dplyr verbs are particularly powerful when you apply them to grouped
data frames (grouped_df objects). This vignette shows
you:
How to group, inspect, and ungroup with group_by()
and friends.
How individual dplyr verbs changes their behaviour when applied to grouped data frame.
How to access data about the “current” group from within a verb.
We’ll start by loading dplyr:
group_by()The most important grouping verb is group_by(): it takes
a data frame and one or more variables to group by:
You can see the grouping when you print the data:
by_species
#> # A tibble: 87 × 14
#> # Groups: species [38]
#> name height mass hair_color skin_color eye_color birth_year sex gender
#> <chr> <int> <dbl> <chr> <chr> <chr> <dbl> <chr> <chr>
#> 1 Luke Sky… 172 77 blond fair blue 19 male mascu…
#> 2 C-3PO 167 75 <NA> gold yellow 112 none mascu…
#> 3 R2-D2 96 32 <NA> white, bl… red 33 none mascu…
#> 4 Darth Va… 202 136 none white yellow 41.9 male mascu…
#> # ℹ 83 more rows
#> # ℹ 5 more variables: homeworld <chr>, species <chr>, films <list>,
#> # vehicles <list>, starships <list>
by_sex_gender
#> # A tibble: 87 × 14
#> # Groups: sex, gender [6]
#> name height mass hair_color skin_color eye_color birth_year sex gender
#> <chr> <int> <dbl> <chr> <chr> <chr> <dbl> <chr> <chr>
#> 1 Luke Sky… 172 77 blond fair blue 19 male mascu…
#> 2 C-3PO 167 75 <NA> gold yellow 112 none mascu…
#> 3 R2-D2 96 32 <NA> white, bl… red 33 none mascu…
#> 4 Darth Va… 202 136 none white yellow 41.9 male mascu…
#> # ℹ 83 more rows
#> # ℹ 5 more variables: homeworld <chr>, species <chr>, films <list>,
#> # vehicles <list>, starships <list>Or use tally() to count the number of rows in each
group. The sort argument is useful if you want to see the
largest groups up front.
by_species %>% tally()
#> # A tibble: 38 × 2
#> species n
#> <chr> <int>
#> 1 Aleena 1
#> 2 Besalisk 1
#> 3 Cerean 1
#> 4 Chagrian 1
#> # ℹ 34 more rows
by_sex_gender %>% tally(sort = TRUE)
#> # A tibble: 6 × 3
#> # Groups: sex [5]
#> sex gender n
#> <chr> <chr> <int>
#> 1 male masculine 60
#> 2 female feminine 16
#> 3 none masculine 5
#> 4 <NA> <NA> 4
#> # ℹ 2 more rowsAs well as grouping by existing variables, you can group by any
function of existing variables. This is equivalent to performing a
mutate() before the
group_by():
You can see underlying group data with group_keys(). It
has one row for each group and one column for each grouping
variable:
by_species %>% group_keys()
#> # A tibble: 38 × 1
#> species
#> <chr>
#> 1 Aleena
#> 2 Besalisk
#> 3 Cerean
#> 4 Chagrian
#> # ℹ 34 more rows
by_sex_gender %>% group_keys()
#> # A tibble: 6 × 2
#> sex gender
#> <chr> <chr>
#> 1 female feminine
#> 2 hermaphroditic masculine
#> 3 male masculine
#> 4 none feminine
#> # ℹ 2 more rowsYou can see which group each row belongs to with
group_indices():
by_species %>% group_indices()
#> [1] 11 6 6 11 11 11 11 6 11 11 11 11 34 11 24 12 11 38 36 11 11 6 31 11 11
#> [26] 18 11 11 8 26 11 21 11 11 10 10 10 11 30 7 11 11 37 32 32 1 33 35 29 11
#> [51] 3 20 37 27 13 23 16 4 38 38 11 9 17 17 11 11 11 11 5 2 15 15 11 6 25
#> [76] 19 28 14 34 11 38 22 11 11 11 6 11And which rows each group contains with
group_rows():
by_species %>% group_rows() %>% head()
#> <list_of<integer>[6]>
#> [[1]]
#> [1] 46
#>
#> [[2]]
#> [1] 70
#>
#> [[3]]
#> [1] 51
#>
#> [[4]]
#> [1] 58
#>
#> [[5]]
#> [1] 69
#>
#> [[6]]
#> [1] 2 3 8 22 74 86Use group_vars() if you just want the names of the
grouping variables:
If you apply group_by() to an already grouped dataset,
will overwrite the existing grouping variables. For example, the
following code groups by homeworld instead of
species:
by_species %>%
group_by(homeworld) %>%
tally()
#> # A tibble: 49 × 2
#> homeworld n
#> <chr> <int>
#> 1 Alderaan 3
#> 2 Aleen Minor 1
#> 3 Bespin 1
#> 4 Bestine IV 1
#> # ℹ 45 more rowsTo augment the grouping, using
.add = TRUE1. For example, the following code groups by
species and homeworld:
To remove all grouping variables, use ungroup():
You can also choose to selectively ungroup by listing the variables you want to remove:
The following sections describe how grouping affects the main dplyr verbs.
summarise()summarise() computes a summary for each group. This
means that it starts from group_keys(), adding summary
variables to the right hand side:
by_species %>%
summarise(
n = n(),
height = mean(height, na.rm = TRUE)
)
#> # A tibble: 38 × 3
#> species n height
#> <chr> <int> <dbl>
#> 1 Aleena 1 79
#> 2 Besalisk 1 198
#> 3 Cerean 1 198
#> 4 Chagrian 1 196
#> # ℹ 34 more rowsThe .groups= argument controls the grouping structure of
the output. The historical behaviour of removing the right hand side
grouping variable corresponds to .groups = "drop_last"
without a message or .groups = NULL with a message (the
default).
by_sex_gender %>%
summarise(n = n()) %>%
group_vars()
#> `summarise()` has grouped output by 'sex'. You can override using the `.groups`
#> argument.
#> [1] "sex"
by_sex_gender %>%
summarise(n = n(), .groups = "drop_last") %>%
group_vars()
#> [1] "sex"Since version 1.0.0 the groups may also be kept
(.groups = "keep") or dropped
(.groups = "drop").
by_sex_gender %>%
summarise(n = n(), .groups = "keep") %>%
group_vars()
#> [1] "sex" "gender"
by_sex_gender %>%
summarise(n = n(), .groups = "drop") %>%
group_vars()
#> character(0)When the output no longer have grouping variables, it becomes ungrouped (i.e. a regular tibble).
select(), rename(), and
relocate()rename() and relocate() behave identically
with grouped and ungrouped data because they only affect the name or
position of existing columns. Grouped select() is almost
identical to ungrouped select, except that it always includes the
grouping variables:
by_species %>% select(mass)
#> Adding missing grouping variables: `species`
#> # A tibble: 87 × 2
#> # Groups: species [38]
#> species mass
#> <chr> <dbl>
#> 1 Human 77
#> 2 Droid 75
#> 3 Droid 32
#> 4 Human 136
#> # ℹ 83 more rowsIf you don’t want the grouping variables, you’ll have to first
ungroup(). (This design is possibly a mistake, but we’re
stuck with it for now.)
arrange()Grouped arrange() is the same as ungrouped
arrange(), unless you set .by_group = TRUE, in
which case it will order first by the grouping variables.
by_species %>%
arrange(desc(mass)) %>%
relocate(species, mass)
#> # A tibble: 87 × 14
#> # Groups: species [38]
#> species mass name height hair_color skin_color eye_color birth_year sex
#> <chr> <dbl> <chr> <int> <chr> <chr> <chr> <dbl> <chr>
#> 1 Hutt 1358 Jabba D… 175 <NA> green-tan… orange 600 herm…
#> 2 Kaleesh 159 Grievous 216 none brown, wh… green, y… NA male
#> 3 Droid 140 IG-88 200 none metal red 15 none
#> 4 Human 136 Darth V… 202 none white yellow 41.9 male
#> # ℹ 83 more rows
#> # ℹ 5 more variables: gender <chr>, homeworld <chr>, films <list>,
#> # vehicles <list>, starships <list>
by_species %>%
arrange(desc(mass), .by_group = TRUE) %>%
relocate(species, mass)
#> # A tibble: 87 × 14
#> # Groups: species [38]
#> species mass name height hair_color skin_color eye_color birth_year sex
#> <chr> <dbl> <chr> <int> <chr> <chr> <chr> <dbl> <chr>
#> 1 Aleena 15 Ratts … 79 none grey, blue unknown NA male
#> 2 Besalisk 102 Dexter… 198 none brown yellow NA male
#> 3 Cerean 82 Ki-Adi… 198 white pale yellow 92 male
#> 4 Chagrian NA Mas Am… 196 none blue blue NA male
#> # ℹ 83 more rows
#> # ℹ 5 more variables: gender <chr>, homeworld <chr>, films <list>,
#> # vehicles <list>, starships <list>Note that second example is sorted by species (from the
group_by() statement) and then by mass (within
species).
mutate()In simple cases with vectorised functions, grouped and ungrouped
mutate() give the same results. They differ when used with
summary functions:
# Subtract off global mean
starwars %>%
select(name, homeworld, mass) %>%
mutate(standard_mass = mass - mean(mass, na.rm = TRUE))
#> # A tibble: 87 × 4
#> name homeworld mass standard_mass
#> <chr> <chr> <dbl> <dbl>
#> 1 Luke Skywalker Tatooine 77 -20.3
#> 2 C-3PO Tatooine 75 -22.3
#> 3 R2-D2 Naboo 32 -65.3
#> 4 Darth Vader Tatooine 136 38.7
#> # ℹ 83 more rows
# Subtract off homeworld mean
starwars %>%
select(name, homeworld, mass) %>%
group_by(homeworld) %>%
mutate(standard_mass = mass - mean(mass, na.rm = TRUE))
#> # A tibble: 87 × 4
#> # Groups: homeworld [49]
#> name homeworld mass standard_mass
#> <chr> <chr> <dbl> <dbl>
#> 1 Luke Skywalker Tatooine 77 -8.38
#> 2 C-3PO Tatooine 75 -10.4
#> 3 R2-D2 Naboo 32 -32.2
#> 4 Darth Vader Tatooine 136 50.6
#> # ℹ 83 more rowsOr with window functions like min_rank():
# Overall rank
starwars %>%
select(name, homeworld, height) %>%
mutate(rank = min_rank(height))
#> # A tibble: 87 × 4
#> name homeworld height rank
#> <chr> <chr> <int> <int>
#> 1 Luke Skywalker Tatooine 172 28
#> 2 C-3PO Tatooine 167 20
#> 3 R2-D2 Naboo 96 5
#> 4 Darth Vader Tatooine 202 72
#> # ℹ 83 more rows
# Rank per homeworld
starwars %>%
select(name, homeworld, height) %>%
group_by(homeworld) %>%
mutate(rank = min_rank(height))
#> # A tibble: 87 × 4
#> # Groups: homeworld [49]
#> name homeworld height rank
#> <chr> <chr> <int> <int>
#> 1 Luke Skywalker Tatooine 172 5
#> 2 C-3PO Tatooine 167 4
#> 3 R2-D2 Naboo 96 1
#> 4 Darth Vader Tatooine 202 10
#> # ℹ 83 more rowsfilter()A grouped filter() effectively does a
mutate() to generate a logical variable, and then only
keeps the rows where the variable is TRUE. This means that
grouped filters can be used with summary functions. For example, we can
find the tallest character of each species:
by_species %>%
select(name, species, height) %>%
filter(height == max(height))
#> # A tibble: 36 × 3
#> # Groups: species [36]
#> name species height
#> <chr> <chr> <int>
#> 1 Greedo Rodian 173
#> 2 Jabba Desilijic Tiure Hutt 175
#> 3 Yoda Yoda's species 66
#> 4 Bossk Trandoshan 190
#> # ℹ 32 more rowsYou can also use filter() to remove entire groups. For
example, the following code eliminates all groups that only have a
single member:
slice() and friendsslice() and friends (slice_head(),
slice_tail(), slice_sample(),
slice_min() and slice_max()) select rows
within a group. For example, we can select the first observation within
each species:
by_species %>%
relocate(species) %>%
slice(1)
#> # A tibble: 38 × 14
#> # Groups: species [38]
#> species name height mass hair_color skin_color eye_color birth_year sex
#> <chr> <chr> <int> <dbl> <chr> <chr> <chr> <dbl> <chr>
#> 1 Aleena Ratts … 79 15 none grey, blue unknown NA male
#> 2 Besalisk Dexter… 198 102 none brown yellow NA male
#> 3 Cerean Ki-Adi… 198 82 white pale yellow 92 male
#> 4 Chagrian Mas Am… 196 NA none blue blue NA male
#> # ℹ 34 more rows
#> # ℹ 5 more variables: gender <chr>, homeworld <chr>, films <list>,
#> # vehicles <list>, starships <list>Similarly, we can use slice_min() to select the smallest
n values of a variable:
by_species %>%
filter(!is.na(height)) %>%
slice_min(height, n = 2)
#> # A tibble: 47 × 14
#> # Groups: species [38]
#> name height mass hair_color skin_color eye_color birth_year sex gender
#> <chr> <int> <dbl> <chr> <chr> <chr> <dbl> <chr> <chr>
#> 1 Ratts Ty… 79 15 none grey, blue unknown NA male mascu…
#> 2 Dexter J… 198 102 none brown yellow NA male mascu…
#> 3 Ki-Adi-M… 198 82 white pale yellow 92 male mascu…
#> 4 Mas Amed… 196 NA none blue blue NA male mascu…
#> # ℹ 43 more rows
#> # ℹ 5 more variables: homeworld <chr>, species <chr>, films <list>,
#> # vehicles <list>, starships <list>Note that the argument changed from
add = TRUE to .add = TRUE in dplyr 1.0.0.↩︎