sparseVector-class: Sparse Vector Classes

Description

Sparse Vector Classes: The virtual mother class "sparseVector" has the five actual daughter classes "dsparseVector", "isparseVector", "lsparseVector", "nsparseVector", and "zsparseVector", where we've mainly implemented methods for the d*, l* and n* ones.

Arguments

Slots

length:: class "numeric" - the length of the sparse vector. Note that "numeric" can be considerably larger than the maximal "integer", .Machine$integer.max, on purpose.
i:: class "numeric" - the (1-based) indices of the non-zero entries. Must not be NA and strictly sorted increasingly. Note that "integer" is “part of” "numeric", and can (and often will) be used for non-huge sparseVectors.
x:: (for all but "nsparseVector"): the non-zero entries. This is of class "numeric" for class "dsparseVector", "logical" for class "lsparseVector", etc. Note that "nsparseVector"s have no x slot. Further, mainly for ease of method definitions, we've defined the class union (see setClassUnion) of all sparse vector classes which have an x slot, as class "xsparseVector".

Methods

length: signature(x = "sparseVector"): simply extracts the length slot.
show: signature(object = "sparseVector"): The show method for sparse vectors prints “structural” zeroes as "." using the non-exported prSpVector function which allows further customization such as replacing "." by " " (blank). Note that options(max.print) will influence how many entries of large sparse vectors are printed at all.
as.vector: signature(x = "sparseVector", mode = "character") coerces sparse vectors to “regular”, i.e., atomic vectors. This is the same as as(x, "vector").
as: ..: see coerce below
coerce: signature(from = "sparseVector", to = "sparseMatrix"), and
coerce: signature(from = "sparseMatrix", to = "sparseVector"), etc: coercions to and from sparse matrices (sparseMatrix) are provided and work analogously as in standard R, i.e., a vector is coerced to a 1-column matrix.
dim<-: signature(x = "sparseVector", value = "integer") coerces a sparse vector to a sparse Matrix, i.e., an object inheriting from sparseMatrix, of the appropriate dimension.
head: signature(x = "sparseVector"): as with R's (package util) head, head(x,n) (for $n >= 1$) is equivalent to x[1:n], but here can be much more efficient, see the example.
tail: signature(x = "sparseVector"): analogous to head, see above.
toeplitz: signature(x = "sparseVector"): as toeplitz(x), produce the $n \times n$ Toeplitz matrix from x, where n = length(x).
rep: signature(x = "sparseVector") repeat x, with the same argument list (x, times, length.out, each, ...) as the default method for rep().
Ops: signature(e1 = "sparseVector", e2 = "*"): define arithmetic, compare and logic operations, (see Ops).
Summary: signature(x = "sparseVector"): define all the Summary methods.
[: signature(x = "atomicVector", i = ...): not only can you subset (aka “index into”) sparseVectors x[i] using sparseVectors i, but we also support efficient subsetting of traditional vectors x by logical sparse vectors (i.e., i of class "nsparseVector" or "lsparseVector").
is.na, is.finite, is.infinite: (x = "sparseVector"), and
is.na, is.finite, is.infinite: (x = "nsparseVector"): return logical or "nsparseVector" of the same length as x, indicating if/where x is NA (or NaN), finite or infinite, entirely analogously to the corresponding base R functions.

Examples

Run this code

getClass("sparseVector")
getClass("dsparseVector")
getClass("xsparseVector")# those with an 'x' slot

sx <- c(0,0,3, 3.2, 0,0,0,-3:1,0,0,2,0,0,5,0,0)
(ss <- as(sx, "sparseVector"))

ix <- as.integer(round(sx))
(is <- as(ix, "sparseVector"))
## an "isparseVector" (!)

## rep() works too:
(ri <- rep(is, length.out= 25))

## Using `dim<-`  as in base R :
r <- ss
dim(r) <- c(4,5) # becomes a sparse Matrix:
r
## or coercion (as as.matrix() in base R):
as(ss, "Matrix")
stopifnot(all(ss == print(as(ss, "CsparseMatrix"))))

## currently has "non-structural" FALSE -- printing as ":"
(lis <- is & FALSE)
(nn <- is[is == 0]) # all "structural" FALSE

## NA-case
sN <- sx; sN[4] <- NA
(svN <- as(sN, "sparseVector"))

v <- as(c(0,0,3, 3.2, rep(0,9),-3,0,-1, rep(0,20),5,0),
         "sparseVector")
v <- rep(rep(v, 50), 5000)
set.seed(1); v[sample(v@i, 1e6)] <- 0
str(v)




system.time(for(i in 1:4) hv <- head(v, 1e6))
##   user  system elapsed
##  0.033   0.000   0.032
system.time(for(i in 1:4) h2 <- v[1:1e6])
##   user  system elapsed
##  1.317   0.000   1.319

stopifnot(identical(hv, h2),
          identical(is | FALSE, is != 0),
	  validObject(svN), validObject(lis), as.logical(is.na(svN[4])),
	  identical(is^2 > 0,	is & TRUE),
	  all(!lis), !any(lis), length(nn@i) == 0, !any(nn), all(!nn),
	  sum(lis) == 0, !prod(lis), range(lis) == c(0,0))

## create and use the t(.) method:
t(x20 <- sparseVector(c(9,3:1), i=c(1:2,4,7), length=20))
(T20 <- toeplitz(x20))
stopifnot(is(T20, "symmetricMatrix"), is(T20, "sparseMatrix"),
	  identical(unname(as.matrix(T20)),
                    toeplitz(as.vector(x20))))

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Description

Arguments

Slots

Methods

See Also

Examples