c {base} | R Documentation |
This is a generic function which combines its arguments.
The default method combines its arguments to form a vector. All arguments are coerced to a common type which is the type of the returned value, and all attributes except names are removed.
## S3 Generic function c(...) ## Default S3 method: c(..., recursive = FALSE, use.names = TRUE)
... |
objects to be concatenated. |
recursive |
logical. If |
use.names |
logical indicating if |
The output type is determined from the highest type of the components
in the hierarchy NULL < raw < logical < integer < double < complex < character
< list < expression. Pairlists are treated as lists, whereas non-vector
components (such names and calls) are treated as one-element lists
which cannot be unlisted even if recursive = TRUE
.
Note that factor
s are treated only via their
internal integer
codes; one proposal has been to use
c.factor <- function(..., recursive=TRUE) unlist(list(...), recursive=recursive)
if factor concatenation by c()
should give a factor
.
c
is sometimes used for its side effect of removing attributes
except names, for example to turn an array into a vector.
as.vector
is a more intuitive way to do this, but also drops
names. Note that methods other than the default are not required
to do this (and they will almost certainly preserve a class attribute).
This is a primitive function.
NULL
or an expression or a vector of an appropriate mode.
(With no arguments the value is NULL
.)
This function is S4 generic, but with argument list
(x, ...)
.
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
unlist
and as.vector
to produce
attribute-free vectors.
c(1,7:9) c(1:5, 10.5, "next") ## uses with a single argument to drop attributes x <- 1:4 names(x) <- letters[1:4] x c(x) # has names as.vector(x) # no names dim(x) <- c(2,2) x c(x) as.vector(x) ## append to a list: ll <- list(A = 1, c = "C") ## do *not* use c(ll, d = 1:3) # which is == c(ll, as.list(c(d = 1:3))) ## but rather c(ll, d = list(1:3)) # c() combining two lists c(list(A = c(B = 1)), recursive = TRUE) c(options(), recursive = TRUE) c(list(A = c(B = 1, C = 2), B = c(E = 7)), recursive = TRUE)