# How to create a polar network graph (multiple rings) in igraph & R

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",
"Esmeralda"),
age=c(48,33,45,34,21),
gender=c("F","M","F","M","F"))
relations <- data.frame(from=c("Bob", "Cecil", "Cecil", "David",
"David", "Esmeralda"),
to=c("Alice", "Bob", "Alice", "Alice", "Bob", "Alice"),
same.dept=c(FALSE,FALSE,TRUE,FALSE,FALSE,TRUE),
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.

``````gsubf<-induced.subgraph(g,V(g)\$gender=="F")
gsubm<-induced.subgraph(g,V(g)\$gender=="M")
gsubfcoords<-layout.fruchterman.reingold(gsubf, xlim=c(-2,2), ylim=c(-2,2))
gsubmcoords<-layout.circle(gsubm)
``````

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?

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) {
}
``````

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)