It's all abstract. As such, I'll describe how I'm doing graphs in my android game. Ultimately you can define it anyway you want, but here's my implementation.
A little background, the game is a tower defense and the graph represents paths that the enemies walk on as they make their way from a source to a sink. It wouldn't take much for me to write Dijkstra's algo for my model. I have 3 main classes:
Graph is the main object. It holds a list of Nodes and a list of Connections. This class has methods like
addConnection(Node n1, Node n2, int magnitude) (this is how I actually build the graph),
getNeighbors(Node n) (returns all nodes that share a connection with the parameter node). This is probably where a
findShortestPath(Node start, Node stop) method would go.
Since it's a game, a
Node has the X and Y of its location on the screen. A Node also has a
NodeType which is an enum for Source, Sink, and Normal (and other game related uses like towers). The NodeType is not required for dijkstra.
Connection is a 1 to 1 link from one Node to another Node and it's bi-directional. You could make it directional if you make a distinction between the two Node endpoints, I just don't need to do that in my game. The Connection stores the Weight of the connection. In my case, I weighted my graph as distance from the sources so enemies can always try and take the "heaviest" path to try and make it to a sink, e.g. the end of the path of a tower defense. The weight could be distance or anything you want. This class has methods like
All of these classes are my own construction. They don't inherit from anything. You can build them exactly how you want them and tie any information you need to any piece of the graph. This is just my implementation in Java. You could do the same thing in C++ if you want or if you're inspired to write your own then I won't take it badly.