# Perform a semi-join with data.table

How do I perform a semi-join with data.table? A semi-join is like an inner join except that it only returns the columns of X (not also those of Y), and does not repeat the rows of X to match the rows of Y. For example, the following code performs an inner join:

``````x <- data.table(x = 1:2, y = c("a", "b"))
setkey(x, x)
y <- data.table(x = c(1, 1), z = 10:11)

x[y]
#   x y  z
# 1: 1 a 10
# 2: 1 a 11
``````

A semi-join would return just `x[1]`

-

More possibilities :

``````w = unique(x[y,which=TRUE])  # the row numbers in x which have a match from y
x[w]
``````

If there are duplicate key values in x, then that needs :

``````w = unique(x[y,which=TRUE,allow.cartesian=TRUE])
x[w]
``````

Or, the other way around :

``````setkey(y,x)
w = !is.na(y[x,which=TRUE,mult="first"])
x[w]
``````

If nrow(x) << nrow(y) then the y[x] approach should be faster.
If nrow(x) >> nrow(y) then the x[y] approach should be faster.

But the anti anti join appeals too :-)

-
Cool! Now I understand what `allow.cartesian=TRUE` is for. –  Josh O'Brien Sep 24 '13 at 1:22
I knew that guru will stop by! Since you officially liked the anti anti join approach, how about adding `x[!!y]` to the syntax? :) –  Victor K. Sep 24 '13 at 1:49
@VictorK. :) `x[!!y]` is an error currently isn't it, so ok. Please file as a feature request. –  Matt Dowle Sep 24 '13 at 7:01
Added as FR (#915) github.com/Rdatatable/data.table/issues/915 –  ctbrown Oct 24 '14 at 11:02

One solution I can think of is:

``````tmp <- x[!y]
x[!tmp]
``````

In `data.table`, you can have another data table as an `i` expression (i.e., the first expression in the `data.table.[` call), and that will perform a join, e.g.:

``````x <- data.table(x = 1:10, y = letters[1:10])
setkey(x, x)
y <- data.table(x = c(1,3,5,1), z = 1:4)

> x[y]
x y z
1: 1 a 1
2: 3 c 2
3: 5 e 3
4: 1 a 4
``````

The `!` before the `i` expression is an extension of the syntax above that performs a 'not-join', as described on p. 11 of data.table documentation. So the first assignments evaluates to a subset of `x` that doesn't have any rows where the key (column `x`) is present in `y`:

``````> x[!y]
x y
1:  2 b
2:  4 d
3:  6 f
4:  7 g
5:  8 h
6:  9 i
7: 10 j
``````

It is similar to `setdiff` in this regard. And therefore the second statement returns all the rows in `x` where the key is present in `y`.

The `!` feature was added in `data.table 1.8.4` with the following note in NEWS:

``````o   A new "!" prefix on i signals 'not-join' (a.k.a. 'not-where'), #1384i.
DT[-DT["a", which=TRUE, nomatch=0]]   # old not-join idiom, still works
DT[!"a"]                              # same result, now preferred.
DT[!J(6),...]                         # !J == not-join
DT[!2:3,...]                          # ! on all types of i
DT[colA!=6L | colB!=23L,...]          # multiple vector scanning approach (slow)
DT[!J(6L,23L)]                        # same result, faster binary search
'!' has been used rather than '-' :
* to match the 'not-join'/'not-where' nomenclature
* with '-', DT[-0] would return DT rather than DT[0] and not be backwards
compatible. With '!', DT[!0] returns DT both before (since !0 is TRUE in
base R) and after this new feature.
* to leave DT[+J...] and DT[-J...] available for future use
``````

For some reason, the following doesn't work `x[!(x[!y])]` - probably `data.table` is too smart about parsing the argument.

P.S. As Josh O'Brien pointed in another answer, a one-line would be `x[!eval(x[!y])]`.

-
Would you mind explaining how that works? What's the negation of a data table? –  hadley Sep 23 '13 at 21:50
On p.11 here, it says `All types of ‘i‘ may be preﬁxed with !. This signals a not-join or not-select should be performed.` –  Victor K. Sep 23 '13 at 21:53
So you need to know that plus the two advanced notes that follow. I think a full explanation would be a useful addition to your answer. –  hadley Sep 23 '13 at 21:58
@hadley - does it look better now? –  Victor K. Sep 23 '13 at 22:12
I know :). Let's wait till @Matthew Dowle comes and enlightens us all. –  Victor K. Sep 23 '13 at 22:19

I'm confused with all the not-joins above, isn't what you want simply:

``````unique(x[y, names(x), with = F])
#   x y
#1: 1 a
``````

If `x` can have duplicate keys, then you can unique `y` instead:

``````## Creating an example data.table 'a' three-times-repeated first row
x <- data.table(x = c(1,1,1,2), y = c("a", "a", "a", "b"))
setkey(x, x)
y <- data.table(x = c(1, 1), z = 10:11)
setkey(y, x)

x[eval(unique(y)), names(x), with = F]
#    x y
# 1: 1 a
# 2: 1 a
# 3: 1 a
``````
-
This won't work correctly if x has two identical rows. –  Josh O'Brien Sep 23 '13 at 22:42
You beat me by 3 minutes - I've just added a solution with a time comparison above. Yes, it runs much faster, but Josh's point is valid. I would also replace `names(x)` with `key(x)` to match @hadley's original intended use case. –  Victor K. Sep 23 '13 at 22:44
@JoshO'Brien added version which deals with identical keys in `x` –  eddi Sep 23 '13 at 22:45
@eddi -- Added an example with a data.table `x` containing repeated rows to your answer. Hope that's fine with you -- just rollback if not. –  Josh O'Brien Sep 23 '13 at 22:58
@Arun -- No, I'm giving an example so that folks can see that it gives the correct result. (Also why I just deleted my own answer, which doesn't correctly deal with repeated rows in `x`). –  Josh O'Brien Sep 23 '13 at 23:00

Update. Based on all the discussion here, I would do something like this, which should be fast and work in the most general case:

``````x[eval(unique(y[, key(x), with = FALSE]))]
``````

Here is another, more direct solution:

``````unique(x[eval(y\$x)])
``````

It's more direct and runs faster - here is the comparison in run times with my previous solution:

``````# Generate some large data
N <- 1000000 * 26
x <- data.table(x = 1:N, y = letters, z = rnorm(N))
setkey(x, x)
y <- data.table(x = sample(N, N/10, replace = TRUE),  z = sample(letters, N/10, replace = TRUE))
setkey(y, x)

system.time(r1 <- x[!eval(x[!y])])
user  system elapsed
7.772   1.217  11.998

system.time(r2 <- unique(x[eval(y\$x)]))
user  system elapsed
0.540   0.142   0.723
``````

In a more general case, you can do something like

``````x[eval(y[, key(x), with = FALSE])]
``````
-
Yes, I've added it above –  Victor K. Sep 23 '13 at 22:52
If you take unique before joining, it's faster (benchmarked similarly in my answer). –  Frank Sep 24 '13 at 0:12

I tried to write a method that doesn't use any names, which are downright confusing in the OP's example.

``````sJ <- function(x,y){
ycols <- 1:min(ncol(y),length(key(x)))
yjoin <- unique(y[,ycols,with=FALSE,drop=FALSE])
yjoin
}

x[eval(sJ(x,y))]
``````

For Victor's simpler example, this gives the desired output:

``````   x y
1: 1 a
2: 3 c
3: 5 e
``````

This is a ~30% slower than Victor's way.

EDIT: And Victor's approach, taking unique before joining, is quite a bit faster:

``````N <- 1e5*26
x <- data.table(x = 1:N, y = letters, z = rnorm(N))
setkey(x, x)
y <- data.table(x = sample(N, N/10, replace = TRUE),  z = sample(letters, N/10, replace = TRUE))
setkey(y, x)
require(microbenchmark)
microbenchmark(
sJ=x[eval(sJ(x,y))],
dolla=unique(x[eval(y\$x)]),
brack=x[eval(unique(y[['x']]))]
)
Unit: milliseconds
expr       min        lq    median        uq      max neval
#    sJ 120.22700 125.04900 126.50704 132.35326 217.6566   100
# dolla 105.05373 108.33804 109.16249 118.17613 285.9814   100
# brack  53.95656  61.32669  61.88227  65.21571 235.8048   100
``````

I'm guessing the `[[` vs `\$` doesn't help the speed, but didn't check.

-

The package dplyr supports the following four join types:

inner_join, left_join, semi_join, anti_join

So for the semi-join try the following code

``````library("dplyr")

table1 <- data.table(x = 1:10, y = letters[1:10])
setkey(table1, x)
table2 <- data.table(x = c(1,3,5,1), z = 1:4)

semi_join(table1, table2)
``````

The output is as expected:

``````   x y
1: 1 a
2: 3 c
3: 5 e
``````
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I have a feeling Hadley already knows this :-) –  Richard Scriven Jan 27 at 0:19
Yes, I asked the question so I could figure out how to make `semi_join()` work for data tables ;) –  hadley Jan 27 at 1:03