# Creating a half-donut, or parliamentary seating, chart

I'd like to create a chart displaying the size of the seats to a parliament, such as the one below, in ggplot2. My main problem is, essentially, how do I turn a donut chart to a half-donut chart (half-circle arc)? Using the picture above as an example, I don't know where to go from here:

``````df <- data.frame(Party = c("GUE/NGL", "S&D", "Greens/EFA", "ALDE", "EPP", "ECR", "EFD", "NA"),
Number = c(35, 184, 55, 84, 265, 54, 32, 27))
df\$Party <- factor(df\$Party)
df\$Share <- df\$Number / sum(df\$Number)
df\$ymax <- cumsum(df\$Share)
df\$ymin <- c(0, head(df\$ymax, n= -1))

ggplot(df, aes(fill = Party, ymax = ymax, ymin = ymin, xmax = 2, xmin = 1)) + geom_rect() +
coord_polar(theta = "y") + xlim(c(0, 2))
`````` To get labels etc you can use unit circle properties! I wrote a small function trying to recreate the style of the plot in your question :)

``````library(ggforce)

parlDiag <- function(Parties, shares, cols = NULL, repr=c("absolute", "proportion")) {
repr = match.arg(repr)
stopifnot(length(Parties) == length(shares))
if (repr == "proportion") {
stopifnot(sum(shares) == 1)
}
if (!is.null(cols)) {
names(cols) <- Parties
}

# arc start/end in rads, last one reset bc rounding errors
cc <- cumsum(c(-pi/2, switch(repr, "absolute" = (shares / sum(shares)) * pi, "proportion" = shares * pi)))
cc[length(cc)] <- pi/2

# get angle of arc midpoints
meanAngles <- colMeans(rbind(cc[2:length(cc)], cc[1:length(cc)-1]))

# unit circle
labelX <- sin(meanAngles)
labelY <- cos(meanAngles)

# prevent bounding box < y=0
labelY <- ifelse(labelY < 0.015, 0.015, labelY)

p <- ggplot() + theme_no_axes() + coord_fixed() +
expand_limits(x = c(-1.3, 1.3), y = c(0, 1.3)) +
theme(panel.border = element_blank()) +
theme(legend.position = "none") +

geom_arc_bar(aes(x0 = 0, y0 = 0, r0 = 0.5, r = 1,
start = cc[1:length(shares)],
end = c(cc[2:length(shares)], pi/2), fill = Parties)) +

switch(is.null(cols)+1, scale_fill_manual(values = cols), NULL) +

# for label and line positions, just scale sin & cos to get in and out of arc
geom_path(aes(x = c(0.9 * labelX, 1.15 * labelX), y = c(0.9 * labelY, 1.15 * labelY),
group = rep(1:length(shares), 2)), colour = "white", size = 2) +
geom_path(aes(x = c(0.9 * labelX, 1.15 * labelX), y = c(0.9 * labelY, 1.15 * labelY),
group = rep(1:length(shares), 2)), size = 1) +

geom_label(aes(x = 1.15 * labelX, y = 1.15 * labelY,
label = switch(repr,
"absolute" = sprintf("%s\n%i", Parties, shares),
"proportion" = sprintf("%s\n%i%%", Parties, round(shares*100)))), fontface = "bold",

geom_point(aes(x = 0.9 * labelX, y = 0.9 * labelY), colour = "white", size = 2) +
geom_point(aes(x = 0.9 * labelX, y = 0.9 * labelY)) +
geom_text(aes(x = 0, y = 0, label = switch(repr,
"absolute" = (sprintf("Total: %i MPs", sum(shares))),
"proportion" = "")),
fontface = "bold", size = 7)

return(p)
}

bt <- data.frame(parties = c("CDU", "CSU", "SPD", "AfD", "FDP", "Linke", "Grüne", "Fraktionslos"),
seats   = c(200, 46, 153, 92, 80, 69, 67, 2),
cols    = c("black", "blue", "red", "lightblue", "yellow", "purple", "green", "grey"),
stringsAsFactors = FALSE)

parlDiag(bt\$parties, bt\$seats, cols = bt\$cols)
`````` • That's brilliant, thank you for the time you took to set this up.
– Phil
Dec 10, 2017 at 19:48
– skoh
Jan 25, 2019 at 15:37
• @skoh thanks - I've implemented parts of this in my `ggpol` package. There is also a new package called `ggparliament` that you might want to look up :) Jan 25, 2019 at 19:26

FWIW, one might also check out the nice `ggforce` package:

``````library(tidyverse)
library(ggforce)
library(scales)
df %>%
mutate_at(vars(starts_with("y")), rescale, to=pi*c(-.5,.5), from=0:1) %>%
ggplot +
geom_arc_bar(aes(x0 = 0, y0 = 0, r0 = .5, r = 1, start = ymin, end = ymax, fill=Party)) +
coord_fixed()
`````` • How would one add labels with `geom_text()` (say, the number of seats) such that they are positioned in the middle of each corresponding slice?
– Phil
Sep 27, 2017 at 17:45

Would this work for you?

``````ggplot(df, aes(fill = Party, ymax = ymax, ymin = ymin, xmax = 2, xmin = 1)) + geom_rect() +
coord_polar(theta = "y",start=-pi/2) + xlim(c(0, 2)) + ylim(c(0,2))
``````

Basically you just set the `ylim` to be 2x your max so it only plots it on half. In this case we set the y limits to be from 0 to 2. Then you can offset the start in `coord_polar(start=)` to get it in proper place. 