This repository contains scripts to produce customized upset plots, an alternative to Venn diagrams.
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Author: Chenxin Li, postdoctoral associate at Center for Applied Genetic Technologies, University of Georgia.
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Contact: [email protected] | @ChenxinLi2
The Scripts/ directory contains .Rmd files that generate the graphics shown below.
It requires R, RStudio, and the rmarkdown package.
- R: R Download
- RStudio: RStudio Download
- rmarkdown can be installed using the intall packages interface in RStudio
In Venn diagrams, we use area to represent set or subset sizes. However, I have found it much easier to discern different lengths than different area.
This is a workflow for set/intersect visualization using UpSet plots.
The upstream segment of the workflow (intersect size determination) is based on the re-implementation of UpSetR by ComplexHeatmap.
List, data frame, and plot handling was provided by the tidyverse.
Lastly, construction of composite plots is provided by patchwork.
In traditional upset plots, intersects/subsets are indicated by dots. When two dots are connected by a line, it represents the distinct intersect between the two sets. Set and intersect sizes are then represented by bars.
The workflow produces customized upset plot where intersects/subsets are indicated by a heatmap. The customized upset plot has 4 parts:
- The upper left shows the total set sizes.
- The upper right is legend/color scheme.
- The lower left is a matrix showing subsets. E.g., when Set 1 and Set 2 are colored, it means the intersection of Set 1 & Set 2, but not in any other sets.
- The lower right shows the sizes of subsets.
With upset plot, you can subset which intersect to show. E.g., if I only want to show intersects involving Set 3, I can do that.
In addition, upset plots can be extended.
Mean separation plots (e.g., box plot, bar plot) and annotations (heatmaps) can be added to the sides of the upset plot using patchwork.
I also provided some example data. Data from Li et al., 2020, Genome Research
library(tidyverse)
library(patchwork)
library(ComplexHeatmap)
library(RVenn) # Only required if you want Venn diagrams
library(RColorBrewer) # This is for the colors only, not actually necessary
Auxiliary dependencies:
- For 2-3 sets, Venn diagrams can be made readily using the RVenn package. The
ggVenn()function fromRVennproduces a ggplot object that is a Venn Diagram. - The official way to install
ComplexHeatmapis viadevtools::install_github("jokergoo/ComplexHeatmap"), which requires thedevtoolspackage. - For mean separation plots, a suggested package is ggbeeswarm, a violin plot, but with actual data points.
- For color palettes, suggested are
viridisandRColorBrewerpackages. - If you want to save plot as .svg file, you may need the R package
svglite. If you are using Mac, you may need to install XQuart.
Here are example scripts for 3 sets.
The workflow is scalable to more sets, as intersect size calculation is automatic (provided by ComplexHeatmap).
However, as the number of sets increases, the number of subsets increases geometrically, and thus filtering for subset of interest will be important.
The easiest way to use this workflow is copy the code from this README file, or download one of the .Rmd files from the Scripts/ folder.
Then modify the code to suit your data and taste.
my_list <- list(
data1 = letters[1:10],
data2 = letters[3:13],
data3 = letters[6:18])
The required input is a list of vectors.
my_object <- RVenn::Venn(my_list)
ggvenn(
my_object, slice = 1:3,
thickness = 0.5,
alpha = 0.5,
fill = brewer.pal(8, "Set2")
) +
theme_void() +
theme(
legend.position = "none"
)
ggsave("../Results/VennDiagram_quick_start.svg", height = 4, width = 4, bg = "white")
ggsave("../Results/VennDiagram_quick_start.png", height = 4, width = 4, bg = "white")
ggVenn() only goes up to 3 sets. For more sets, it is better to use upset plot.
comb_mat <- make_comb_mat(my_list)
my_names <- set_name(comb_mat)
make_comb_mat() from ComplexHeatmap calculate intersect/subset sizes.
make_comb_mat() produces a matrix object from the list of vectors. The matrix itself can be filtered for intersects/subsets of interst.
For examples, see this .Rmd file at section "Subsetting the intersects".
The rest of code is to produce the 4 pieces that make up a customized upset plot. Since every step along the way is customizable, the result can be highly tailored towards the needs and taste of the user.
my_set_sizes <- set_size(comb_mat) %>%
as.data.frame() %>%
rename(sizes = ".") %>%
mutate(Set = row.names(.))
p1 <- my_set_sizes %>%
mutate(Set = reorder(Set, sizes)) %>%
ggplot(aes(x = Set, y= sizes)) +
geom_bar(stat = "identity", aes(fill = Set), alpha = 0.8, width = 0.7) +
geom_text(aes(label = sizes),
size = 5, angle = 90, hjust = 0, y = 1) +
scale_fill_manual(values = brewer.pal(4, "Set2"), # feel free to use some other colors
limits = my_names) +
labs(x = NULL,
y = "Set size",
fill = NULL) +
theme_classic() +
theme(legend.position = "right",
text = element_text(size= 14),
axis.ticks.y = element_blank(),
axis.text = element_blank()
)
It's not easy to extract legend. But we can write a function for that.
get_legend <- function(p) {
tmp <- ggplot_gtable(ggplot_build(p))
leg <- which(sapply(tmp$grobs, function(x) x$name) == "guide-box")
legend <- tmp$grobs[[leg]]
legend
}
p2 <- get_legend(p1)
my_overlap_sizes <- comb_size(comb_mat) %>%
as.data.frame() %>%
rename(overlap_sizes = ".") %>%
mutate(category = row.names(.))
p3 <- my_overlap_sizes %>%
mutate(category = reorder(category, -overlap_sizes)) %>%
ggplot(aes(x = category, y = overlap_sizes)) +
geom_bar(stat = "identity", fill = "grey80", color = NA, alpha = 0.8, width = 0.7) +
geom_text(aes(label = overlap_sizes, y = 0),
size = 5, hjust = 0, vjust = 0.5) +
labs(y = "Intersect sizes",
x = NULL) +
theme_classic() +
theme(text = element_text(size= 14, color = "black"),
axis.text =element_blank(),
axis.ticks.x = element_blank(),
axis.title.x = element_text(hjust = 0),
) +
coord_flip()
my_overlap_matrix <- str_split(string = my_overlap_sizes$category, pattern = "", simplify = T) %>%
as.data.frame()
colnames(my_overlap_matrix) <- my_names
my_overlap_matrix_tidy <- my_overlap_matrix %>%
cbind(category = my_overlap_sizes$category) %>%
pivot_longer(cols = !category, names_to = "Set", values_to = "value") %>%
full_join(my_overlap_sizes, by = "category") %>%
full_join(my_set_sizes, by = "Set")
p4 <- my_overlap_matrix_tidy %>%
mutate(category = reorder(category, -overlap_sizes)) %>%
mutate(Set = reorder(Set, sizes)) %>%
ggplot(aes(x = Set, y = category))+
geom_tile(aes(fill = Set, alpha = value), color = "grey30", size = 1) +
scale_fill_manual(values = brewer.pal(4, "Set2"), # feel free to use other colors
limits = my_names) +
scale_alpha_manual(values = c(0.8, 0), # color the grid for 1, don't color for 0.
limits = c("1", "0")) +
labs(x = "Sets",
y = "Overlap") +
theme_minimal() +
theme(legend.position = "none",
text = element_text(color = "black", size= 14),
panel.grid = element_blank(),
axis.text = element_blank()
)
wrap_plots(p1, p2, p4, p3,
nrow = 2,
ncol = 2,
heights = c(1, 2), # the more rows in the lower part, the longer it should be
widths = c(1, 0.8),
guides = "collect") &
theme(legend.position = "none")
ggsave("../Results/quick_start.svg", height = 3.5, width = 3, bg = "white")
# this should be a tall & skinny plot
# I prefer .svg, but you can also save as phd or png
# I will open up the .svg file and mannually adjust the size until it's good
# check that nothing is cut off from the plot
# png is for twitter posting
ggsave("../Results/quick_start.png", height = 3.5, width = 3, bg = "white")
I hope you like it and find it pretty. If you use this code for a publication, I'd greatly appreciate if you can cite or acknowledge this repository. DOI: 10.5281/zenodo.7555525