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Given two data frames:

df1 = data.frame(CustomerId = c(1:6), Product = c(rep("Toaster", 3), rep("Radio", 3)))
df2 = data.frame(CustomerId = c(2, 4, 6), State = c(rep("Alabama", 2), rep("Ohio", 1)))

#  CustomerId Product
#           1 Toaster
#           2 Toaster
#           3 Toaster
#           4   Radio
#           5   Radio
#           6   Radio

#  CustomerId   State
#           2 Alabama
#           4 Alabama
#           6    Ohio

How can I do database style, i.e., sql style, joins? That is, how do I get:

  • An inner join of df1 and df2:
    Return only the rows in which the left table have matching keys in the right table.
  • An outer join of df1 and df2:
    Returns all rows from both tables, join records from the left which have matching keys in the right table.
  • A left outer join (or simply left join) of df1 and df2
    Return all rows from the left table, and any rows with matching keys from the right table.
  • A right outer join of df1 and df2
    Return all rows from the right table, and any rows with matching keys from the left table.

Extra credit:

How can I do a sql style select statement?

share|improve this question
@user3114046 There are actually four distinct and valid approaches in the answers below, each drawing on a different package and with its own merits - so if it's really an RTFM question, then that seems like solid justification to allow those kinds of questions, since they can produce unexpected answers. Is the rep involved absurd? Hell yes - my trivial answer is a full third of my total rep. But this question was part of a mass effort to make StackOverflow the premier site for R help on the web and, judging from its rank when googling "R join" and the 80k visits to date, it's done a fine job. – Matt Parker May 23 '14 at 15:49
@MattParker I was probably in a bad mood that day. I upvoted the first dplyr answer, that's become my favorite way to do this now. Yes, this question comes up as the first hit in my particular search bubble too. – James King May 23 '14 at 17:01
1 ←my favourite answer to this question – isomorphismes Jul 21 '15 at 0:26

10 Answers 10

up vote 546 down vote accepted

By using the merge function and its optional parameters:

Inner join: merge(df1, df2) will work for these examples because R automatically joins the frames by common variable names, but you would most likely want to specify merge(df1, df2, by = "CustomerId") to make sure that you were matching on only the fields you desired. You can also use the by.x and by.y parameters if the matching variables have different names in the different data frames.

Outer join: merge(x = df1, y = df2, by = "CustomerId", all = TRUE)

Left outer: merge(x = df1, y = df2, by = "CustomerId", all.x = TRUE)

Right outer: merge(x = df1, y = df2, by = "CustomerId", all.y = TRUE)

Cross join: merge(x = df1, y = df2, by = NULL)

Just as with the inner join, you would probably want to explicitly pass "CustomerId" to R as the matching variable. I think it's almost always best to explicitly state the identifiers on which you want to merge; it's safer if the input data.frames change unexpectedly and easier to read later on.

share|improve this answer
@MattParker I have been using sqldf package for a whole host of complex queries against dataframes, really needed it to do a self-cross join (ie data.frame cross-joining itself) I wonder how it compares from a performance perspective....??? – Nicholas Hamilton Feb 12 '13 at 4:42
@ADP I've never really used sqldf, so I'm not sure about speed. If performance is a major issue for you, you should also look into the data.table package - that's a whole new set of join syntax, but it's radically faster than anything we're talking about here. – Matt Parker Feb 12 '13 at 16:22
With more clarity and explanation.....… – Manoj Kumar Apr 7 at 20:08

I would recommend checking out Gabor Grothendieck's sqldf package, which allows you to express these operations in SQL.


## inner join
df3 <- sqldf("SELECT CustomerId, Product, State 
              FROM df1
              JOIN df2 USING(CustomerID)")

## left join (substitute 'right' for right join)
df4 <- sqldf("SELECT CustomerId, Product, State 
              FROM df1
              LEFT JOIN df2 USING(CustomerID)")

I find the SQL syntax to be simpler and more natural than its R equivalent (but this may just reflect my RDBMS bias).

See Gabor's sqldf GitHub for more information on joins.

share|improve this answer

There is the data.table approach for an inner join, which is very time and memory efficient (and necessary for some larger data.frames):


dt1 <- data.table(df1, key = "CustomerId") 
dt2 <- data.table(df2, key = "CustomerId")

joined.dt1.dt.2 <- dt1[dt2]

base::merge also works on data.tables:

merge(dt1, dt2)

data.table documented on stackoverflow:
How to do a data.table merge operation
Translating SQL joins on foreign keys to R data.table syntax
Efficient alternatives to merge for larger data.frames R
How to do a basic left outer join with data.table in R?

Yet another option is the join function found in the plyr package


join(df1, df2,
     type = "inner")

#   CustomerId Product   State
# 1          2 Toaster Alabama
# 2          4   Radio Alabama
# 3          6   Radio    Ohio

Options for type: inner, left, right, full.

From ?join: Unlike merge, [join] preserves the order of x no matter what join type is used.

share|improve this answer
+1 for mentioning plyr::join. Microbenchmarking indicates, that it performs about 3 times faster than merge. – Beasterfield May 30 '13 at 11:28
However, data.table is much faster than both. There is also great support in SO, i don't see many package writers answering questions here as often as the data.table writer or contributors. – marbel Jan 2 '14 at 2:36
What is the data.table syntax for merging a list of data frames? – Aleksandr Blekh Aug 6 '14 at 3:45
Please note: dt1[dt2] is a right outer join (not a "pure" inner join) so that ALL rows from dt2 will be part of the result even if there is no matching row in dt1. Impact: You result has potentially unwanted rows if you have key values in dt2 that do not match the dt1's key values. – R Yoda Nov 11 '15 at 7:24
@RYoda you can just specify nomatch = 0L in that case. – David Arenburg Nov 11 '15 at 21:20

You can do joins as well using Hadley Wickham's awesome new dplyr package.

Here is how you can do most of the joins in the original question with dplyr


#make sure that CustomerId cols are both type numeric
#they ARE not using the provided code in question and dplyr will complain
df1$CustomerId <- as.numeric(df1$CustomerId)
df2$CustomerId <- as.numeric(df2$CustomerId)

inner_join(df1, df2)

#left outer
left_join(df1, df2)

#right outer (just reverse argument order)
left_join(df2, df1)
share|improve this answer
Why do you need to convert CustomerId to numeric? I don't see any mentioning in documentation (for both plyr and dplyr) about this type of restriction. Would your code work incorrectly, if the merge column would be of character type (especially interested in plyr)? Am I missing something? – Aleksandr Blekh Oct 11 '14 at 3:37

There are some good examples of doing this over at the R Wiki. I'll steal a couple here:

Merge Method

Since your keys are named the same the short way to do an inner join is merge():


a full inner join (all records from both tables) can be created with the "all" keyword:

merge(df1,df2, all=TRUE)

a left outer join of df1 and df2:

merge(df1,df2, all.x=TRUE)

a right outer join of df1 and df2:

merge(df1,df2, all.y=TRUE)

you can flip 'em, slap 'em and rub 'em down to get the other two outer joins you asked about :)

Subscript Method

A left outer join with df1 on the left using a subscript method would be:

df1[,"State"]<-df2[df1[ ,"Product"], "State"]

The other combination of outer joins can be created by mungling the left outer join subscript example. (yeah, I know that's the equivalent of saying "I'll leave it as an exercise for the reader...")

share|improve this answer
You should mention that these are objects from class data.table and I suppose setkey should be performed before. – giordano Dec 24 '15 at 13:49

New in 2014:

Especially if you're also interested in data manipulation in general (including sorting, filtering, subsetting, summarizing etc.), you should definitely take a look at dplyr, which comes with a variety of functions all designed to facilitate your work specifically with data frames and certain other database types. It even offers quite an elaborate SQL interface, and even a function to convert (most) SQL code directly into R.

The four joining-related functions in the dplyr package are (to quote):

  • inner_join(x, y, by = NULL, copy = FALSE, ...): return all rows from x where there are matching values in y, and all columns from x and y
  • left_join(x, y, by = NULL, copy = FALSE, ...): return all rows from x, and all columns from x and y
  • semi_join(x, y, by = NULL, copy = FALSE, ...): return all rows from x where there are matching values in y, keeping just columns from x.
  • anti_join(x, y, by = NULL, copy = FALSE, ...): return all rows from x where there are not matching values in y, keeping just columns from x

It's all here in great detail.

Selecting columns can be done by select(df,"column"). If that's not SQL-ish enough for you, then there's the sql() function, into which you can enter SQL code as-is, and it will do the operation you specified just like you were writing in R all along (for more information, please refer to the dplyr/databases vignette). For example, if applied correctly, sql("SELECT * FROM hflights") will select all the columns from the "hflights" dplyr table (a "tbl").

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Update on data.table methods for joining datasets. See below examples for each type of join. There are two methods, one from [.data.table when passing second data.table as the first argument to subset, another way is to use merge function which dispatched to fast data.table method.

Update on 2016-04-01 - and it isn't April Fools joke!
In 1.9.7 version of data.table joins are now capable to use existing index which tremendously reduce the timing of a join. Below code and benchmark does NOT use data.table indices on join. If you are looking for near real-time join you should use data.table indices.

df1 = data.frame(CustomerId = c(1:6), Product = c(rep("Toaster", 3), rep("Radio", 3)))
df2 = data.frame(CustomerId = c(2L, 4L, 7L), State = c(rep("Alabama", 2), rep("Ohio", 1))) # one value changed to show full outer join


dt1 =
dt2 =
setkey(dt1, CustomerId)
setkey(dt2, CustomerId)
# right outer join keyed data.tables

setkey(dt1, NULL)
setkey(dt2, NULL)
# right outer join unkeyed data.tables - use `on` argument
dt1[dt2, on = "CustomerId"]

# left outer join - swap dt1 with dt2
dt2[dt1, on = "CustomerId"]

# inner join - use `nomatch` argument
dt1[dt2, nomatch=0L, on = "CustomerId"]

# anti join - use `!` operator
dt1[!dt2, on = "CustomerId"]

# inner join
merge(dt1, dt2, by = "CustomerId")

# full outer join
merge(dt1, dt2, by = "CustomerId", all = TRUE)

# see ? arguments for other cases

Below benchmark tests base R, sqldf, dplyr and data.table.
Benchmark tests unkeyed/unindexed datasets. You can get even better performance if you are using keys on your data.tables or indexes with sqldf. Base R and dplyr does not have indexes or keys so I did not include that scenario in benchmark.
Benchmark is performed on 5M-1 rows datasets, there are 5M-2 common values on join column so each scenario (left, right, full, inner) can be tested and join is still not trivial to perform.


n = 5e6
df1 = data.frame(x=sample(n,n-1L), y1=rnorm(n-1L))
df2 = data.frame(x=sample(n,n-1L), y2=rnorm(n-1L))
dt1 =
dt2 =

# inner join
microbenchmark(times = 10L,
               base = merge(df1, df2, by = "x"),
               sqldf = sqldf("SELECT * FROM df1 INNER JOIN df2 ON df1.x = df2.x"),
               dplyr = inner_join(df1, df2, by = "x"),
               data.table = dt1[dt2, nomatch = 0L, on = "x"])
#Unit: milliseconds
#       expr        min         lq      mean     median        uq       max neval
#       base 15546.0097 16083.4915 16687.117 16539.0148 17388.290 18513.216    10
#      sqldf 44392.6685 44709.7128 45096.401 45067.7461 45504.376 45563.472    10
#      dplyr  4124.0068  4248.7758  4281.122  4272.3619  4342.829  4411.388    10
# data.table   937.2461   946.0227  1053.411   973.0805  1214.300  1281.958    10

# left outer join
microbenchmark(times = 10L,
               base = merge(df1, df2, by = "x", all.x = TRUE),
               sqldf = sqldf("SELECT * FROM df1 LEFT OUTER JOIN df2 ON df1.x = df2.x"),
               dplyr = left_join(df1, df2, by = c("x"="x")),
               data.table = dt2[dt1, on = "x"])
#Unit: milliseconds
#       expr       min         lq       mean     median         uq       max neval
#       base 16140.791 17107.7366 17441.9538 17414.6263 17821.9035 19453.034    10
#      sqldf 43656.633 44141.9186 44777.1872 44498.7191 45288.7406 47108.900    10
#      dplyr  4062.153  4352.8021  4780.3221  4409.1186  4450.9301  8385.050    10
# data.table   823.218   823.5557   901.0383   837.9206   883.3292  1277.239    10

# right outer join
microbenchmark(times = 10L,
               base = merge(df1, df2, by = "x", all.y = TRUE),
               sqldf = sqldf("SELECT * FROM df2 LEFT OUTER JOIN df1 ON df2.x = df1.x"),
               dplyr = right_join(df1, df2, by = "x"),
               data.table = dt1[dt2, on = "x"])
#Unit: milliseconds
#       expr        min         lq       mean     median        uq       max neval
#       base 15821.3351 15954.9927 16347.3093 16044.3500 16621.887 17604.794    10
#      sqldf 43635.5308 43761.3532 43984.3682 43969.0081 44044.461 44499.891    10
#      dplyr  3936.0329  4028.1239  4102.4167  4045.0854  4219.958  4307.350    10
# data.table   820.8535   835.9101   918.5243   887.0207  1005.721  1068.919    10

# full outer join
microbenchmark(times = 10L,
               base = merge(df1, df2, by = "x", all = TRUE),
               #sqldf = sqldf("SELECT * FROM df1 FULL OUTER JOIN df2 ON df1.x = df2.x"), # not supported
               dplyr = full_join(df1, df2, by = "x"),
               data.table = merge(dt1, dt2, by = "x", all = TRUE))
#Unit: seconds
#       expr       min        lq      mean    median        uq       max neval
#       base 16.176423 16.908908 17.485457 17.364857 18.271790 18.626762    10
#      dplyr  7.610498  7.666426  7.745850  7.710638  7.832125  7.951426    10
# data.table  2.052590  2.130317  2.352626  2.208913  2.470721  2.951948    10
share|improve this answer

dplyr is very good and performant. In addition to the other answers on it, here was/is its status as of

v0.1.3 (4/2014)

Per hadley's comments in that issue:

  • right_join(x,y) is the same as left_join(y,x) in terms of the rows, just the columns will be different orders. Easily worked around with select(new_column_order)
  • outer_join is basically union(left_join(x, y), right_join(x, y)) - i.e. preserve all rows in both data frames.
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In joining two data frames with ~1 million rows each, one with 2 columns and the other with ~20, I've surprisingly found merge(..., all.x = TRUE, all.y = TRUE) to be faster then dplyr::full_join(). This is with dplyr v0.4

Merge takes ~17 seconds, full_join takes ~65 seconds.

Some food for though, since I generally default to dplyr for manipulation tasks.

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  1. Using Merge function we can select the variable of left table or right table, same way like we all familiar with select statement in SQL (EX : Select a.* ...or Select b.* from .....)
  2. We have to add extra code which will subset from the newly joined table .

    • SQL :- select a.* from df1 a inner join df2 b on

    • R :- merge(df1, df2, by.x = "CustomerId", by.y =

Same way

  • SQL :- select b.* from df1 a inner join df2 b on

  • R :- merge(df1, df2, by.x = "CustomerId", by.y = "CustomerId")[,names(df2)]

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