I'm working on a small scientific course project related to circuit testing using continuous methods. The program would parse circuit definition files and then build an easily modifiable graph structure representing the circuit.Then certain modifications are done to that graph, and it is topologically sorted. After sorting, the graph is converted into a static structure that consists of a list of arrays, where every array corresponds to a certain topological sorting degree. After that, the circuit can be simulated easily as you can rely on the sorting order and process the model sequentially.
Now that is all nice and logical, but the two graphs I mentioned are custom data structures, which:
1)Are not built quite to the STL specifications (would be long and difficult for me anyway - graphs are way more complex than vectors and lists)
2)For the second graph, I assume it's not modifiable and use a vector of vectors or a list of vectors for speed.
3)The set of operations available for my graphs is limited and reflects the needs of my project.
4)The code is simple.
Now I'm just a 3rd year IT student, and after having done a course in Software Design and after reading some real life code, I wonder:
1)Can (or even may) the code be as simple?
2)Don't I violate any of the thousands of principles of Software Design with making assumptions about the data structures?
3)Should I really always conform to STL specifications for all the data structures I create in this and future projects?
This project uses C++.
Thank you for your attention! I'd appreciate a fundamental and theoretical answer to these questions, as well as an example of practical approach to this problem.