15

What is the best way to filter a data.frame to only get groups of say size 5?

So my data looks as follows:

require(dplyr)
n <- 1e5
x <- rnorm(n)
# Category size ranging each from 1 to 5
cat <- rep(seq_len(n/3), sample(1:5, n/3, replace = TRUE))[1:n]

dat <- data.frame(x = x, cat = cat)

The dplyr way i could come up with was

dat <- group_by(dat, cat)

system.time({
  out1 <- dat %>% filter(n() == 5L)
})
#    user  system elapsed 
#   1.157   0.218   1.497

But this is very slow... Is there a better way in dplyr?

So far my workaround solutions looks as follows:

system.time({
  all_ind <- rep(seq_len(n_groups(dat)), group_size(dat))
  take_only <- which(group_size(dat) == 5L)
  out2 <- dat[all_ind %in% take_only, ]
})
#    user  system elapsed 
#   0.026   0.008   0.036
all.equal(out1, out2) # TRUE

But this doesn't feel very dplyr like...

8
  • 1
    Wait until you see the data.table solution. Not dplyery at all. Mar 30, 2017 at 6:51
  • 1
    Easy too. Something like setDT(dat)[, if(.N == 5) .SD, by = cat]
    – Sotos
    Mar 30, 2017 at 6:54
  • A faster approach in data.table would be setDT(dat)[dat[, .I[.N==5], by = cat]$V1]
    – akrun
    Mar 30, 2017 at 6:56
  • @ChirayuChamoli: Guessing you mean m: Yes it is ordered.
    – Rentrop
    Mar 30, 2017 at 7:36
  • 1
    @ChirayuChamoli: Great answer. Just added it below
    – Rentrop
    Mar 30, 2017 at 12:02

7 Answers 7

27

You can do it more concisely with n():

library(dplyr)
dat %>% group_by(cat) %>% filter(n() == 5)
1
  • If you've read the "The dplyr way i could come up with was" part of the question, you would've known that he/she already tried this. It was considered too slow by the OP.
    – MS Berends
    Jun 15, 2021 at 7:35
7

Here's another dplyr approach you can try

semi_join(dat, count(dat, cat) %>% filter(n == 5), by = "cat")

--

Here's another approach based on OP's original approach with a little modification:

n <- 1e5
x <- rnorm(n)
# Category size ranging each from 1 to 5
cat <- rep(seq_len(n/3), sample(1:5, n/3, replace = TRUE))[1:n]

dat <- data.frame(x = x, cat = cat)

# second data set for the dt approch
dat2 <- data.frame(x = x, cat = cat)

sol_floo0 <- function(dat){
  dat <- group_by(dat, cat)
  all_ind <- rep(seq_len(n_groups(dat)), group_size(dat))
  take_only <- which(group_size(dat) == 5L)
  dat[all_ind %in% take_only, ]
}

sol_floo0_v2 <- function(dat){
  g <- group_by(dat, cat) %>% group_size()
  ind <- rep(g == 5, g)
  dat[ind, ]
}



microbenchmark::microbenchmark(times = 10,
                               sol_floo0(dat),
                               sol_floo0_v2(dat2))
#Unit: milliseconds
#               expr      min       lq     mean   median       uq      max neval cld
#     sol_floo0(dat) 43.72903 44.89957 45.71121 45.10773 46.59019 48.64595    10   b
# sol_floo0_v2(dat2) 29.83724 30.56719 32.92777 31.97169 34.10451 38.31037    10  a 
all.equal(sol_floo0(dat), sol_floo0_v2(dat2))
#[1] TRUE
2
  • Thanks. Thats a huge speedup compared to my filter solution. Still looking for a solution that beats my second hybrid solution...
    – Rentrop
    Mar 30, 2017 at 7:27
  • The second version is nearly as fast as DT solution with the grouping included. Great one
    – Rentrop
    Mar 30, 2017 at 7:59
6

I know you asked for a dplyr solution but if you combine it with some purrr you can get it in one line without specifying any new functions. (A little slower though.)

library(dplyr)
library(purrr)
library(tidyr)

dat %>% 
  group_by(cat) %>% 
  nest() %>% 
  mutate(n = map(data, n_distinct)) %>%
  unnest(n = n) %>% 
  filter(n == 5) %>% 
  select(cat, n)
2

Comparing the answers timewise:

require(dplyr)
require(data.table)
n <- 1e5
x <- rnorm(n)
# Category size ranging each from 1 to 5
cat <- rep(seq_len(n/3), sample(1:5, n/3, replace = TRUE))[1:n]

dat <- data.frame(x = x, cat = cat)

# second data set for the dt approch
dat2 <- data.frame(x = x, cat = cat)

sol_floo0 <- function(dat){
  dat <- group_by(dat, cat)
  all_ind <- rep(seq_len(n_groups(dat)), group_size(dat))
  take_only <- which(group_size(dat) == 5L)
  dat[all_ind %in% take_only, ]
}

sol_floo0_v2 <- function(dat){
  g <- group_by(dat, cat) %>% group_size()
  ind <- rep(g == 5, g)
  dat[ind, ]
}

sol_docendo_discimus <- function(dat){ 
  dat <- group_by(dat, cat)
  semi_join(dat, count(dat, cat) %>% filter(n == 5), by = "cat")
}

sol_akrun <- function(dat2){
  setDT(dat2)[dat2[, .I[.N==5], by = cat]$V1]
}

sol_sotos <- function(dat2){
  setDT(dat2)[, if(.N == 5) .SD, by = cat]
}

sol_chirayu_chamoli <- function(dat){
  rle_ <- rle(dat$cat)
  dat[dat$cat %in% rle_$values[rle_$lengths==5], ]
}

microbenchmark::microbenchmark(times = 20,
                               sol_floo0(dat),
                               sol_floo0_v2(dat),
                               sol_docendo_discimus(dat), 
                               sol_akrun(dat2),
                               sol_sotos(dat2),
                               sol_chirayu_chamoli(dat))

Results in:

Unit: milliseconds
                      expr       min        lq      mean    median        uq       max neval  cld
            sol_floo0(dat)  58.00439  65.28063  93.54014  69.82658  82.79997 280.23114    20   cd
         sol_floo0_v2(dat)  42.27791  50.27953  72.51729  58.63931  67.62540 238.97413    20  bc 
 sol_docendo_discimus(dat) 100.54095 113.15476 126.74142 121.69013 132.62533 183.05818    20    d
           sol_akrun(dat2)  26.88369  34.01925  41.04378  37.07957  45.44784  63.95430    20 ab  
           sol_sotos(dat2)  16.10177  19.78403  24.04375  23.06900  28.05470  35.83611    20 a   
  sol_chirayu_chamoli(dat)  20.67951  24.18100  38.01172  27.61618  31.97834 230.51026    20 ab  
3
  • 1
    Just for good measure, you should include the group_by step in the timing of your function too
    – talat
    Mar 30, 2017 at 7:41
  • @docendodiscimus: You are right for a SO question it is better. In my analysis i already have them grouped. Thats why i excluded it in the measurements...
    – Rentrop
    Mar 30, 2017 at 7:49
  • sol_docendo_discimus does not require the group_by call! That's why the runtime is so high.
    – Seoester
    Oct 15, 2019 at 15:27
2

A very simple way of accelerating the dplyr-way n() filter is to store the result in a new column. The initial time of calculating the group size is amortised if there are multiple filters later on.

library(dplyr)

prep_group <- function(dat) {
    dat %>%
        group_by(cat) %>%
        mutate(
            Occurrences = n()
        ) %>%
        ungroup()
}

# Create a new data frame with the `Occurrences` column:
# dat_prepped <- dat %>% prep_group

Filtering the Occurrences field is much faster than the workaround solution:

sol_floo0 <- function(dat){
    dat <- group_by(dat, cat)
    all_ind <- rep(seq_len(n_groups(dat)), group_size(dat))
    take_only <- which(group_size(dat) == 5L)
    dat[all_ind %in% take_only, ]
}

sol_floo0_v2 <- function(dat){
    g <- group_by(dat, cat) %>% group_size()
    ind <- rep(g == 5, g)
    dat[ind, ]
}

sol_cached <- function(dat) {
    out <- filter(dat, Occurrences == 5L)
}

n <- 1e5
x <- rnorm(n)
# Category size ranging each from 1 to 5
cat <- rep(seq_len(n/3), sample(1:5, n/3, replace = TRUE))[1:n]

dat <- data.frame(x = x, cat = cat)

dat_prepped <- prep_group(dat)

microbenchmark::microbenchmark(times=50, sol_floo0(dat), sol_floo0_v2(dat), sol_cached(dat_prepped))
Unit: microseconds
                    expr       min        lq      mean    median        uq        max neval cld
          sol_floo0(dat) 33345.764 35603.446 42430.441 37994.477 41379.411 144103.471    50   c
       sol_floo0_v2(dat) 26180.539 27842.927 29694.203 29089.672 30997.411  37412.899    50  b 
 sol_cached(dat_prepped)   801.402   930.025  1342.348  1098.843  1328.192   5049.895    50 a  

The preparation can be further accelerated by using count() -> left_join():

prep_join <- function(dat) {
    dat %>%
        left_join(
            dat %>%
                count(cat, name="Occurrences")
        )
}

microbenchmark::microbenchmark(times=10, prep_group(dat), prep_join(dat))
Unit: milliseconds
            expr      min       lq     mean   median       uq      max neval cld
 prep_group(dat) 45.67805 47.68100 48.98929 49.11258 50.08214 52.44737    10   b
  prep_join(dat) 35.01945 36.20857 37.96460 36.86776 38.71056 45.59041    10  a 
1

I generalised the function written by docendo discimus, to use it alongside existing dplyr functions:

#' inherit dplyr::filter
#' @param min minimal group size, use \code{min = NULL} to filter on maximal group size only
#' @param max maximal group size, use \code{max = NULL} to filter on minimal group size only
#' @export
#' @source Stack Overflow answer by docendo discimus, \url{https://stackoverflow.com/a/43110620/4575331}
filter_group_size <- function(.data, min = NULL, max = min) {
  g <- dplyr::group_size(.data)
  if (is.null(min) & is.null(max)) {
    stop('`min` and `max` cannot both be NULL.')
  }
  if (is.null(max)) {
    max <- base::max(g, na.rm = TRUE)
  }
  ind <- base::rep(g >= min & g <= max, g)
  .data[ind, ]
}

Let's check it for a minimal group size of 5:

dat2 %>%
  group_by(cat) %>%
  filter_group_size(5, NULL) %>%
  summarise(n = n()) %>%
  arrange(desc(n))

# # A tibble: 6,634 x 2
#      cat     n
#    <int> <int>
#  1    NA    19
#  2     1     5
#  3     2     5
#  4     6     5
#  5    15     5
#  6    17     5
#  7    21     5
#  8    27     5
#  9    33     5
# 10    37     5
# # ... with 6,624 more rows

Great, now check for the OP's question; a group size of exactly 5:

dat2 %>%
  group_by(cat) %>%
  filter_group_size(5) %>%
  summarise(n = n()) %>%
  pull(n) %>%
  unique()
# [1] 5

Hooray.

2
  • I had some data where this version fails. Seems group_by sorts data and this might result in wrong indices. data.frame(x=c(2,2,1)) %>% group_by(x) %>% group_size results in c(1,2) instead of c(2, 1)
    – Johan
    Jan 8, 2019 at 10:00
  • First, the group_size() you use is a function from the dplyr package and has nothing to do with my answer. Second, the group_by() function from the dplyr package sorts groups alphabetically.
    – MS Berends
    Feb 6, 2019 at 10:58
0
dat %>%
  dplyr::group_by(cat) %>%
  dplyr::add_tally() %>%
  dplyr::filter(n == 5)
1
  • 2
    Welcome to Stack Overflow. Code dumps without any explanation are rarely helpful. Stack Overflow is about learning, not providing snippets to blindly copy and paste. Please edit your question and explain how it answers the specific question being asked. See How to Answer. This is particularly important when answering old questions (this one is over 4 years old) with existing answers. How does this answer improve upon what's already here (Joe's answer in particular)?
    – Chris
    May 6, 2021 at 14:56

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