Suppose I have two data.table's:


   A  B
1: 1 12
2: 2 13
3: 3 14
4: 4 15


   A  B
1: 2 13
2: 3 14

and I have the following code:

merge_test = merge(dataA, dataB, by="A", all.data=TRUE)

I get:

   A B.x B.y
1: 2  13  13
2: 3  14  14

However, I want all the rows in dataA in the final merged table. Is there a way to do this?

  • 7
    A search should result in a number of questions that cover this. Here is one: stackoverflow.com/questions/12773822/…
    – mrp
    Jan 4, 2016 at 19:18
  • 5
    If you want to do a left join, you can use all.x = TRUE. If you want to do a full outer join, you can use all = TRUE.
    – ytk
    Jan 4, 2016 at 19:19
  • 4
    Judging from votes, maybe consider changing accepted answer?
    – zx8754
    Feb 5, 2018 at 8:51

3 Answers 3


If you want to add the b values of B to A, then it's best to join A with B and update A by reference as follows:

A[B, on = 'a', bb := i.b]

which gives:

> A
   a  b bb
1: 1 12 NA
2: 2 13 13
3: 3 14 14
4: 4 15 NA

This is a better approach than using B[A, on='a'] because the latter just prints the result to the console. When you want to get the results back into A, you need to use A <- B[A, on='a'] which will give you the same result.

The reason why A[B, on = 'a', bb := i.b] is better than A <- B[A, on = 'a'] is memory efficiency. With A[B, on = 'a', bb := i.b] the location of A in memory stays the same:

> address(A)
[1] "0x102afa5d0"
> A[B, on = 'a', bb := i.b]
> address(A)
[1] "0x102afa5d0"

While on the other hand with A <- B[A, on = 'a'], a new object is created and saved in memory as A and hence has another location in memory:

> address(A)
[1] "0x102abae50"
> A <- B[A, on = 'a']
> address(A)
[1] "0x102aa7e30"

Using merge (merge.data.table) results in a similar change in memory location:

> address(A)
[1] "0x111897e00"
> A <- merge(A, B, by = 'a', all.x = TRUE)
> address(A)
[1] "0x1118ab000"

For memory efficiency it is thus better to use an 'update-by-reference-join' syntax:

A[B, on = 'a', bb := i.b] 

Although this doesn't make a noticeable difference with small datasets like these, it does make a difference on large datasets for which data.table was designed.

Probably also worth mentioning is that the order of A stays the same.

To see the effect on speed and memory use, let's benchmark with some larger datasets (for data, see the 2nd part of the used data-section below):

bm <- mark(AA <- BB[AA, on = .(aa)],
           AA[BB, on = .(aa), cc := cc],
           iterations = 1)

which gives (only relevant measurements shown):

> bm[,c(1,3,5)]
# A tibble: 2 x 3
  expression                         median mem_alloc
  <bch:expr>                       <bch:tm> <bch:byt>
1 AA <- BB[AA, on = .(aa)]            4.98s     4.1GB
2 AA[BB, on = .(aa), `:=`(cc, cc)] 560.88ms   384.6MB

So, in this setup the 'update-by-reference-join' is about 9 times faster and consumes 11 times less memory.

NOTE: Gains in speed and memory use might differ in different setups.

Used data:

# initial datasets
A <- data.table(a = 1:4, b = 12:15)
B <- data.table(a = 2:3, b = 13:14)

# large datasets for the benchmark
AA <- data.table(aa = 1:1e8, bb = sample(12:19, 1e7, TRUE))
BB <- data.table(aa = sample(AA$a, 2e5), cc = sample(2:8, 2e5, TRUE))
  • 9
    Great answer. Just to confirm, I assume the "i" in "A[B, bb:=i.b, on='a']" refers to the"i" in the general data.table "DT[i, j, by]" syntax?
    – cbailiss
    May 14, 2017 at 7:18
  • 12
    @cbailiss Yes, i.b mean that in updating A with the join it should look t the b-column of B. In a similar way, with the x. prefix you can refer to columns of A.
    – Jaap
    May 14, 2017 at 9:11
  • 6
    @Jaap How would you manage the join by reference when there are multiple new columns created? Here the new column bb := i.b is created, which as you stated looks up the corresponding b column value in the B data.table corresponding to i. But what happens when you have many new columns that would potentially be created from merging (by reference) larger data.tables?
    – Prevost
    Nov 2, 2018 at 14:43
  • 6
    @Prevost see here for an example, I hope that answers your question
    – Jaap
    Nov 2, 2018 at 15:13
  • 5
    @Prevost the tric is in using mget, see also the last part of my answer under the link from my previous comment
    – Jaap
    Nov 2, 2018 at 20:09

You can try this:

# used data
# set the key in 'B' to the column which you use to join
A <- data.table(a = 1:4, b = 12:15)
B <- data.table(a = 2:3, b = 13:14, key = 'a') 

  • This answer works fine if one data table key is subset of the other. Is there possibility to join if they intersect partially? For example if A, B are like: A <- data.table(a = 1:4, b = 12:15) B <- data.table(a = 2:5, c = 13:16) May 28, 2020 at 9:48

For the sake of completeness, I add the table.express version of an answer to your questions. table.express nicely extends the tidyverse language to data.table making it a handy tool to work fastly with huge datasets. Here is the solution using your datasets from the question above:

merge_test = dataA %>% left_join(dataB, by="A")

A left_join keeps all rows from dataA in the joined dataset.

Note: You must load the packages data.table and table.express.

  • 1
    this is great! thanks - I had not heard of this package.
    – nate-m
    Mar 13, 2022 at 12:42
  • 1
    Can you explan how this works? Within tidyverse I could do left_join(table1, table2, by = c("colname" = "colname"). This doesn't work with table.express. I need an on = argument. However, I can't find any in the documentation.
    – gernophil
    Jun 30, 2022 at 12:40
  • @gernophil please have a look at the join documentation for table.express. The second argument in left_join, which is by="A" above, is the on = argument you refer to. Optionally, you can use the variable name without quotes.
    – ToWii
    Jul 3, 2022 at 10:50

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