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How to merge two vertices/contract edge at Boost.Graph?

I need to move edges from vertex A to vertex B, and delete vertex A - is there any built-in function? Or maybe there is something special for adjacency_list?

If there is no such function - then why? I think it is common graph operation.

EDIT: I do know that it is possible to do it manually, but there are some corner cases (like preserving edges properties), that why it is good candidate to be in library.

I mostly interested to know if Boost.Graph have already that operation (maybe with some fancy name?). And if not - why such primitive operation/algorithm is not in Graph Library. Maybe I am missing something, and that operation is not-primitive or rarely used.

I do not need half-baked quick proof-of-concepts

share|improve this question
downvoter, what wrong with question? – qble Jul 20 '13 at 20:47
up vote 6 down vote accepted

Half-baked quick proof-of-concept

You can use add_edge() and remove_vertex() on a graph defined in terms of adjacency_list

#include <iostream>
#include <iterator>
#include <boost/graph/adjacency_list.hpp>

using V = unsigned;
using E = std::pair<V, V>;
using G = boost::adjacency_list<boost::vecS, boost::vecS>;

void print_graph(G const& g)
    auto vs = boost::vertices(g);
    for (auto vit = vs.first; vit != vs.second; ++vit) {
        auto neighbors = boost::adjacent_vertices(*vit, g);
        for (auto nit = neighbors.first; nit != neighbors.second; ++nit)
            std::cout << "{" << *vit << "," << *nit << "}" << ", ";
    std::cout << "\n";

void contract_vertices(V b, V a, G& g)
    auto be = boost::adjacent_vertices(b, g);
    for (auto beit = be.first; beit != be.second; ++beit)
        add_edge(a, *beit, g);
    remove_vertex(b, g);

int main()
    // named vertices
    auto const A = V { 1 };
    auto const B = V { 2 };

    // construct the graph
    auto e = std::vector<E> { { A, 3 }, { B, 4 } };
    auto g = G { std::begin(e), std::end(e), 4 };

    contract_vertices(B, A, g);    

Live example that prints

{1,3}, {2,4},
{1,2}, {1,3},

The output is not quite what you expect because the labelling of vertices is also updated to reflect the removal of B, which cause nodes 3 and 4 to be labelled 2 and 3 now.

Requirements for library-quality code

A general library-quality algorithm for contraction of vertices u and v should typically take into account at least the following corner cases

  • remove (u,v) and (v,u) edges;
  • merge all u and v out-edges with common targets;
  • merge all u and v in-edges with common sources;
  • move the rest of u out-edges to v;
  • move the rest of u in-edges to v;

Boost.Graph provides all the required primitives for such an operation: in_edges(), out_edges(), add_edge(), clear_vertex(), remove_vertex(). For undirected graphs several of these items can be done in a single step, whereas for directed graphs typically two steps are required.

In addition to these algorithmic steps, one should also define the semantics of what it means to merge or move edges. E.g. what should happen to their properties? This is similar to e.g. merging two corporations: under which name should the joint firm operate?

Why Boost.Graph does not (yet) provide a contract_vertices()

TL;DR I don't know. But I can speculate. Mainly, one should specify the interface of a putative contract_vertices(). Apart from the two vertices to be contracted, and the type of graph they are a part of, one should also define the merge and move operations on the edge properties. In theory, it should be possible to do this with suitable template parameter to the general algorithm.

share|improve this answer
1. I think collapse_vertices should have check in loop to avoid cycles - like if(a != *beit) add_edge(a, *beit, g);. 2. I do know that it is possible to do manually - I more interested why Boost.Graph does not have built-ins for that? (or maybe it has? with some non-obvious name?) 3. It is not only about adding edges of removed vertex to another, but also about preserving edges data (Boost.Graph has "properties") - obviously it would require more manual code + there are some other corner cases, that why it is good candidate to be in library. – qble Jul 22 '13 at 14:37
yes you should do all those 3 things in production code. in any case, Boost.Graph provides all the primitives to write a collapse_vertices – TemplateRex Jul 22 '13 at 16:09
"In theory, it should be possible to do this with suitable template parameter to the general algorithm." - yes, exactly - delegate responsibility to user. Good library-based contract_vertices would force user to think about corner cases (via mandatory parameters) which otherwise can be easily overlooked. Accepting answer as it is most detailed one, thanks! – qble Jul 28 '13 at 19:19
@qble glad to have been of help! – TemplateRex Jul 28 '13 at 20:07

Doing it manually, you should manually remove each b edge, not the vertex:

void collapse_vertices(V b, V a, G& g)
    auto be = boost::adjacent_vertices(b, g);
    for (auto beit = be.first; beit != be.second; ++beit)
        add_edge(a, *beit, g);
        remove_edge(b, *beit, g);

gives out your wanted {1,3}, {1,4},.

I don't know why it isn't included (in my knowledge) in the BGL, but this function is what does it.

share|improve this answer
What if the edges you are adding to already exist? What if the edges you are deleting have properties? – ravenspoint Jul 23 '13 at 22:13
@ravenspoint It behaves as intended, in the most natural way: if you add an edge that already exists, it is added, and you can always check and remove dupes; it's done manually, so it's in your charge to pass properties. – Enoah Netzach Jul 23 '13 at 23:38

There is no generic function in the library because it is not possible for a generic function to know what needs to be done in the 'corner cases'. What if vertex X has an edge to both vertex A and B? Should the function simply delete X-A, or should it delete X-B and move X-A to X--B? What if the edge from X to A ( the vertex being deleted ) has properties that must be preserved or modified? Only the application code knows how to handle properties when an edge is deleted or moved

'Delegating' these decisions, as qble suggests, makes no sense. If the decision about what to do with the properties of deleted edges is 'delegated' to the application code, then the application code is going to have to find and loop over the edges that must be deleted. So it has to repeat the same work that the generic function does. It might as well do the edge deletion itself, once it has finished with the properties of each deleted edge, and not bother calling the generic function.

share|improve this answer
That is true that there are corner cases which must be handled in generic function. But that doesn't mean it can be done. When there is a choice at corner case - decision should be just delegated to user, by parameters. Boost.Graph already delegated many decisions to user (like custom containers with adjacency_list), and that why it is generic. – qble Jul 23 '13 at 23:01
"then the application code is going to have to find and loop over the edges that must be deleted" - not, it doesn't have to. When in doubt - generic version could just use user functors passed as a parameters. – qble Jul 23 '13 at 23:47

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