Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I've implemented a directed graph in Ruby using RGL, just having difficulty figuring out how to, for a given node, find only the nodes with incoming connections and the nodes with outgoing connections. Perhaps I'm missing something simple.

share|improve this question
I think RGL deserves it's own tag, so I created one for you. – Earlz Feb 2 '10 at 20:51

RGL::DirectedAdjacencyGraph only implements outgoing connections efficiently. If you also want to have efficient access to the incoming edges you should implement the concept defined by RGL::BidirectionalGraph as efficiently. That should be done implementing the method RGL::BidirectionalGraph#each_in_neighbor in your specific directed graph implementation.

Suppose you store the in-neighbors for each vertex also in a list like DirectedAdjacencyGraph does for the out-neighbors. Then the method could like this:

# Iterator providing access to the in-edges (for directed graphs) or incident
# edges (for undirected graphs) of vertex _v_. For both directed and
# undirected graphs, the target of an out-edge is required to be vertex _v_
# and the source is required to be a vertex that is adjacent to _v_.
def each_in_neighbor (v, &block)
  in_neighbors = (@vertice_dict_for_in_neighbors[v] or
                  raise NoVertexError, "No vertex #{v}.")

Using this approach you have to manage two vertex dictionaries when inserting or removing edges and vertice.

share|improve this answer

I just ran into this problem. Using the reverse method might work, though it might not be the most elegant approach:

require 'rgl/adjacency'
require 'rgl/bidirectional'

class RGL::DirectedAdjacencyGraph
    def in_degree(v)
    rdg = self.reverse

  def out_degree(v)

dg=RGL::DirectedAdjacencyGraph[1,2 ,2,3 ,2,4, 4,5, 6,4, 1,6]

p dg.in_degree(2)
#=> 2
p dg.out_degree(2)
#=> 1

p dg.in_degree(1)
#=> 0
p dg.out_degree(3)
#=> 0

The longer answer is that it doesn't appear to be implemented yet.

The way it's supposed to work is by including the RGL::Bidirectional module with with your directed graph class, this will give you the all important each_in_neighbor method. So something like this should work (but doesn't):

require 'rgl/adjacency'
require 'rgl/bidirectional'

class RGL::DirectedAdjacencyGraph
  include RGL::BidirectionalGraph

dg=RGL::DirectedAdjacencyGraph[1,2 ,2,3 ,2,4, 4,5, 6,4, 1,6]

#=> [5, 6, 1, 2, 3, 4]

p dg.adjacent_vertices(2)
#=> [3, 4]

p dg.each_in_neighbor(2)
#=>  NotImplementedError :(
#=> Should be:  [1]

I haven't dug into the code to see how much work this would be, but that might be a better option depending upon your needs.

Edit: I forgot to mention that the source and target attributes are not accessible to an in-degree node. But an alternate approach could be to collect all the edges of interest from the graph and compare them to see if any of them have your node of interest as a target.

share|improve this answer

It looks like Directed Edges have:

[RW] source
[RW] target

Does that help? I'm not quite sure I understand your question.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.