I have a graph with <100 nodes, with several categories. I would like the nodes belonging to one category to be in the center, with the other nodes arranged evenly in a circle around the outside - like a star graph, but with multiple nodes in the center. NodeXL calls this a polar graph (see: http://www.connectedaction.net/2013/03/03/how-to-plot-a-network-in-a-polar-layout-using-nodexl/) Given this data from the manual for graphs from dataframes:

actors<-data.frame(name=c("Alice", "Bob", "Cecil", "David",
relations <- data.frame(from=c("Bob", "Cecil", "Cecil", "David",
                           "David", "Esmeralda"),
                    to=c("Alice", "Bob", "Alice", "Alice", "Bob", "Alice"),
                    friendship=c(4,5,5,2,1,1), advice=c(4,5,5,4,2,3))
g <- graph.data.frame(relations, directed=TRUE, vertices=actors)

What if I want the females in the center and the males arranged in a circle around? I can divide up the graph and graph each separately, but I'm having trouble thinking through how to put them back together and am looking for another answer.

gsubfcoords<-layout.fruchterman.reingold(gsubf, xlim=c(-2,2), ylim=c(-2,2))

Then I could assign them to V(gsubf)$x, V(gsubf)$y... but I'm struggling how to put it all back together. There may be an easier way? or maybe another package to do polar?

up vote 3 down vote accepted

I have responded to this question on the mailing list recently, but for sake of completeness I'll also include the answer here.

igraph layouts are simply matrices with 2 columns and one row for each vertex, so the easiest is probably if you generate such a matrix yourself. If you want to place a vertex at radius r from the center with an angle of alpha (in radians), then you have to use the following formulae to figure out the X and Y coordinates:

X = r * cos(alpha)
Y = -r * sin(alpha)

where the Y coordinate is negated only because the Y axis of the coordinate system of the screen is oriented from top to bottom. So you can create a function like this in R:

polar.layout <- function(radii, angles) {
    cbind(radii*cos(angles), -radii*sin(angles))        

The polar.layout function has to be called with two lists: one that specifies the radius of each vertex and one that specifies the angle of each vertex. It will then return a matrix object that can be passed to plot() as follows:

layout <- polar.layout(radii, angles)
plot(graph, layout=layout)

So all you need is two vectors: one for the radii and one for the angles. You can construct these from the genders as follows:

males <- which(V(g)$gender == "M")
females <- which(V(g)$gender == "F")
radii <- ifelse(V(g)$gender == "F", 1, 2)
angles <- rep.int(0, vcount(g))
angles[males] <- (1:length(males)-1) * 2 * pi / length(males)
angles[females] <- (1:length(females)-1) * 2 * pi / length(females)
layout <- polar.layout(radii, angles)
plot(g, layout=layout)
  • Sorry - I didn't see your mailing list comment until now. Thank you! That should work. – ChristinaP Mar 5 '15 at 12:39

Your Answer


By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

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