Here's a nice and tidy way to do it:

```
library(ggplot2)
library(data.table)
# get data, calculate quantities of interest
diam <- diamonds; setDT(diam)
tabulated <- diam[, .N, by = .(cut, color, clarity)]
# plot
ggplot(tabulated, aes(x=2, y=N, fill=color)) +
geom_bar(position = 'fill', stat = 'identity') +
facet_grid(clarity ~ cut) +
xlim(0.5, 2.5) +
coord_polar(theta = 'y') +
labs(x=NULL, y=NULL)
```

Ok, how does this work? Let's look at your code - you get some plots that look like donuts but with varying hole sizes. Why is that? **It's helpful to 'unpie' the data and just look at the output as bars.** (I'm going to subset to just two rows of your facets for simplicity.)

```
ggplot(subset(diamonds, as.numeric(clarity) <=2),
aes(x = cut, fill = color)) +
geom_bar(position = 'fill', stat = 'bin') +
facet_grid(clarity ~ cut)
```

You have a value mapped to X that isn't doing anything useful -- it's offsetting the bars, but since you are faceting on that variable each plot only has one stack of bars in it.

Yet when you add `coord_polar`

, the plots with offset X values show up as donuts, while the plot with x=1 shows up as a pie That's because with `coord_polar`

, the series of stacked bars are nested inside each other, and X=1 means the innermost 'coil'.

So, the solution begins with NOT mapping a real value to X. You can make X=1 for all plots, but then you'll get all pies, not donuts. What you want is a stacked bar, with some space before it on the x-axis (that’ll be the donut hole). You could do this by duplicating the data, so you have two sets stacked bars, then blanking out the first stack. That’s the answer I had up before, and it works (see edit history for details).

Hadley suggested a simpler solution via twitter, though, which I feel obligated to post for posterity: adjust the x limits to force some leading blank space on the x axis.

To begin, calculate the values you want (I'm using `data.table`

for this):

```
library(data.table)
diam <- diamonds; setDT(diam)
tabulated <- diam[, .N, by = .(cut, color, clarity)]
```

Now plot, with some room before the stack of bars

There's the stacked bar chart you want, and all you have to do is add `coord_polar`

(as done at the top of the post). You can play with the x limits to tune the donut/hole ratio to your liking.

minimalreproducible example, that is less than 85 lines of code and doesn't require going to some website to download an SPSS file? Please use built-in data that has similar structure, or quickly simulate data, or share your transformed data - the data in your plot - using`dput()`

. See here for more tips on making a good example. – Gregor Nov 4 '15 at 22:37`cut`

function which is much nicer than nested`ifelse`

statements for binning numeric data. Also`x %in% c("a", "b", "c")`

is usually nicer than`x == "a" | x == "b" | x == "c"`

. – Gregor Nov 4 '15 at 22:43`x = cut`

with`x = factor(1)`

turns the rings into evenly-sized pies, but I want to make evenly-sized rings. – Username Nov 6 '15 at 17:30