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inst/doc/ggtreeExtra.R
In ggtreeExtra: An R Package To Add Geometric Layers On Circular Or Other Layout Tree Of "ggtree"
## ---- include = FALSE, results="asis", message=FALSE, KnitrSetUp--------------
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
Biocpkg <- function (pkg){
sprintf("[%s](http://bioconductor.org/packages/%s)", pkg, pkg)
}
CRANpkg <- function(pkg){
cran <- "https://CRAN.R-project.org/package"
fmt <- "[%s](%s=%s)"
sprintf(fmt, pkg, cran, pkg)
}
## ---- message=FALSE, setup----------------------------------------------------
library(ggtreeExtra)
library(ggstar)
library(ggplot2)
library(ggtree)
library(treeio)
library(ggnewscale)
## ---- eval=FALSE, INSTALL-----------------------------------------------------
# # for devel
# if(!requireNamespace("remotes", quietly=TRUE)){
# install.packages("remotes")
# }
# remotes::install_github("YuLab-SMU/ggtreeExtra")
#
# # for release
# if (!requireNamespace("BiocManager", quietly=TRUE))
# install.packages("BiocManager")
#
# ## BiocManager::install("BiocUpgrade") ## you may need this
# BiocManager::install("ggtreeExtra")
## ---- fig.align="center", fig.height=7, fig.width=7, warning=FALSE, singlelayer----
# The path of tree file.
trfile <- system.file("extdata", "tree.nwk", package="ggtreeExtra")
# The path of file to plot tip point.
tippoint1 <- system.file("extdata", "tree_tippoint_bar.csv", package="ggtreeExtra")
# The path of first layer outside of tree.
ring1 <- system.file("extdata", "first_ring_discrete.csv", package="ggtreeExtra")
# The path of second layer outside of tree.
ring2 <- system.file("extdata", "second_ring_continuous.csv", package="ggtreeExtra")
# The tree file was imported using read.tree. If you have other tree format files, you can use corresponding functions from treeio package to read it.
tree <- read.tree(trfile)
# This dataset will to be plotted point and bar.
dat1 <- read.csv(tippoint1)
knitr::kable(head(dat1))
# This dataset will to be plotted heatmap
dat2 <- read.csv(ring1)
knitr::kable(head(dat2))
# This dataset will to be plotted heatmap
dat3 <- read.csv(ring2)
knitr::kable(head(dat3))
# The format of the datasets is the long shape for ggplot2. If you have short shape dataset,
# you can use `melt` of `reshape2` or `pivot_longer` of `tidyr` to convert it.
# We use ggtree to create fan layout tree.
p <- ggtree(tree, layout="fan", open.angle=10, size=0.5)
p
## Next, we can use %<+% of ggtree to add annotation dataset to tree.
#p1 <- p %<+% dat1
#p1
## We use geom_star to add point layer outside of tree.
#p2 <- p1 +
# geom_star(
# mapping=aes(fill=Location, size=Length, starshape=Group),
# starstroke=0.2
# ) +
# scale_size_continuous(
# range=c(1, 3),
# guide=guide_legend(
# keywidth=0.5,
# keyheight=0.5,
# override.aes=list(starshape=15),
# order=2)
# ) +
# scale_fill_manual(
# values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
# guide="none" # don't show the legend.
# ) +
# scale_starshape_manual(
# values=c(1, 15),
# guide=guide_legend(
# keywidth=0.5, # adjust width of legend
# keyheight=0.5, # adjust height of legend
# order=1 # adjust the order of legend for multiple legends.
# ),
# na.translate=FALSE # to remove the NA legend.
# )
#p2
# Or if you don't use %<+% to import annotation dataset, instead of `data` parameter of `geom_fruit`.
# You should specify the column contained tip labels to y axis of `mapping`, here is `y=ID`.
# the `position` parameter was set to `identity` to add the points on the tip nodes.
p2 <- p +
geom_fruit(
data=dat1,
geom=geom_star,
mapping=aes(y=ID, fill=Location, size=Length, starshape=Group),
position="identity",
starstroke=0.2
) +
scale_size_continuous(
range=c(1, 3), # the range of size.
guide=guide_legend(
keywidth=0.5,
keyheight=0.5,
override.aes=list(starshape=15),
order=2
)
) +
scale_fill_manual(
values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
guide="none"
) +
scale_starshape_manual(
values=c(1, 15),
guide=guide_legend(
keywidth=0.5,
keyheight=0.5,
order=1
)
)
p2
# Next, we will add a heatmap layer on the outer ring of p2 using `geom_tile` of `ggplot2`.
# Since we want to map some variable of dataset to the `fill` aesthetics of `geom_tile`, but
# the `fill` of p2 had been mapped. So I need use `new_scale_fill` of `ggnewscale` package to initialize it.
p3 <- p2 +
new_scale_fill() +
geom_fruit(
data=dat2,
geom=geom_tile,
mapping=aes(y=ID, x=Pos, fill=Type),
offset=0.08, # The distance between external layers, default is 0.03 times of x range of tree.
pwidth=0.25 # width of the external layer, default is 0.2 times of x range of tree.
) +
scale_fill_manual(
values=c("#339933", "#dfac03"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=3)
)
p3
# You can also add heatmap layer for continuous values.
p4 <- p3 +
new_scale_fill() +
geom_fruit(
data=dat3,
geom=geom_tile,
mapping=aes(y=ID, x=Type2, alpha=Alpha, fill=Type2),
pwidth=0.15,
axis.params=list(
axis="x", # add axis text of the layer.
text.angle=-45, # the text angle of x-axis.
hjust=0 # adjust the horizontal position of text of axis.
)
) +
scale_fill_manual(
values=c("#b22222", "#005500", "#0000be", "#9f1f9f"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=4)
) +
scale_alpha_continuous(
range=c(0, 0.4), # the range of alpha
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=5)
)
# Then add a bar layer outside of the tree.
p5 <- p4 +
new_scale_fill() +
geom_fruit(
data=dat1,
geom=geom_bar,
mapping=aes(y=ID, x=Abundance, fill=Location), #The 'Abundance' of 'dat1' will be mapped to x
pwidth=0.4,
stat="identity",
orientation="y", # the orientation of axis.
axis.params=list(
axis="x", # add axis text of the layer.
text.angle=-45, # the text size of axis.
hjust=0 # adjust the horizontal position of text of axis.
),
grid.params=list() # add the grid line of the external bar plot.
) +
scale_fill_manual(
values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=6)
) +
theme(#legend.position=c(0.96, 0.5), # the position of legend.
legend.background=element_rect(fill=NA), # the background of legend.
legend.title=element_text(size=7), # the title size of legend.
legend.text=element_text(size=6), # the text size of legend.
legend.spacing.y = unit(0.02, "cm") # the distance of legends (y orientation).
)
p5
## ---- fig.align="center", fig.width=7, fig.width=7, multilayer----------------
# To reproduce.
set.seed(1024)
# generate 100 tip point tree.
tr <- rtree(100)
# generate three datasets, which are the same except the third column name.
dt <- data.frame(id=tr$tip.label, value=abs(rnorm(100)), group=c(rep("A",50),rep("B",50)))
df <- dt
dtf <- dt
colnames(df)[[3]] <- "group2"
colnames(dtf)[[3]] <- "group3"
# plot tree
p <- ggtree(tr, layout="fan", open.angle=0)
p
# the first ring.
p1 <- p +
geom_fruit(
data=dt,
geom=geom_bar,
mapping=aes(y=id, x=value, fill=group),
orientation="y",
stat="identity"
) +
new_scale_fill()
p1
# the second ring
# geom_fruit_list is a list, which first element must be layer of geom_fruit.
p2 <- p1 +
geom_fruit_list(
geom_fruit(
data = df,
geom = geom_bar,
mapping = aes(y=id, x=value, fill=group2),
orientation = "y",
stat = "identity"
),
scale_fill_manual(values=c("blue", "red")), # To map group2
new_scale_fill(), # To initialize fill scale.
geom_fruit(
data = dt,
geom = geom_star,
mapping = aes(y=id, x=value, fill=group),
size = 2.5,
color = NA,
starstroke = 0
)
) +
new_scale_fill()
p2
# The third ring
p3 <- p2 +
geom_fruit(
data=dtf,
geom=geom_bar,
mapping = aes(y=id, x=value, fill=group3),
orientation = "y",
stat = "identity"
) +
scale_fill_manual(values=c("#00AED7", "#009E73"))
p3
## ---- echo=FALSE--------------------------------------------------------------
sessionInfo()
Try the ggtreeExtra package in your browser
Any scripts or data that you put into this service are public.
ggtreeExtra documentation built on April 8, 2021, 6:01 p.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
## ---- include = FALSE, results="asis", message=FALSE, KnitrSetUp--------------
knitr::opts_chunk$set(
collapse = TRUE,
comment = "#>"
)
Biocpkg <- function (pkg){
sprintf("[%s](http://bioconductor.org/packages/%s)", pkg, pkg)
}
CRANpkg <- function(pkg){
cran <- "https://CRAN.R-project.org/package"
fmt <- "[%s](%s=%s)"
sprintf(fmt, pkg, cran, pkg)
}
## ---- message=FALSE, setup----------------------------------------------------
library(ggtreeExtra)
library(ggstar)
library(ggplot2)
library(ggtree)
library(treeio)
library(ggnewscale)
## ---- eval=FALSE, INSTALL-----------------------------------------------------
# # for devel
# if(!requireNamespace("remotes", quietly=TRUE)){
# install.packages("remotes")
# }
# remotes::install_github("YuLab-SMU/ggtreeExtra")
#
# # for release
# if (!requireNamespace("BiocManager", quietly=TRUE))
# install.packages("BiocManager")
#
# ## BiocManager::install("BiocUpgrade") ## you may need this
# BiocManager::install("ggtreeExtra")
## ---- fig.align="center", fig.height=7, fig.width=7, warning=FALSE, singlelayer----
# The path of tree file.
trfile <- system.file("extdata", "tree.nwk", package="ggtreeExtra")
# The path of file to plot tip point.
tippoint1 <- system.file("extdata", "tree_tippoint_bar.csv", package="ggtreeExtra")
# The path of first layer outside of tree.
ring1 <- system.file("extdata", "first_ring_discrete.csv", package="ggtreeExtra")
# The path of second layer outside of tree.
ring2 <- system.file("extdata", "second_ring_continuous.csv", package="ggtreeExtra")
# The tree file was imported using read.tree. If you have other tree format files, you can use corresponding functions from treeio package to read it.
tree <- read.tree(trfile)
# This dataset will to be plotted point and bar.
dat1 <- read.csv(tippoint1)
knitr::kable(head(dat1))
# This dataset will to be plotted heatmap
dat2 <- read.csv(ring1)
knitr::kable(head(dat2))
# This dataset will to be plotted heatmap
dat3 <- read.csv(ring2)
knitr::kable(head(dat3))
# The format of the datasets is the long shape for ggplot2. If you have short shape dataset,
# you can use `melt` of `reshape2` or `pivot_longer` of `tidyr` to convert it.
# We use ggtree to create fan layout tree.
p <- ggtree(tree, layout="fan", open.angle=10, size=0.5)
p
## Next, we can use %<+% of ggtree to add annotation dataset to tree.
#p1 <- p %<+% dat1
#p1
## We use geom_star to add point layer outside of tree.
#p2 <- p1 +
# geom_star(
# mapping=aes(fill=Location, size=Length, starshape=Group),
# starstroke=0.2
# ) +
# scale_size_continuous(
# range=c(1, 3),
# guide=guide_legend(
# keywidth=0.5,
# keyheight=0.5,
# override.aes=list(starshape=15),
# order=2)
# ) +
# scale_fill_manual(
# values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
# guide="none" # don't show the legend.
# ) +
# scale_starshape_manual(
# values=c(1, 15),
# guide=guide_legend(
# keywidth=0.5, # adjust width of legend
# keyheight=0.5, # adjust height of legend
# order=1 # adjust the order of legend for multiple legends.
# ),
# na.translate=FALSE # to remove the NA legend.
# )
#p2
# Or if you don't use %<+% to import annotation dataset, instead of `data` parameter of `geom_fruit`.
# You should specify the column contained tip labels to y axis of `mapping`, here is `y=ID`.
# the `position` parameter was set to `identity` to add the points on the tip nodes.
p2 <- p +
geom_fruit(
data=dat1,
geom=geom_star,
mapping=aes(y=ID, fill=Location, size=Length, starshape=Group),
position="identity",
starstroke=0.2
) +
scale_size_continuous(
range=c(1, 3), # the range of size.
guide=guide_legend(
keywidth=0.5,
keyheight=0.5,
override.aes=list(starshape=15),
order=2
)
) +
scale_fill_manual(
values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
guide="none"
) +
scale_starshape_manual(
values=c(1, 15),
guide=guide_legend(
keywidth=0.5,
keyheight=0.5,
order=1
)
)
p2
# Next, we will add a heatmap layer on the outer ring of p2 using `geom_tile` of `ggplot2`.
# Since we want to map some variable of dataset to the `fill` aesthetics of `geom_tile`, but
# the `fill` of p2 had been mapped. So I need use `new_scale_fill` of `ggnewscale` package to initialize it.
p3 <- p2 +
new_scale_fill() +
geom_fruit(
data=dat2,
geom=geom_tile,
mapping=aes(y=ID, x=Pos, fill=Type),
offset=0.08, # The distance between external layers, default is 0.03 times of x range of tree.
pwidth=0.25 # width of the external layer, default is 0.2 times of x range of tree.
) +
scale_fill_manual(
values=c("#339933", "#dfac03"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=3)
)
p3
# You can also add heatmap layer for continuous values.
p4 <- p3 +
new_scale_fill() +
geom_fruit(
data=dat3,
geom=geom_tile,
mapping=aes(y=ID, x=Type2, alpha=Alpha, fill=Type2),
pwidth=0.15,
axis.params=list(
axis="x", # add axis text of the layer.
text.angle=-45, # the text angle of x-axis.
hjust=0 # adjust the horizontal position of text of axis.
)
) +
scale_fill_manual(
values=c("#b22222", "#005500", "#0000be", "#9f1f9f"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=4)
) +
scale_alpha_continuous(
range=c(0, 0.4), # the range of alpha
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=5)
)
# Then add a bar layer outside of the tree.
p5 <- p4 +
new_scale_fill() +
geom_fruit(
data=dat1,
geom=geom_bar,
mapping=aes(y=ID, x=Abundance, fill=Location), #The 'Abundance' of 'dat1' will be mapped to x
pwidth=0.4,
stat="identity",
orientation="y", # the orientation of axis.
axis.params=list(
axis="x", # add axis text of the layer.
text.angle=-45, # the text size of axis.
hjust=0 # adjust the horizontal position of text of axis.
),
grid.params=list() # add the grid line of the external bar plot.
) +
scale_fill_manual(
values=c("#F8766D", "#C49A00", "#53B400", "#00C094", "#00B6EB", "#A58AFF", "#FB61D7"),
guide=guide_legend(keywidth=0.5, keyheight=0.5, order=6)
) +
theme(#legend.position=c(0.96, 0.5), # the position of legend.
legend.background=element_rect(fill=NA), # the background of legend.
legend.title=element_text(size=7), # the title size of legend.
legend.text=element_text(size=6), # the text size of legend.
legend.spacing.y = unit(0.02, "cm") # the distance of legends (y orientation).
)
p5
## ---- fig.align="center", fig.width=7, fig.width=7, multilayer----------------
# To reproduce.
set.seed(1024)
# generate 100 tip point tree.
tr <- rtree(100)
# generate three datasets, which are the same except the third column name.
dt <- data.frame(id=tr$tip.label, value=abs(rnorm(100)), group=c(rep("A",50),rep("B",50)))
df <- dt
dtf <- dt
colnames(df)[[3]] <- "group2"
colnames(dtf)[[3]] <- "group3"
# plot tree
p <- ggtree(tr, layout="fan", open.angle=0)
p
# the first ring.
p1 <- p +
geom_fruit(
data=dt,
geom=geom_bar,
mapping=aes(y=id, x=value, fill=group),
orientation="y",
stat="identity"
) +
new_scale_fill()
p1
# the second ring
# geom_fruit_list is a list, which first element must be layer of geom_fruit.
p2 <- p1 +
geom_fruit_list(
geom_fruit(
data = df,
geom = geom_bar,
mapping = aes(y=id, x=value, fill=group2),
orientation = "y",
stat = "identity"
),
scale_fill_manual(values=c("blue", "red")), # To map group2
new_scale_fill(), # To initialize fill scale.
geom_fruit(
data = dt,
geom = geom_star,
mapping = aes(y=id, x=value, fill=group),
size = 2.5,
color = NA,
starstroke = 0
)
) +
new_scale_fill()
p2
# The third ring
p3 <- p2 +
geom_fruit(
data=dtf,
geom=geom_bar,
mapping = aes(y=id, x=value, fill=group3),
orientation = "y",
stat = "identity"
) +
scale_fill_manual(values=c("#00AED7", "#009E73"))
p3
## ---- echo=FALSE--------------------------------------------------------------
sessionInfo()
Try the ggtreeExtra package in your browser
Any scripts or data that you put into this service are public.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
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