(supposedly large) and a portion of it determined by clicking on the nodes of the phylogeny. On exit, returns the last subtree visualized.
}
\usage{
-subtreeplot(phy, wait=FALSE, ...)
+subtreeplot(x, wait=FALSE, ...)
}
\arguments{
\item{x}{an object of class \code{"phylo"}.}
\item{wait}{a logical indicating whether the node beeing processed should be printed (useful for big phylogenies).}
- \item{...}{further arguments passed to \code{plot.phylo}.}
+ \item{\dots}{further arguments passed to \code{plot.phylo}.}
}
\details{
This function aims at easily exploring very large trees. The main argument is
\code{\link{plot.phylo}}, \code{\link{drop.tip}}, \code{\link{subtrees}}
}
\examples{
+\dontrun{
#example 1: simple
-tree1<-rtree(50) #random tree with 50 leaves
-tree2<-subtreeplot(tree1, wait=TRUE) # on exit, tree2 will be a subtree of tree1.
+tree1 <- rtree(50)
+tree2 <- subtreeplot(tree1, wait = TRUE) # on exit, tree2 will be a subtree of tree1
#example 2: more than one zoom
-tree1<-rtree(60)
-tree2<-subtreeplot(subtreeplot(subtreeplot(tree1))) #allows three succssive zooms.
+tree1 <- rtree(60)
+tree2 <- subtreeplot(subtreeplot(subtreeplot(tree1))) # allow three succssive zooms
+}
}
\keyword{hplot}