# R: Data.table on subset excluding by value

Using `data.table` in `R`, I'm trying to make an operation on the subset excluding selected element. I'm using the `by` operator, but I don't know if this is the right approach.

Here's an example. E.g. the value for `Delta` in `IAH:SNA` is (3+3)/2 which is the mean of `Stops` in `IAH:SNA` once `Delta` has been excluded.

``````library(data.table)
s1 <- "Market   Carrier Stops
IAH:SNA     Delta     1
IAH:SNA     Delta     1
IAH:SNA Southwest     3
IAH:SNA Southwest     3
MSP:CLE Southwest     2
MSP:CLE Southwest     2
MSP:CLE  American     2
MSP:CLE   JetBlue     1"

setkey(d, Carrier, Market)

f <- function(x, y){
subset(d, !(Carrier %in% x) & Market == y, Stops)[, mean(Stops)]}

d[, s := f(.BY[[1]], .BY[[2]]), by=list(Carrier, Market)]

##     Market   Carrier Stops     s
## 1: MSP:CLE  American     2  1.666667
## 2: IAH:SNA     Delta     1  3.000000
## 3: IAH:SNA     Delta     1  3.000000
## 5: IAH:SNA Southwest     3  1.000000
## 6: IAH:SNA Southwest     3  1.000000
## 7: MSP:CLE Southwest     2  1.500000
## 8: MSP:CLE Southwest     2  1.500000
``````

The above solution performs very poorly on large data sets (it's essentially an `mapply`), but I'm not sure how to do it in a fast `data.table`-like way.

Perhaps one could (dynamically) generate a factor that does this? I'm just not sure how. . .

Is there a way to improve it?

Edit: Just for the heck of it, here's a way to get a bigger version of the above

``````library(data.table)
dl.dta <- function(...){
## input years ..
years <- gsub("\\.", "_", c(...))
names <- paste("Origin_and_Destination_Survey_DB1BMarket", years, sep="_")
info <- t(sapply(names, function(x) file.exists(paste(x, c("zip", "csv"), sep="."))))

to.unzip <- paste(names,  "zip", sep=".")[!info[, 2]]
if (length(to.unzip > 0)){
message("starting to unzip...")
sapply(to.unzip, unzip)}
paste(names, "csv", sep=".")}

countWords.split <- function(x, s=":"){
## Faster on my machine than grep for some reanon
sapply(strsplit(as.character(x), s), length)}

countWords.grep <- function(x){
sapply(gregexpr("\\W+", x), length)+1}

fname <- dl.dta(2013.1)
cols <- rep("NULL", 41)
## Columns to keep: 9 is Origin, 18 is Dest, 24 is groups of airports in travel
## 30 is RPcarrier (reporting carrier).
## For more columns: 35 is market fare and 36 is distance.
cols[9] <- cols[18] <- cols[24] <- cols[30] <- NA
d[, Market := paste(Origin, Dest, sep=":")]
## should probably
d[, Stops := -2 + countWords.split(AirportGroup)]
d[, Carrier := RPCarrier]
d[, c("RPCarrier", "Origin", "Dest", "AirportGroup") := NULL]
``````
-

@Roland's answer will work for some functions (and when it does it will be best) but not in general. Unfortunately you can't apply the split-apply-combine strategy to the data as is to do the task, but you can if you make the data larger. Let's start with a simpler example:

``````dt = data.table(a = c(1,1,2,2,3,3), b = c(1:6), key = 'a')

# now let's extend this table the following way
# take the unique a's and construct all the combinations excluding one element
combinations = dt[, combn(unique(a), 2)]

# now combine this into a data.table with the excluded element as the index
# and merge it back into the original data.table
extension = rbindlist(apply(combinations, 2,
function(x) data.table(a = x, index = setdiff(c(1,2,3), x))))
setkey(extension, a)

dt.extended = extension[dt, allow.cartesian = TRUE]
dt.extended[order(index)]
#    a index b
# 1: 2     1 3
# 2: 2     1 4
# 3: 3     1 5
# 4: 3     1 6
# 5: 1     2 1
# 6: 1     2 2
# 7: 3     2 5
# 8: 3     2 6
# 9: 1     3 1
#10: 1     3 2
#11: 2     3 3
#12: 2     3 4

# Now we have everything we need:
dt.extended[, mean(b), by = list(a = index)]
#   a  V1
#1: 3 2.5
#2: 2 3.5
#3: 1 4.5
``````

Going back to original data (and doing some operations slightly differently, to simplify expressions):

``````extension = d[, {Carrier.uniq = unique(Carrier);
.SD[, rbindlist(combn(Carrier.uniq, length(Carrier.uniq)-1,
function(x) data.table(Carrier = x,
index = setdiff(Carrier.uniq, x)),
simplify = FALSE))]}, by = Market]
setkey(extension, Market, Carrier)

extension[d, allow.cartesian = TRUE][, mean(Stops), by = list(Market, Carrier = index)]
#    Market   Carrier       V1
#1: IAH:SNA Southwest 1.000000
#2: IAH:SNA     Delta 3.000000
#3: MSP:CLE   JetBlue 2.000000
#4: MSP:CLE Southwest 1.500000
#5: MSP:CLE  American 1.666667
``````
-

Use a tiny bit of elementary maths:

``````d[, c("tmp.mean", "N") := list(mean(Stops), .N), by = Market]
d[, exep.mean := (tmp.mean * N - sum(Stops)) / (N - .N), by = list(Market,Carrier)]

#     Market   Carrier Stops tmp.mean N exep.mean
# 1: IAH:SNA     Delta     1     2.00 4  3.000000
# 2: IAH:SNA     Delta     1     2.00 4  3.000000
# 3: IAH:SNA Southwest     3     2.00 4  1.000000
# 4: IAH:SNA Southwest     3     2.00 4  1.000000
# 5: MSP:CLE Southwest     2     1.75 4  1.500000
# 6: MSP:CLE Southwest     2     1.75 4  1.500000
# 7: MSP:CLE  American     2     1.75 4  1.666667
# 8: MSP:CLE   JetBlue     1     1.75 4  2.000000
``````
-
Thanks, that works for the mean. But perhaps `f` is more complicated than the `mean` and doesn't feature a closed-form solution. –  Rasmus Jul 27 at 10:26
Well, show an example of `f`. –  Roland Jul 27 at 11:01
`f` could be the norm of the sub-matrix in market `m` excluding carrier `c`. It would at least be more intuitive to operate a subset. (The solution you provide is very fast btw!) –  Rasmus Jul 27 at 11:24
I'm probably missing something, but you can use the same principle algorithm as in my answer for the euclidean norm of `Stops`. –  Roland Jul 27 at 11:44
here's an example of a complicated function that (to me) is not obvious how you'd deal with using this method - what if you're computing the linear fit of the data? Knowing your fit plus total fit is not going to be enough information. You can maybe come up with a set of variables that will be enough but that would require a reasonable amount of work. –  eddi Jul 27 at 16:25