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 filter
s 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
setDT(dat)[, if(.N == 5) .SD, by = cat]
setDT(dat)[dat[, .I[.N==5], by = cat]$V1]
m
: Yes it is ordered.