diag
Matrix Diagonals
Description
Extract or replace the diagonal of a matrix, or construct a diagonal matrix.
Usage
diag(x = 1, nrow, ncol, names = TRUE) diag(x) <- value
Arguments
x | a matrix, vector or 1D |
nrow, ncol | optional dimensions for the result when |
names | (when |
value | either a single value or a vector of length equal to that of the current diagonal. Should be of a mode which can be coerced to that of |
Details
diag
has four distinct usages:
-
x
is a matrix, when it extracts the diagonal. -
x
is missing andnrow
is specified, it returns an identity matrix. -
x
is a scalar (length-one vector) and the only argument, it returns a square identity matrix of size given by the scalar. -
x
is a ‘numeric’ (complex
,numeric
,integer
,logical
, orraw
) vector, either of length at least 2 or there were further arguments. This returns a matrix with the given diagonal and zero off-diagonal entries.
It is an error to specify nrow
or ncol
in the first case.
Value
If x
is a matrix then diag(x)
returns the diagonal of x
. The resulting vector will have names
if the matrix x
has matching column and rownames.
The replacement form sets the diagonal of the matrix x
to the given value(s).
In all other cases the value is a diagonal matrix with nrow
rows and ncol
columns (if ncol
is not given the matrix is square). Here nrow
is taken from the argument if specified, otherwise inferred from x
: if that is a vector (or 1D array) of length two or more, then its length is the number of rows, but if it is of length one and neither nrow
nor ncol
is specified, nrow = as.integer(x)
.
When a diagonal matrix is returned, the diagonal elements are one except in the fourth case, when x
gives the diagonal elements: it will be recycled or truncated as needed, but fractional recycling and truncation will give a warning.
Note
Using diag(x)
can have unexpected effects if x
is a vector that could be of length one. Use diag(x, nrow =
length(x))
for consistent behaviour.
References
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
See Also
Examples
dim(diag(3)) diag(10, 3, 4) # guess what? all(diag(1:3) == {m <- matrix(0,3,3); diag(m) <- 1:3; m}) ## other "numeric"-like diagonal matrices : diag(c(1i,2i)) # complex diag(TRUE, 3) # logical diag(as.raw(1:3)) # raw (D2 <- diag(2:1, 4)); typeof(D2) # "integer" require(stats) ## diag(<var-cov-matrix>) = variances diag(var(M <- cbind(X = 1:5, Y = rnorm(5)))) #-> vector with names "X" and "Y" rownames(M) <- c(colnames(M), rep("", 3)) M; diag(M) # named as well diag(M, names = FALSE) # w/o names
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Licensed under the GNU General Public License.