# How to group data.table by several columns consecutively

I want to take a bunch of descriptive statistics grouped by several hundred grouping vars. I know from How to group data.table by multiple columns? that I can use list( ) in the grouping parameter if I want the stat for a combination of grouping vars. In my case I want the mean for each level of Y than the mean for each level of Z

``````    # example data
set.seed(007)
DF <- data.frame(X=1:50000, Y=sample(c(0,1), 50000, TRUE), Z=sample(0:5, 50000, TRUE))

library(data.table)
DT <- data.table(DF)

# I tried this - but this gives the mean for each combination of Y and Z
DT[, mean(X), by=list(Y, Z)]

# so does this
DT[, mean(X), by=c("Y", "Z")]

# This works but....
out <- lapply( c( "Y","Z") , FUN= function(K){ DT[, mean(X), by=get(K)]})
out <- do.call( rbind, out )
#...but it is really slow.
``````

I have 100 million records and 400+ grouping vars so need something - somewhat efficient. The lapply option adds up to several days of extra processing time

``````options( digits=15 )
start.time <- Sys.time()
out <- lapply( c( "Y","Z") , FUN= function(K){ DT[, mean(X), by=get(K)]})
end.time <- Sys.time()
time.taken <- end.time - start.time

start.time <- Sys.time()
DT[, mean(X), by=c("Y")]
DT[, mean(X), by=c("Z")]
end.time <- Sys.time()
time.taken2 <- end.time - start.time
time.taken - time.taken2
``````

With development version 1.10.5, `data.table` has gained Grouping Set aggregation functions which calculate aggregates at various levels of groupings producing multiple (sub-)totals.

``````library(data.table)
# data.table 1.10.5 IN DEVELOPMENT built 2018-01-31 02:23:45 UTC

grp_vars <- setdiff(names(DF), "X")
groupingsets(setDT(DF), mean(X), by = grp_vars, sets = as.list(grp_vars))
``````
``````    Y  Z       V1
1:  1 NA 24960.98
2:  0 NA 25039.96
3: NA  5 24652.44
4: NA  0 25006.61
5: NA  2 25223.83
6: NA  3 24959.26
7: NA  1 25095.58
8: NA  4 25068.84
``````

### Benchmark

``````# create data
n_rows = 1e6L
n_vars = 5
n_grps = 1e2L
set.seed(007)
DT <- data.table(rn = seq_len(n_rows))
for (i in seq_len(n_vars)) set(DT, , paste0("X", i), i*rnorm(n_rows))
for (i in seq_len(n_grps)) set(DT, , paste0("Z", i), sample(0:i, n_rows, TRUE))

grps <- grep("^Z", names(DT), value = TRUE)
vars <- grep("^X", names(DT), value = TRUE)

# run benchmark
bm <- microbenchmark::microbenchmark(
gs = {
groupingsets(DT, lapply(.SD, mean), by = grps, sets = as.list(grps), .SDcols = vars)
},
lapply1 = {
rbindlist(lapply(grps, function(K) DT[, lapply(.SD, mean), by = K, .SDcols = vars]),
fill = TRUE)
},
lapply2 = {
out <- lapply(grps, function(K) DT[, lapply(.SD, mean), by = get(K), .SDcols = vars])
do.call(rbind, out)
},
times = 3L
)
print(bm)
``````

Even with 1 M rows and 100 grouping vars, there is no remarkable difference in the run times (`groupingsets()` seems to be a little slower than the two other approaches):

``````Unit: seconds
expr      min       lq     mean   median       uq      max neval
gs 3.602689 3.606646 3.608343 3.610603 3.611169 3.611735     3
lapply1 3.524957 3.546060 3.561130 3.567163 3.579217 3.591270     3
lapply2 3.562424 3.569284 3.577199 3.576144 3.584586 3.593027     3
``````
• this is helpful - I get the same thing with my larger function - lapply and the grouping sets appear to be almost the same – MatthewR Jan 31 '18 at 22:08