for data processing, feedback controllers, etc.

If you have a well defined interface for each of these modules you can easily write simple unit tests where each module is isolated (other modules that are accessed are replaced with mock objects) so that every possible corner case can be well tested and debugged. Then groups of modules can be assembled and have integration tests written against them.

There are several advantages to having a complete set of unit tests. (1) Refactoring a module becomes simple because you can test everything to make sure nothing broke. (2) Going through the paces of writing the tests causes you to organize your code in a cleaner way. (3) We all know that just because code compiles, doesn't mean it works. (4) If the software is going to be highly distributed like some scientific applications are, it can be extremely difficult to track bugs in a distributed system. By unit testing each module separately you eliminate bugs before they go into the complex system.

This design is language agnostic. Just about any language worth developing in has at least one unit testing framework and one mocking framework. This doesn't even require object oriented programming - this can be done in any procedural or functional language.

share|improve this answer
1  
Thanks. Good suggestion on the unit tests and mock objects. The challenge here is to develop the interface before writing and testing any code so that unit tests do not have to be rewritten all the time. I find that when planning a project everyone gets excited about the end result and there is too much 'top down' thinking. What we really need to do is start at the bottom by testing individual modules thoroughly before we even think about stringing together an integrated GUI. –  Mike Feb 6 '11 at 4:41

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.