:= {data.table}R Documentation

Assignment by reference


Fast add, remove and update subsets of columns, by reference. := operator can be used in two ways: LHS := RHS form, and Functional form. See Usage.

set is a low-overhead loop-able version of :=. It is particularly useful for repetitively updating rows of certain columns by reference (using a for-loop). See Examples. It can not perform grouping operations.

let is an alias for the functional form and behaves exactly like `:=`.


# 1. LHS := RHS form
# DT[i, LHS := RHS, by = ...]
# DT[i, c("LHS1", "LHS2") := list(RHS1, RHS2), by = ...]

# 2a. Functional form with `:=`
# DT[i, `:=`(LHS1 = RHS1,
#            LHS2 = RHS2,
#            ...), by = ...]

# 2b. Functional form with let
# DT[i, let(LHS1 = RHS1,
#            LHS2 = RHS2,
#            ...), by = ...]

set(x, i = NULL, j, value)



A character vector of column names (or numeric positions) or a variable that evaluates as such. If the column doesn't exist, it is added, by reference.


A list of replacement values. It is recycled in the usual way to fill the number of rows satisfying i, if any. To remove a column use NULL.


A data.table. Or, set() accepts data.frame, too.


Optional. Indicates the rows on which the values must be updated with. If not provided, implies all rows. The := form is more powerful as it allows subsets and joins based add/update columns by reference. See Details.

In set, only integer type is allowed in i indicating which rows value should be assigned to. NULL represents all rows more efficiently than creating a vector such as 1:nrow(x).


Column name(s) (character) or number(s) (integer) to be assigned value when column(s) already exist, and only column name(s) if they are to be created.


A list of replacement values to assign by reference to x[i, j].


:= is defined for use in j only. It adds or updates or removes column(s) by reference. It makes no copies of any part of memory at all. Please read vignette("datatable-reference-semantics") and follow with examples. Some typical usages are:

    DT[, col := val]                              # update (or add at the end if doesn't exist) a column called "col" with value "val" (recycled if necessary).
    DT[i, col := val]                             # same as above, but only for those rows specified in i and (for new columns) NA elsewhere.
    DT[i, "col a" := val]                         # same. column is called "col a"
    DT[i, (3:6) := val]                           # update existing columns 3:6 with value. Aside: parens are not required here since : already makes LHS a call rather than a symbol.
    DT[i, colvector := val, with = FALSE]         # OLD syntax. The contents of "colvector" in calling scope determine the column(s).
    DT[i, (colvector) := val]                     # same (NOW PREFERRED) shorthand syntax. The parens are enough to stop the LHS being a symbol; same as c(colvector).
    DT[i, colC := mean(colB), by = colA]          # update (or add) column called "colC" by reference by group. A major feature of `:=`.
    DT[,`:=`(new1 = sum(colB), new2 = sum(colC))] # Functional form
    DT[, let(new1 = sum(colB), new2 = sum(colC))] # New alias for functional form.

The .Last.updated variable contains the number of rows updated by the most recent := or set calls, which may be useful, for example, in production settings for testing assumptions about the number of rows affected by a statement; see .Last.updated for details.

Note that for efficiency no check is performed for duplicate assignments, i.e. if multiple values are passed for assignment to the same index, assignment to this index will occur repeatedly and sequentially; for a given use case, consider whether it makes sense to create your own test for duplicates, e.g. in production code.

All of the following result in a friendly error (by design) :

    x := 1L
    DT[i, col] := val
    DT[i]$col := val
    DT[, {col1 := 1L; col2 := 2L}]                # Use the functional form, `:=`(), instead (see above).

For additional resources, please read vignette("datatable-faq"). Also have a look at StackOverflow's data.table tag.

:= in j can be combined with all types of i (such as binary search), and all types of by. This a one reason why := has been implemented in j. Please see vignette("datatable-reference-semantics") and also FAQ 2.16 for analogies to SQL.

When LHS is a factor column and RHS is a character vector with items missing from the factor levels, the new level(s) are automatically added (by reference, efficiently), unlike base methods.

Unlike <- for data.frame, the (potentially large) LHS is not coerced to match the type of the (often small) RHS. Instead the RHS is coerced to match the type of the LHS, if necessary. Where this involves double precision values being coerced to an integer column, a warning is given when fractional data is truncated. It is best to get the column types correct up front and stick to them. Changing a column type is possible but deliberately harder: provide a whole column as the RHS. This RHS is then plonked into that column slot and we call this plonk syntax, or replace column syntax if you prefer. By needing to construct a full length vector of a new type, you as the user are more aware of what is happening and it is clearer to readers of your code that you really do intend to change the column type; e.g., DT[, colA:=as.integer(colA)]. A plonk occurs whenever you provide a RHS value to ':=' which is nrow long. When a column is plonked, the original column is not updated by reference because that would entail updating every single element of that column whereas the plonk is just one column pointer update.

data.tables are not copied-on-change by :=, setkey or any of the other set* functions. See copy.


DT is modified by reference and returned invisibly. If you require a copy, take a copy first (using DT2 = copy(DT)).

Advanced (internals):

It is easy to see how sub-assigning to existing columns is done internally. Removing columns by reference is also straightforward by modifying the vector of column pointers only (using memmove in C). However adding (new) columns is more tricky as to how the data.table can be grown by reference: the list vector of column pointers is over-allocated, see truelength. By defining := in j we believe update syntax is natural, and scales, but it also bypasses [<- dispatch and allows := to update by reference with no copies of any part of memory at all.

Since [.data.table incurs overhead to check the existence and type of arguments (for example), set() provides direct (but less flexible) assignment by reference with low overhead, appropriate for use inside a for loop. See examples. := is more powerful and flexible than set() because := is intended to be combined with i and by in single queries on large datasets.


DT[a > 4, b := c] is different from DT[a > 4][, b := c]. The first expression updates (or adds) column b with the value c on those rows where a > 4 evaluates to TRUE. X is updated by reference, therefore no assignment needed.

The second expression on the other hand updates a new data.table that's returned by the subset operation. Since the subsetted data.table is ephemeral (it is not assigned to a symbol), the result would be lost; unless the result is assigned, for example, as follows: ans <- DT[a > 4][, b := c].

See Also

data.table, copy, setalloccol, truelength, set, .Last.updated


DT = data.table(a = LETTERS[c(3L,1:3)], b = 4:7)
DT[, c := 8]                # add a numeric column, 8 for all rows
DT[, d := 9L]               # add an integer column, 9L for all rows
DT[, c := NULL]             # remove column c
DT[2, d := -8L]             # subassign by reference to d; 2nd row is -8L now
DT                          # DT changed by reference
DT[2, d := 10L][]           # shorthand for update and print

DT[b > 4, b := d * 2L]      # subassign to b with d*2L on those rows where b > 4 is TRUE
DT[b > 4][, b := d * 2L]    # different from above. [, := ] is performed on the subset
                            # which is an new (ephemeral) data.table. Result needs to be
                            # assigned to a variable (using `<-`).

DT[, e := mean(d), by = a]  # add new column by group by reference
DT["A", b := 0L, on = "a"]  # ad-hoc update of column b for group "A" using
			    # joins-as-subsets with binary search and 'on='
# same as above but using keys
setkey(DT, a)
DT["A", b := 0L]            # binary search for group "A" and set column b using keys
DT["B", f := mean(d)]       # subassign to new column, NA initialized

# Adding multiple columns
## by name
DT[ , c('sin_d', 'log_e', 'cos_d') :=
   .(sin(d), log(e), cos(d))]
## by patterned name
DT[ , paste(c('sin', 'cos'), 'b', sep = '_') :=
   .(sin(b), cos(b))]
## using lapply & .SD
DT[ , paste0('tan_', c('b', 'd', 'e')) :=
   lapply(.SD, tan), .SDcols = c('b', 'd', 'e')]
## using forced evaluation to disambiguate a vector of names
##   and overwrite existing columns with their squares
sq_cols = c('b', 'd', 'e')
DT[ , (sq_cols) := lapply(.SD, `^`, 2L), .SDcols = sq_cols]
## by integer (NB: for robustness, it is not recommended
##   to use explicit integers to update/define columns)
DT[ , c(2L, 3L, 4L) := .(sqrt(b), sqrt(d), sqrt(e))]
## by implicit integer
DT[ , grep('a$', names(DT)) := tolower(a)]
## by implicit integer, using forced evaluation
sq_col_idx = grep('d$', names(DT))
DT[ , (sq_col_idx) := lapply(.SD, dnorm),
   .SDcols = sq_col_idx]

## Not run: 
# Speed example:

m = matrix(1, nrow = 2e6L, ncol = 100L)
DF = as.data.frame(m)
DT = as.data.table(m)

system.time(for (i in 1:1000) DF[i, 1] = i)
# 15.856 seconds
system.time(for (i in 1:1000) DT[i, V1 := i])
# 0.279 seconds  (57 times faster)
system.time(for (i in 1:1000) set(DT, i, 1L, i))
# 0.002 seconds  (7930 times faster, overhead of [.data.table is avoided)

# However, normally, we call [.data.table *once* on *large* data, not many times on small data.
# The above is to demonstrate overhead, not to recommend looping in this way. But the option
# of set() is there if you need it.

## End(Not run)

[Package data.table version 1.14.3 Index]