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Here's a C++(11) design problem:

Suppose I want to create a graph data structure, where you can map the nodes/edges to arbitrary attributes. (It's not really relevant that it's a graph, it might be any container for elements with attributes, but this is my example.)

With such a data structure, I could add a new attribute for all nodes dynamically:

Graph G;

G.addNodeMap("color", "white"); // map name, default value

... and then set it for a node:

node v;
G.setAttr("color", v, "blue");

... and also remove the attribute to save memory:

G.deleteNodeMap("color");

G.addNodeMap takes an identifier for the map (possibly a string) and a default value for the entries. With C++11, type T of the "node map" could be conveniently inferred from the default argument given. The node map itself could be a std::vector<T> because a node is just an index.

Problem: Where do I store the vectors std::vector<std::string> map1, std::vector<std::double> map2, std::vector<Foo> map3.... ?

This problem does not occurr with dynamically typed languages. How can I implement this behavior with C++?

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It would generally be far more trouble than it's worth to make this work with arbitrary types. You'll have to get into some serious type-erasure. –  Nicol Bolas Feb 5 '13 at 12:10
    
@NicolBolas So what are alternatives for storing such attributes? –  cls Feb 5 '13 at 12:12
    
The only thing that comes to my mind currently is boost::any –  PlasmaHH Feb 5 '13 at 12:40

1 Answer 1

You might want to take a look at property maps of the Boost.Graph Library (BGL)

The main link between the abstract mathematical nature of graphs and the concrete problems they are used to solve is the properties that are attached to the vertices and edges of a graph, things like distance, capacity, weight, color, etc. There are many ways to attach properties to graph in terms of data-structure implementation, but graph algorithms should not have to deal with the implementation details of the properties. The property map interface defined in Section Property Map Concepts provides a generic method for accessing properties from graphs. This is the interface used in the BGL algorithms to access properties.

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