Evolutionary Networks
evonet builds a network from a tree of class
"phylo". There are print, plot, and
reorder methods as well as a few conversion functions.
evonet(phy, from, to = NULL)
## S3 method for class 'evonet'
print(x, ...)
## S3 method for class 'evonet'
plot(x, col = "blue", lty = 1, lwd = 1, alpha = 0.5,
arrows = 0, arrow.type = "classical", ...)
## S3 method for class 'evonet'
Nedge(phy)
## S3 method for class 'evonet'
reorder(x, order = "cladewise", index.only = FALSE, ...)
## S3 method for class 'evonet'
as.phylo(x, ...)
## S3 method for class 'evonet'
as.networx(x, weight = NA, ...)
## S3 method for class 'evonet'
as.network(x, directed = TRUE, ...)
## S3 method for class 'evonet'
as.igraph(x, directed = TRUE, use.labels = TRUE, ...)
as.evonet(x, ...)
## S3 method for class 'phylo'
as.evonet(x, ...)
read.evonet(file = "", text = NULL, comment.char = "", ...)
write.evonet(x, file = "", ...)phy |
an object of class |
x |
an object of class |
from |
a vector (or a matrix if |
to |
a vector of the same length than |
col, lty, lwd |
colors, line type and width of the reticulations (recycled if necessary). |
alpha |
a value between 0 and 1 specifying the transparency of the reticulations. |
arrows, arrow.type |
see |
order, index.only |
see |
weight |
a numeric vector giving the weights for the
reticulations when converting to the class |
directed |
a logical: should the network be considered as
directed? |
use.labels |
a logical specifying whether to use the tip and node
labels when building the network of class |
file, text, comment.char |
see |
... |
arguments passed to other methods. |
evonet is a constructor function that checks the arguments.
The classes "networx", "network", and "igraph"
are defined in the packages phangorn, network, and
igraph, respectively.
read.evonet reads networks from files in extended newick format
(Cardona et al. 2008).
an object of class c("evonet", "phylo") which is made of an
object of class "phylo" plus an element
reticulation coding additional edges among nodes and uses the
same coding rules than the edge matrix.
The conversion functions return an object of the appropriate class.
Emmanuel Paradis, Klaus Schliep
Cardona, G., Rossell, F., and Valiente, G. (2008) Extended Newick: it is time for a standard representation of phylogenetic networks. BMC Bioinformatics, 9, 532.
as.networx in package phangorn
tr <- rcoal(5)
(x <- evonet(tr, 6:7, 8:9))
plot(x)
## simple example of extended Newick format:
(enet <- read.evonet(text = "((a:2,(b:1)#H1:1):1,(#H1,c:1):2);"))
plot(enet, arrows=1)
## from Fig. 2 in Cardona et al. 2008:
z <- read.evonet(text =
"((1,((2,(3,(4)Y#H1)g)e,(((Y#H1, 5)h,6)f)X#H2)c)a,((X#H2,7)d,8)b)r;")
z
plot(z)
## Not run:
if (require(igraph)) {
plot(as.igraph(z))
}
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