I have a simple set of directional relationships (parent->child) that I want to draw. My data is structured such that there are many discrete sub-networks. Here is some fake data that looks like mine.

```
require(igraph)
parents<-c("A","A","C","C","F","F","H","I")
children<-c("B","C","D","E","G","H","I","J")
begats<-data.frame(parents=parents,children=children)
graph_begats<-graph.data.frame(begats)
plot(graph_begats)
```

There are two distinct sub networks in the fake data, each of which is strictly a parent-children lineage. I need to draw both the lineages as tree networks in the same window (ideally same vertex coordinate system). I have tried using layout.reingold.tilford(), but at best all I can draw is one of the trees, with all other vertices plotting on top of the root vertex, like this.

```
lo<-layout.reingold.tilford(graph_begats,root=1)
plot(graph_begats,layout=lo)
```

Any ideas for doing this for an arbitrary number of discrete lineages?

`clusters()`

or`decompose.graph()`

, then calculate the layout separately for each, and then merge them, by shifting one of the layout matrices. – Gabor Csardi Mar 22 '13 at 1:09`decompose.graph()`

is what I need. Still working on the matrix shift, but I am getting there. – Andrew Barr Mar 22 '13 at 14:15`layout.reingold.tilford()`

I needed a method for identifying the root node. I accomplished this by taking the first vertex returned by the`topological sort()`

function, as in`topological.sort(theGraph)[1]`

. This isn't necessary for the subgraphs in my example data, but often is necessary in the real data. – Andrew Barr Mar 22 '13 at 17:58