The dMatrix
class is a virtual class contained by all actual
classes of numeric matrices in the Matrix package. Similarly,
all the actual classes of logical matrices inherit from the
lMatrix
class.
Common to all matrix object in the package:
Dim
:Object of class "integer"
- the dimensions
of the matrix - must be an integer vector with exactly two
non-negative values.
Dimnames
:list of length two; each component
containing NULL or a character
vector length
equal the corresponding Dim
element.
There are (relatively simple) group methods (see, e.g., Arith
)
signature(e1 = "dMatrix", e2 = "dMatrix")
: ...
signature(e1 = "dMatrix", e2 = "numeric")
: ...
signature(e1 = "numeric", e2 = "dMatrix")
: ...
signature(x = "dMatrix")
: ...
signature(x = "dMatrix", digits = "numeric")
:
this group contains round()
and signif()
.
signature(e1 = "numeric", e2 = "dMatrix")
: ...
signature(e1 = "dMatrix", e2 = "numeric")
: ...
signature(e1 = "dMatrix", e2 = "dMatrix")
: ...
signature(x = "dMatrix")
: The "Summary"
group contains the seven functions
max()
, min()
, range()
,
prod()
, sum()
,
any()
, and all()
.
The following methods are also defined for all double matrices:
signature(x = "dMatrix")
: computes the
“Matrix Exponential”, see expm
.
signature(x = "dMatrix")
: ...
The following methods are defined for all logical matrices:
signature(x = "lsparseMatrix")
and many other
subclasses of "lMatrix"
: as the base function
which(x, arr.ind)
returns the indices of the
TRUE
entries in x
; if arr.ind
is true,
as a 2-column matrix of row and column indices. Since Matrix
version 1.2-9, if useNames
is true, as by default, with
dimnames
, the same as base::which
.
showClass("dMatrix")
set.seed(101)
round(Matrix(rnorm(28), 4,7), 2)
M <- Matrix(rlnorm(56, sd=10), 4,14)
(M. <- zapsmall(M))
table(as.logical(M. == 0))
Run the code above in your browser using DataLab