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I want to augment the adjacency matrix of an igraph graph. I tried the following with no success:

set.seed(123) # to get always the same graph (see "R reproducible example")
G <-,10,type="gnm")
mat <- Matrix(1:16, ncol=4,nrow=4)
G[1:4, 1:4] <- mat
# Error in `[<-.igraph`(`*tmp*`, 1:4, 1:4, value = <S4 object of class "dgeMatrix">) : 
# New value should be NULL, numeric or logical

Also tried: G[1:4, 1:4] <- as.numeric(mat)

# Error in `[<-.igraph`(`*tmp*`, 1:4, 1:4, value = c(1, 2, 3, 4, 5, 6, 7, :
# Logical or numeric value must be of length 1

I know about the add.edges() function, but it seems that would not replace the edges, but instead append to weight? If I am wrong about that, please correct me as well.

I'm new to R so feel free to be as verbose as necessary.


share|improve this question
I am not sure what you are trying to do here? What do you mean by "replacing edges"? If you want to remove the edges among vertices 1:4, and add the ones present in the matrix, then just do that, use delete.edges() and `add.edges(). – Gabor Csardi Oct 27 '13 at 16:39
By 'replacing the edges' I effectively meant remove and replace edge weights with new weights, just in a single more efficient step. When I say efficient, I mean only update the index to the nodes in positions that require it as opposed to remove all, then add all in the submatrix I want. I guess this might be slow since the index to nodes must be updated twice for all nodes in the submatrix? – quine Oct 27 '13 at 17:03
If the edges are already all present, then just update their weights. This can be done with G[from=..., to=...] <- newweigths. You cannot add edges and update weights of other edges in a single step. You cannot delete edges and add edges in a single step, either. Btw. adding weights does not change internal igraph indices, but in R it does copy the whole graph once. – Gabor Csardi Oct 27 '13 at 17:24
up vote 1 down vote accepted

The assignment G[] <- takes only one logical value (i.e. TRUE or FALSE) as stated in the documentation.


and check section "The indexing operators")

So, for example if you create a graph in this way:

set.seed(144) # just to get the same initial graph
G <-,5,type="gnm")


Initial Graph

then you do:

[1,] . . . .
[2,] . . 1 .
[3,] . 1 . .
[4,] . . . .

You get a 4x4 sparse matrix of (0,1), where 1 at position (i,j) indicates that there's an edge from i to j.
As you can see, in this case there's only one edge 2,3 (and obviously 3,2 since is an undirected graph)

Then, by setting G[1:4,1:4] <- TRUE you're forcing an edge between all vertices in (1,4), conversely, by setting G[1:4,1:4] <- FALSE you're deleting all edges between all vertices in (1,4).

Hence, these methods are not very well suited to "batch altering" the adjacency matrix selectively, since you can only create or delete all edges in a subset of the matrix.

In my opinion, a better approach could be combining this approach with add.edges; for example, if you want to change the (1,4) adj. submatrix to connect (1,3) and (2,4), you could do:

G[1:4,1:4] <- FALSE # remove previous edges
G <- add.edges(G, c(1,3,2,4)) # add the new edges

In fact, plotting again:


you'll get this:

Modified Graph

Where you can see that the edge (2,3) has been eliminated and the new edges (1,3) and (2,4) have been added.

share|improve this answer
It seems you are correct. This is the most effective way to do what I need. Thanks! – quine Oct 27 '13 at 17:12

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