R/plot_pml.R
In KlausVigo/phangorn: Phylogenetic Reconstruction and Analysis
Defines functions
plot.pml
Documented in
plot.pml
#' Plot phylogeny of a pml object
#'
#' \code{plot.pml} is a wrapper around \code{plot.phylo} with different default
#' values for unrooted, ultrametric and tip dated phylogenies.
#'
#' @param x an object of class \code{pml} or \code{phyDat}.
#' @param type a character string specifying the type of phylogeny to be drawn;
#' it must be one of "phylogram" (the default), "cladogram", "fan", "unrooted",
#' "radial", "tidy", or any unambiguous abbreviation of these.
#' @param direction a character string specifying the direction of the tree.
#' Four values are possible: "rightwards" (the default), "leftwards", "upwards",
#' and "downwards".
#' @param \dots further parameters to be passed to \code{plot.phylo}.
#' @return \code{plot.pml} returns invisibly a list with arguments dexcribing the plot.
#' For further details see the \code{plot.phylo}.
#' @author Klaus Schliep \email{klaus.schliep@@gmail.com}
#' @seealso \code{\link{plot.phylo}}, \code{\link{axisPhylo}},
#' \code{\link{add.scale.bar}}
#' @keywords plot
#' @examples
#' fdir <- system.file("extdata/trees", package = "phangorn")
#' tmp <- read.csv(file.path(fdir,"H3N2_NA_20.csv"))
#' H3N2 <- read.phyDat(file.path(fdir,"H3N2_NA_20.fasta"), format="fasta")
#' dates <- setNames(tmp$numdate_given, tmp$name)
#'
#' fit_td <- pml_bb(H3N2, model="JC", method="tipdated", tip.dates=dates,
#' rearrangement="none", control = pml.control(trace = 0))
#' plot(fit_td, show.tip.label = FALSE)
#' # Same as:
#' # root_time <- max(dates) - max(node.depth.edgelength(fit_td$tree))
#' # plot(fit_td$tree, show.tip.label = FALSE)
#' # axisPhylo(root.time = root_time, backward = FALSE)
#' plot(fit_td, show.tip.label = FALSE, direction="up")
#'
#' fit_unrooted <- pml_bb(H3N2, model="JC", rearrangement="none",
#' control = pml.control(trace = 0))
#' plot(fit_unrooted, cex=.5)
#'
#' @export
plot.pml <- function(x, type="phylogram", direction = "rightwards", ...){
type <- match.arg(type, c("phylogram","cladogram", "fan", "unrooted",
"radial", "tidy"))
tree <- x$tree
extras <- match.call(expand.dots = FALSE)$...
cex <- ifelse(is.null(extras$cex), par("cex"), extras$cex)
cex.axis <- ifelse(is.null(extras$cex.axis), cex, extras$cex.axis)
if(!is.rooted(tree) && (type != "unrooted") ) tree <- midpoint(tree)
L <- plot.phylo(tree, type=type, direction=direction, ...)
if(is.rooted(tree) && (type %in% c("phylogram","cladogram"))){
direction <- match.arg(direction, c("rightwards", "leftwards", "upwards",
"downwards"))
side <- switch(direction,
rightwards = 1,
leftwards = 1,
"upwards" = 2,
"downwards" = 2)
if(!is.null(x$tip.dates) && x$method=="tipdated"){
root_time <- max(x$tip.dates) - max(node.depth.edgelength(x$tree))
axisPhylo(side, root.time = root_time, backward = FALSE,
cex.axis=cex.axis)
}
else if(!is.null(x$method) && x$method=="ultrametric")
axisPhylo(side, cex.axis=cex.axis)
else add.scale.bar(cex=cex)
}
else add.scale.bar(cex=cex)
if(!is.null(x$bs)) add_support(tree, x$bs, cex=cex)
invisible(L)
}
KlausVigo/phangorn documentation built on June 23, 2024, 10:49 p.m.
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Defines functions plot.pml
Documented in plot.pml
#' Plot phylogeny of a pml object
#'
#' \code{plot.pml} is a wrapper around \code{plot.phylo} with different default
#' values for unrooted, ultrametric and tip dated phylogenies.
#'
#' @param x an object of class \code{pml} or \code{phyDat}.
#' @param type a character string specifying the type of phylogeny to be drawn;
#' it must be one of "phylogram" (the default), "cladogram", "fan", "unrooted",
#' "radial", "tidy", or any unambiguous abbreviation of these.
#' @param direction a character string specifying the direction of the tree.
#' Four values are possible: "rightwards" (the default), "leftwards", "upwards",
#' and "downwards".
#' @param \dots further parameters to be passed to \code{plot.phylo}.
#' @return \code{plot.pml} returns invisibly a list with arguments dexcribing the plot.
#' For further details see the \code{plot.phylo}.
#' @author Klaus Schliep \email{klaus.schliep@@gmail.com}
#' @seealso \code{\link{plot.phylo}}, \code{\link{axisPhylo}},
#' \code{\link{add.scale.bar}}
#' @keywords plot
#' @examples
#' fdir <- system.file("extdata/trees", package = "phangorn")
#' tmp <- read.csv(file.path(fdir,"H3N2_NA_20.csv"))
#' H3N2 <- read.phyDat(file.path(fdir,"H3N2_NA_20.fasta"), format="fasta")
#' dates <- setNames(tmp$numdate_given, tmp$name)
#'
#' fit_td <- pml_bb(H3N2, model="JC", method="tipdated", tip.dates=dates,
#' rearrangement="none", control = pml.control(trace = 0))
#' plot(fit_td, show.tip.label = FALSE)
#' # Same as:
#' # root_time <- max(dates) - max(node.depth.edgelength(fit_td$tree))
#' # plot(fit_td$tree, show.tip.label = FALSE)
#' # axisPhylo(root.time = root_time, backward = FALSE)
#' plot(fit_td, show.tip.label = FALSE, direction="up")
#'
#' fit_unrooted <- pml_bb(H3N2, model="JC", rearrangement="none",
#' control = pml.control(trace = 0))
#' plot(fit_unrooted, cex=.5)
#'
#' @export
plot.pml <- function(x, type="phylogram", direction = "rightwards", ...){
type <- match.arg(type, c("phylogram","cladogram", "fan", "unrooted",
"radial", "tidy"))
tree <- x$tree
extras <- match.call(expand.dots = FALSE)$...
cex <- ifelse(is.null(extras$cex), par("cex"), extras$cex)
cex.axis <- ifelse(is.null(extras$cex.axis), cex, extras$cex.axis)
if(!is.rooted(tree) && (type != "unrooted") ) tree <- midpoint(tree)
L <- plot.phylo(tree, type=type, direction=direction, ...)
if(is.rooted(tree) && (type %in% c("phylogram","cladogram"))){
direction <- match.arg(direction, c("rightwards", "leftwards", "upwards",
"downwards"))
side <- switch(direction,
rightwards = 1,
leftwards = 1,
"upwards" = 2,
"downwards" = 2)
if(!is.null(x$tip.dates) && x$method=="tipdated"){
root_time <- max(x$tip.dates) - max(node.depth.edgelength(x$tree))
axisPhylo(side, root.time = root_time, backward = FALSE,
cex.axis=cex.axis)
}
else if(!is.null(x$method) && x$method=="ultrametric")
axisPhylo(side, cex.axis=cex.axis)
else add.scale.bar(cex=cex)
}
else add.scale.bar(cex=cex)
if(!is.null(x$bs)) add_support(tree, x$bs, cex=cex)
invisible(L)
}
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