I encountered a situation in which I want to create a plot that was facetted by three grouping variables. To do so, I would simply use facet_grid(f1 ~ f2 + f3), but the issue here is that the labels for f2 would be redundant, and it would be much better to have them span the facets for f3 nested within f2.


df <- tribble(
  ~x, ~y, ~f1, ~f2, ~f3,
  0.5, 0.5, "a", "a", "a",
  0.5, 0.5, "b", "a", "a",
  0.5, 0.5, "a", "b", "a",
  0.5, 0.5, "b", "b", "a",
  0.5, 0.5, "a", "a", "b",
  0.5, 0.5, "b", "a", "b",
  0.5, 0.5, "a", "b", "b",
  0.5, 0.5, "b", "b", "b"

p <- ggplot(df, aes(x = x, y = y)) +
  geom_point() +
  facet_grid(f1 ~ f2 + f3)

MWE of nested facet plot

Again, I'm looking to combine the labels for f2 so that they are not so redundant.

Edit: This is different from other questions in that it asks how to use the existing groupings to modify a facet as opposed to adding a new one.


2 Answers 2


I'm sorry necroing this thread and unintended self-promotion, but I had a go at generalizing this to a facet_nested() function and it can be found in the ggh4x package.

The function isn't tested extensively but I thought it might be of some convenience to people. Maybe some good feedback will come from this.

There are two other modifications that I made in this function beyond the scope of grouping strips. One is that it doesn't automatically expand missing variables. This is because I was of the opinion that nested facets should be able to co-exist with non-nested facets without any entries to the 2nd or further arguments in vars() when plotting with two data.frames. The second is that it orders the strips from outer to inner, so that inner is nearer to the panels than outer, even when switch is set.

Reproducing the plot in this question would then be as follows, assuming df is the df in the question above:

# library(ggh4x)
p <- ggplot(df, aes(x = x, y = y)) +
  geom_point() +
  facet_nested(f1 ~ f2 + f3)

enter image description here

There was also a related question with a more real-world example plot, which would work like the following, assuming df is the df from that question:

p <- ggplot(df, aes("", density)) + 
  geom_boxplot(width=0.7, position=position_dodge(0.7)) + 
  theme_bw() +
  facet_nested(. ~ species + location +  position) +
        strip.background=element_rect(color="grey30", fill="grey90"),
        axis.ticks.x=element_blank()) +

enter image description here

  • Perhaps this function can go to the ggforce package? It has lots of functionality about annotation, and it can be handy when color, shape are to encode other things.
    – llrs
    Apr 30, 2019 at 10:55
  • I would think that it more belongs in the ggplot2 package itself since it relies on several internal ggplot2 functions.
    – ZNK
    Apr 30, 2019 at 11:02
  • 2
    I think ggplot maintains the philosophy that functions in the ggplot2 package should be 1. generally applicable and have low maintenance or 2. be an essential feature. Given that it is not been tested a lot (high maintenance) and isn't an essential feature, this would be best suited for an extension package.
    – teunbrand
    Apr 30, 2019 at 12:26
  • 1
    facet_nested is definitely something I've been wanting for a long time; thanks for re-raising. Features-wise, about the only thing to ask for is an additional theme-ing lever, to adjust the panel spacing by nesting. Probably a nesting-depth multiplier is sufficient - I.e., if the spacing between panels at lowest level is 1, then one level up its 1.1, then two levels up 1.1^2, etc.
    – Carl
    Aug 16, 2019 at 10:42
  • 1
    There is afacet_nested_wrap function too in ggh4x. If that doesn't suit your needs, I'd need more details than that.
    – teunbrand
    May 17, 2022 at 16:55

The answer to this lies within the grid and gtable packages. Everything in the plot is laid out in a particular order and you can find where everything is if you dig a little.

library('magrittr') # for the %>% that I love so well

# First get the grob
z <- ggplotGrob(p) 

The ultimate goal of this operation is to overlay the top facet label, but the trick is that both of these facets exist on the same row in the grid space. They are a table within a table (look at the rows with the name "strip", also take note of the zeroGrob; these will be useful later):

## TableGrob (13 x 14) "layout": 34 grobs
##     z         cells       name                                   grob
## 1   0 ( 1-13, 1-14) background        rect[plot.background..rect.522]
## 2   1 ( 7- 7, 4- 4)  panel-1-1               gTree[panel-1.gTree.292]


## 20  3 ( 7- 7,12-12)   axis-r-1                         zeroGrob[NULL]
## 21  3 ( 9- 9,12-12)   axis-r-2                         zeroGrob[NULL]
## 22  2 ( 6- 6, 4- 4)  strip-t-1                          gtable[strip]
## 23  2 ( 6- 6, 6- 6)  strip-t-2                          gtable[strip]
## 24  2 ( 6- 6, 8- 8)  strip-t-3                          gtable[strip]
## 25  2 ( 6- 6,10-10)  strip-t-4                          gtable[strip]
## 26  2 ( 7- 7,11-11)  strip-r-1                          gtable[strip]
## 27  2 ( 9- 9,11-11)  strip-r-2                          gtable[strip]


## 32  8 ( 3- 3, 4-10)   subtitle  zeroGrob[plot.subtitle..zeroGrob.519]
## 33  9 ( 2- 2, 4-10)      title     zeroGrob[plot.title..zeroGrob.518]
## 34 10 (12-12, 4-10)    caption   zeroGrob[plot.caption..zeroGrob.520]

If you zoom in to the first strip, you can see the nested structure:

## TableGrob (2 x 1) "strip": 2 grobs
##   z     cells  name                                 grob
## 1 1 (1-1,1-1) strip absoluteGrob[strip.absoluteGrob.451]
## 2 2 (2-2,1-1) strip absoluteGrob[strip.absoluteGrob.475]

For each grob, we have an object that lists the order in which it's plotted (z), the position in the grid (cells), a label (name), and a geometry (grob).

Since we can create gtables within gtables, we are going to use this to plot over our original plot. First, we need to find the positions in the plot that need replacing.

# Find the location of the strips in the main plot
locations <- grep("strip-t", z$layout$name)

# Filter out the strips (trim = FALSE is important here for positions relative to the main plot)
strip <- gtable_filter(z, "strip-t", trim = FALSE)

# Gathering our positions for the main plot
top <- strip$layout$t[1]
l   <- strip$layout$l[c(1, 3)]
r   <- strip$layout$r[c(2, 4)]

Once we have the positions, we need to create a replacement table. We can do this with a matrix of lists (yes, it's weird. Just roll with it). This matrix needs to have three columns and two rows in our case because of the two facets and the gap between them. Since we are just going to replace data in the matrix later, we're going to create one with zeroGrobs:

mat   <- matrix(vector("list", length = 6), nrow = 2)
mat[] <- list(zeroGrob())

# The separator for the facets has zero width
res <- gtable_matrix("toprow", mat, unit(c(1, 0, 1), "null"), unit(c(1, 1), "null"))

The mask is created in two steps, covering the first facet group and then the second. In the first part, we are using the location we recorded earlier to grab the appropriate grob from the original plot and add it on top of our replacement matrix res, spanning the entire length. We then add that matrix on top of our plot.

# Adding the first layer
zz <- res %>%
  gtable_add_grob(z$grobs[[locations[1]]]$grobs[[1]], 1, 1, 1, 3) %>%
  gtable_add_grob(z, ., t = top,  l = l[1],  b = top,  r = r[1], name = c("add-strip"))

# Adding the second layer (note the indices)
pp <- gtable_add_grob(res, z$grobs[[locations[3]]]$grobs[[1]], 1, 1, 1, 3) %>%
  gtable_add_grob(zz, ., t = top,  l = l[2],  b = top,  r = r[2], name = c("add-strip"))

# Plotting

Nested facet labels

  • 3
    Thanks very much for the solution. I've been struggling to work out how to generalise this solution to modify the facet labels if they occurred on the right of the plot. Could you show how one would modify your solution to suite the case where the layout was based on the plot function ggplot(cbind(df,df), aes(x = x, y = y)) + geom_point() + facet_grid(f1 + f2 ~ f3)? I further need to generalise to a case with 12 facet rows reduced to 6 outer right labels rather than 4 and 2 (as the rewritten function I've provided would produce). Happy to provide a clear example if that helps. Many thanks!
    – nickb
    May 18, 2017 at 9:29
  • Hi @nickb, you might want to look at stackoverflow.com/a/55911134/2752888
    – ZNK
    Apr 30, 2019 at 10:47
  • Thanks for sharing a nice solution. For some reason I am failing to make it work when there are multiple rows in a facet_wrap(~id + id2, nrow = 4, ncol=8) setting. This is probably just me not fully understanding how I need to adapt your solution or overlooking something stupid. See stackoverflow.com/questions/62652308/… (with minimum viable example & created plots).
    – Björn
    Jun 30, 2020 at 8:36

Your Answer

Reminder: Answers generated by Artificial Intelligence tools are not allowed on Stack Overflow. Learn more

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge that you have read and understand our privacy policy and code of conduct.

Not the answer you're looking for? Browse other questions tagged or ask your own question.