In my spare time, I've been taking code I've written for various purposes and appropriating them into other languages just to have a look at what's out there. Currently I'm taking a genetic programming graph colouring algorithm, originally written in Java, and trying to coerce it into C++.
The arbitrary data structure I'm using for the task has a few classes. In Java, it wasn't so much of an issue for me because I had been exposed to it for a while. The graph structure was only created once, and a
Colouring was assigned to that. The
Colouring (specifically finding a mostly optimal one) was the real point of the code. I could have a
Graph class with inner classes like
Edge, for instance, or I could have a package
graph with classes
The first case above might lend itself well to my idea of C++. A main *.cpp file might have some classes
Edge, defined in it. But this seems to really be missing the point of C++, from what I can tell. I'm just taking what I wrote in Java and forcing it into C++, adding destructors where appropriate and turning object references to pointers. I'm not yet thinking in C++. Do these classes bear separating into separate *.cpp files? Should they be separated, and then compiled as a library to use in the main program? What I really need are some good resources or contrived examples (or even rules of thumb) to say, in C++ programming, what are the different options that exist and when is it a good idea to thinking about one over the other?
EDIT: I've been asked by @Pawel Zubrycki to provide some example code. I'm not going to do this, because each component is fairly trivial - It generally has a reference to the next thing, and some get/set methods. I will, however, describe it.
It's essentially an incidence list. There is some unnecessary use of classes termed
...Pointer - they were a product of a literal translation of a diagram first used to explain incidence lists to me.
There is a container class,
VertexList, which contains a head element
VertexPointer, and methods to add new
VertexPointer objects (Adding it to the graph, but not connecting it to any other nodes, allowing searches to search non-connected graphs), naive search for indices on
Vertex objects, etc. Every
VertexPointer has a
Vertex object, as well as a
VertexPointer next;, and all those handy
hasNext() methods that you might expect. A
Vertex also has an associated
The same is duplicated for
Edge, except that an
Edge is associated with two
EdgeList, having a
Connection head; and all those handy methods you might expect, like
Connection has an
Edge associated with it, as well as some
This allows us to easily get the connected components of any one point in the graph, and have an arbitrary number of connections.
It seems pretty over-the-top complicated, but the same functionality could be duplicated with some
Vertex objects, a
Edge objects, and a number of
Connection objects. The
Vertex Objects allows us to iterate over all Vertices for exhaustive searches on Vertices, and the same applies for edges. The
LinkedList objects of
Connection allow us to quickly traverse to any connected Vertices and to arbitrarily add or connections in the graph. This step up in complexity was added to deal with the complexity of evaluating a certain colouring of a graph (weighted edges, quick traversal of local subgraphs, etc.)