lsparseMatrix-class: Sparse logical matrices
In Matrix: Sparse and Dense Matrix Classes and Methods
lsparseMatrix-class R Documentation
Sparse logical matrices
Description
The lsparseMatrix class is a virtual class
of logical sparse matrices, i.e., sparse matrices with entries
TRUE, FALSE, or NA.
These can be stored in the “triplet” form (class
TsparseMatrix, subclasses lgTMatrix,
lsTMatrix, and ltTMatrix) or in compressed
column-oriented form (class CsparseMatrix,
subclasses lgCMatrix, lsCMatrix, and ltCMatrix)
or–rarely–in compressed row-oriented form (class
RsparseMatrix, subclasses lgRMatrix,
lsRMatrix, and ltRMatrix). The second letter in the
name of these non-virtual classes indicates general,
symmetric, or triangular.
Details
Note that triplet stored (TsparseMatrix) matrices
such as lgTMatrix may contain duplicated pairs of indices
(i,j) as for the corresponding numeric class
dgTMatrix where for such pairs, the corresponding
x slot entries are added. For logical matrices, the x
entries corresponding to duplicated index pairs (i,j) are
“added” as well if the addition is defined as logical or,
i.e., “TRUE + TRUE |-> TRUE” and
“TRUE + FALSE |-> TRUE”.
Note the use of asUniqueT() for getting an internally
unique representation without duplicated (i,j) entries.
Objects from the Class
Objects can be created by calls of the form new("lgCMatrix",
...) and so on. More frequently objects are created by coercion of
a numeric sparse matrix to the logical form, e.g. in an expression
x != 0.
The logical form is also used in the symbolic analysis phase
of an algorithm involving sparse matrices. Such algorithms often
involve two phases: a symbolic phase wherein the positions of the
non-zeros in the result are determined and a numeric phase wherein the
actual results are calculated. During the symbolic phase only the
positions of the non-zero elements in any operands are of interest,
hence any numeric sparse matrices can be treated as logical sparse
matrices.
Slots
x:Object of class "logical", i.e., either
TRUE, NA, or FALSE.
uplo:Object of class "character". Must be
either "U", for upper triangular, and "L", for lower
triangular. Present in the triangular and symmetric classes but not
in the general class.
diag:Object of class "character". Must be
either "U", for unit triangular (diagonal is all ones), or
"N" for non-unit. The implicit diagonal elements are not
explicitly stored when diag is "U". Present in the
triangular classes only.
p:Object of class "integer" of pointers, one
for each column (row), to the initial (zero-based) index of elements in
the column. Present in compressed column-oriented and compressed
row-oriented forms only.
i:Object of class "integer" of length nnzero
(number of non-zero elements). These are the row numbers for
each TRUE element in the matrix. All other elements are FALSE.
Present in triplet and compressed column-oriented forms only.
j:Object of class "integer" of length nnzero
(number of non-zero elements). These are the column numbers for
each TRUE element in the matrix. All other elements are FALSE.
Present in triplet and compressed row-oriented forms only.
Dim:Object of class "integer" - the dimensions
of the matrix.
Methods
- coerce
signature(from = "dgCMatrix", to = "lgCMatrix")
- t
signature(x = "lgCMatrix"): returns the transpose
of x
- which
signature(x = "lsparseMatrix"), semantically
equivalent to base function which(x, arr.ind);
for details, see the lMatrix class documentation.
See Also
the class dgCMatrix and dgTMatrix
Examples
(m <- Matrix(c(0,0,2:0), 3,5, dimnames=list(LETTERS[1:3],NULL)))
(lm <- (m > 1)) # lgC
!lm # no longer sparse
stopifnot(is(lm,"lsparseMatrix"),
identical(!lm, m <= 1))
data(KNex, package = "Matrix")
str(mmG.1 <- (KNex $ mm) > 0.1)# "lgC..."
table(mmG.1@x)# however with many ``non-structural zeros''
## from logical to nz_pattern -- okay when there are no NA's :
nmG.1 <- as(mmG.1, "nMatrix") # <<< has "TRUE" also where mmG.1 had FALSE
## from logical to "double"
dmG.1 <- as(mmG.1, "dMatrix") # has '0' and back:
lmG.1 <- as(dmG.1, "lMatrix")
stopifnot(identical(nmG.1, as((KNex $ mm) != 0,"nMatrix")),
validObject(lmG.1),
identical(lmG.1, mmG.1))
class(xnx <- crossprod(nmG.1))# "nsC.."
class(xlx <- crossprod(mmG.1))# "dsC.." : numeric
is0 <- (xlx == 0)
mean(as.vector(is0))# 99.3% zeros: quite sparse, but
table(xlx@x == 0)# more than half of the entries are (non-structural!) 0
stopifnot(isSymmetric(xlx), isSymmetric(xnx),
## compare xnx and xlx : have the *same* non-structural 0s :
sapply(slotNames(xnx),
function(n) identical(slot(xnx, n), slot(xlx, n))))
Matrix documentation built on Oct. 19, 2024, 1:08 a.m.
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
| lsparseMatrix-class | R Documentation |
Sparse logical matrices
Description
The lsparseMatrix class is a virtual class
of logical sparse matrices, i.e., sparse matrices with entries
TRUE, FALSE, or NA.
These can be stored in the “triplet” form (class
TsparseMatrix, subclasses lgTMatrix,
lsTMatrix, and ltTMatrix) or in compressed
column-oriented form (class CsparseMatrix,
subclasses lgCMatrix, lsCMatrix, and ltCMatrix)
or–rarely–in compressed row-oriented form (class
RsparseMatrix, subclasses lgRMatrix,
lsRMatrix, and ltRMatrix). The second letter in the
name of these non-virtual classes indicates general,
symmetric, or triangular.
Details
Note that triplet stored (TsparseMatrix) matrices
such as lgTMatrix may contain duplicated pairs of indices
(i,j) as for the corresponding numeric class
dgTMatrix where for such pairs, the corresponding
x slot entries are added. For logical matrices, the x
entries corresponding to duplicated index pairs (i,j) are
“added” as well if the addition is defined as logical or,
i.e., “TRUE + TRUE |-> TRUE” and
“TRUE + FALSE |-> TRUE”.
Note the use of asUniqueT() for getting an internally
unique representation without duplicated (i,j) entries.
Objects from the Class
Objects can be created by calls of the form new("lgCMatrix",
...) and so on. More frequently objects are created by coercion of
a numeric sparse matrix to the logical form, e.g. in an expression
x != 0.
The logical form is also used in the symbolic analysis phase of an algorithm involving sparse matrices. Such algorithms often involve two phases: a symbolic phase wherein the positions of the non-zeros in the result are determined and a numeric phase wherein the actual results are calculated. During the symbolic phase only the positions of the non-zero elements in any operands are of interest, hence any numeric sparse matrices can be treated as logical sparse matrices.
Slots
x:Object of class
"logical", i.e., eitherTRUE,NA, orFALSE.uplo:Object of class
"character". Must be either "U", for upper triangular, and "L", for lower triangular. Present in the triangular and symmetric classes but not in the general class.diag:Object of class
"character". Must be either"U", for unit triangular (diagonal is all ones), or"N"for non-unit. The implicit diagonal elements are not explicitly stored whendiagis"U". Present in the triangular classes only.p:Object of class
"integer"of pointers, one for each column (row), to the initial (zero-based) index of elements in the column. Present in compressed column-oriented and compressed row-oriented forms only.i:Object of class
"integer"of length nnzero (number of non-zero elements). These are the row numbers for each TRUE element in the matrix. All other elements are FALSE. Present in triplet and compressed column-oriented forms only.j:Object of class
"integer"of length nnzero (number of non-zero elements). These are the column numbers for each TRUE element in the matrix. All other elements are FALSE. Present in triplet and compressed row-oriented forms only.Dim:Object of class
"integer"- the dimensions of the matrix.
Methods
- coerce
signature(from = "dgCMatrix", to = "lgCMatrix")- t
signature(x = "lgCMatrix"): returns the transpose ofx- which
signature(x = "lsparseMatrix"), semantically equivalent to base functionwhich(x, arr.ind); for details, see thelMatrixclass documentation.
See Also
the class dgCMatrix and dgTMatrix
Examples
(m <- Matrix(c(0,0,2:0), 3,5, dimnames=list(LETTERS[1:3],NULL)))
(lm <- (m > 1)) # lgC
!lm # no longer sparse
stopifnot(is(lm,"lsparseMatrix"),
identical(!lm, m <= 1))
data(KNex, package = "Matrix")
str(mmG.1 <- (KNex $ mm) > 0.1)# "lgC..."
table(mmG.1@x)# however with many ``non-structural zeros''
## from logical to nz_pattern -- okay when there are no NA's :
nmG.1 <- as(mmG.1, "nMatrix") # <<< has "TRUE" also where mmG.1 had FALSE
## from logical to "double"
dmG.1 <- as(mmG.1, "dMatrix") # has '0' and back:
lmG.1 <- as(dmG.1, "lMatrix")
stopifnot(identical(nmG.1, as((KNex $ mm) != 0,"nMatrix")),
validObject(lmG.1),
identical(lmG.1, mmG.1))
class(xnx <- crossprod(nmG.1))# "nsC.."
class(xlx <- crossprod(mmG.1))# "dsC.." : numeric
is0 <- (xlx == 0)
mean(as.vector(is0))# 99.3% zeros: quite sparse, but
table(xlx@x == 0)# more than half of the entries are (non-structural!) 0
stopifnot(isSymmetric(xlx), isSymmetric(xnx),
## compare xnx and xlx : have the *same* non-structural 0s :
sapply(slotNames(xnx),
function(n) identical(slot(xnx, n), slot(xlx, n))))
R Package Documentation
Browse R Packages
We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
Embedding an R snippet on your website
Add the following code to your website.
For more information on customizing the embed code, read Embedding Snippets.