tests/testthat/test-SVT_SparseArray-class.R
In Bioconductor/SparseArray: High-performance sparse data representation and manipulation in R
### 'a0' is expected to be of type "double".
### We only check types "double", "integer", "logical", and "raw" at the
### moment. No "complex", "character", or "list" (even though they are
### supported).
.test_coercion_to_SparseArray_with_various_types <-
function(a0, to, expected_class)
{
object <- as(a0, to)
check_SparseArray_object(object, expected_class, a0)
a <- a0
suppressWarnings(storage.mode(a) <- "integer")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
a <- a0
suppressWarnings(storage.mode(a) <- "logical")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
a <- a0
suppressWarnings(storage.mode(a) <- "raw")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
}
test_that("array <==> SVT_SparseArray coercions", {
## Only zeros.
a0 <- array(0.0, c(7, 10, 3),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
.test_coercion_to_SparseArray_with_various_types(a0, "SVT_SparseArray",
"SVT_SparseArray")
.test_coercion_to_SparseArray_with_various_types(a0, "SparseArray",
"SVT_SparseArray")
m0 <- a0[ , , 1] # 2D
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseMatrix",
"SVT_SparseMatrix")
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseArray",
"SVT_SparseMatrix")
.test_coercion_to_SparseArray_with_various_types(m0, "SparseArray",
"SVT_SparseMatrix")
x0 <- as.array(m0[1, ]) # 1D
.test_coercion_to_SparseArray_with_various_types(x0, "SVT_SparseArray",
"SVT_SparseArray")
.test_coercion_to_SparseArray_with_various_types(x0, "SparseArray",
"SVT_SparseArray")
## Add some nonzero elements.
a0 <- make_3D_double_array()
.test_coercion_to_SparseArray_with_various_types(a0, "SVT_SparseArray",
"SVT_SparseArray")
m0 <- a0[ , , 1] # 2D
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseMatrix",
"SVT_SparseMatrix")
x0 <- as.array(m0[2, ]) # 1D
.test_coercion_to_SparseArray_with_various_types(x0, "SVT_SparseArray",
"SVT_SparseArray")
## Length zero.
a <- a0[ , 0, ]
.test_coercion_to_SparseArray_with_various_types(a, "SVT_SparseArray",
"SVT_SparseArray")
})
test_that("dgCMatrix <==> SVT_SparseMatrix coercions", {
## Only zeros.
m0 <- matrix(0.0, nrow=7, ncol=10, dimnames=list(NULL, letters[1:10]))
dgcm0 <- as(m0, "dgCMatrix")
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm0, "SparseMatrix"), svt)
expect_identical(as(dgcm0, "SVT_SparseArray"), svt)
expect_identical(as(dgcm0, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm0)
expect_identical(as(svt, "CsparseMatrix"), dgcm0)
expect_identical(as(svt, "sparseMatrix"), dgcm0)
## Add some nonzero elements.
set.seed(456)
m0[5*(1:14)] <- runif(7, min=-5, max=10)
m0[2, c(1:4, 7:9)] <- c(NA, NaN, Inf, 3e9, 256, -0.999, -1)
dgcm0 <- as(m0, "dgCMatrix")
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm0, "SparseMatrix"), svt)
expect_identical(as(dgcm0, "SVT_SparseArray"), svt)
expect_identical(as(dgcm0, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm0)
expect_identical(as(svt, "CsparseMatrix"), dgcm0)
expect_identical(as(svt, "sparseMatrix"), dgcm0)
## Length zero.
m <- m0[0 , ]
dgcm <- as(m, "dgCMatrix")
svt <- as(dgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm, "SparseMatrix"), svt)
expect_identical(as(dgcm, "SVT_SparseArray"), svt)
expect_identical(as(dgcm, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm)
expect_identical(as(svt, "CsparseMatrix"), dgcm)
expect_identical(as(svt, "sparseMatrix"), dgcm)
m <- m0[ , 0] # this sets the dimnames to list(NULL, NULL)
dimnames(m) <- NULL # fix the dimnames
dgcm <- as(m, "dgCMatrix")
svt <- as(dgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm, "SparseMatrix"), svt)
expect_identical(as(dgcm, "SVT_SparseArray"), svt)
expect_identical(as(dgcm, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm)
expect_identical(as(svt, "CsparseMatrix"), dgcm)
expect_identical(as(svt, "sparseMatrix"), dgcm)
## dgCMatrix object with zeros in the "x" slot.
m0 <- matrix(c(11:13, 0, 0, NA, 22:25), ncol=2)
dgcm0 <- as(m0, "dgCMatrix")
m0[cbind(3:4, 2)] <- dgcm0[cbind(3:4, 2)] <- 0 # sneak zeros in "x" slot
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "dgCMatrix"), as(m0, "dgCMatrix"))
## With no nonzero elements in the 1st column.
m0[cbind(1:3, 1)] <- dgcm0[cbind(1:3, 1)] <- 0
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expected_SVT <- list(NULL, list(c(NA, 22, 25), c(0L, 1L, 4L)))
expect_identical(svt@SVT, expected_SVT)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "dgCMatrix"), as(m0, "dgCMatrix"))
})
test_that("lgCMatrix <==> SVT_SparseMatrix coercions", {
## Only zeros.
m0 <- matrix(FALSE, nrow=7, ncol=10, dimnames=list(NULL, letters[1:10]))
lgcm0 <- as(m0, "lgCMatrix")
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm0, "SparseMatrix"), svt)
expect_identical(as(lgcm0, "SVT_SparseArray"), svt)
expect_identical(as(lgcm0, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm0)
expect_identical(as(svt, "CsparseMatrix"), lgcm0)
expect_identical(as(svt, "sparseMatrix"), lgcm0)
## Add some nonzero elements.
m0[5*(1:14)] <- TRUE
m0[17*(1:4)] <- NA
m0[3, 8] <- NA
lgcm0 <- as(m0, "lgCMatrix")
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm0, "SparseMatrix"), svt)
expect_identical(as(lgcm0, "SVT_SparseArray"), svt)
expect_identical(as(lgcm0, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm0)
expect_identical(as(svt, "CsparseMatrix"), lgcm0)
expect_identical(as(svt, "sparseMatrix"), lgcm0)
## Length zero.
m <- m0[0 , ]
lgcm <- as(m, "lgCMatrix")
svt <- as(lgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm, "SparseMatrix"), svt)
expect_identical(as(lgcm, "SVT_SparseArray"), svt)
expect_identical(as(lgcm, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm)
expect_identical(as(svt, "CsparseMatrix"), lgcm)
expect_identical(as(svt, "sparseMatrix"), lgcm)
m <- m0[ , 0] # this sets the dimnames to list(NULL, NULL)
dimnames(m) <- NULL # fix the dimnames
lgcm <- as(m, "lgCMatrix")
svt <- as(lgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm, "SparseMatrix"), svt)
expect_identical(as(lgcm, "SVT_SparseArray"), svt)
expect_identical(as(lgcm, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm)
expect_identical(as(svt, "CsparseMatrix"), lgcm)
expect_identical(as(svt, "sparseMatrix"), lgcm)
## lgCMatrix object with zeros (i.e. FALSEs) in the "x" slot.
m0 <- matrix(c(rep(TRUE, 3), FALSE, FALSE, NA, rep(TRUE, 4)), ncol=2)
lgcm0 <- as(m0, "lgCMatrix")
m0[cbind(3:4, 2)] <- lgcm0[cbind(3:4, 2)] <- FALSE # sneak Fs in "x" slot
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "lgCMatrix"), as(m0, "lgCMatrix"))
## With no TRUEs in the 1st column.
m0[cbind(1:3, 1)] <- lgcm0[cbind(1:3, 1)] <- FALSE
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expected_SVT <- list(NULL, list(c(NA, TRUE, TRUE), c(0L, 1L, 4L)))
expect_identical(svt@SVT, expected_SVT)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "lgCMatrix"), as(m0, "lgCMatrix"))
})
.make_test_3D_coo <- function()
{
a0 <- make_3D_double_array()
coo0 <- as(a0, "COO_SparseArray")
idx <- sample(length(coo0@nzdata))
coo0@nzcoo <- coo0@nzcoo[idx, , drop=FALSE]
coo0@nzdata <- coo0@nzdata[idx]
coo0
}
.make_test_2D_coo <- function()
{
coo0 <- .make_test_3D_coo()
coo <- extract_sparse_array(coo0, list(NULL, NULL, 1L))
COO_SparseArray(dim(coo)[1:2], nzcoo=nzcoo(coo)[ , 1:2], nzdata=nzdata(coo),
dimnames=dimnames(coo0)[1:2])
}
.make_test_1D_coo <- function()
{
coo0 <- .make_test_2D_coo()
coo <- extract_sparse_array(coo0, list(2L, NULL))
COO_SparseArray(dim(coo)[2L],
nzcoo=nzcoo(coo)[ , 2L, drop=FALSE], nzdata=nzdata(coo),
dimnames=dimnames(coo0)[2L])
}
test_that("COO_SparseArray <==> SVT_SparseArray coercions", {
## Only zeros.
coo0 <- COO_SparseArray(c(7, 10, 3), nzdata=double(0),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- COO_SparseArray(c(7, 10), nzdata=double(0)) # 2D
m <- as.matrix(coo0)
svt <- as(coo0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(coo0, "SVT_SparseArray"), svt)
coo <- as(m, "COO_SparseMatrix")
expect_identical(as(svt, "COO_SparseMatrix"), coo)
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- COO_SparseArray(10, nzdata=double(0)) # 1D
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
## Add some nonzero elements.
coo0 <- .make_test_3D_coo()
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- .make_test_2D_coo() # 2D
m <- as.matrix(coo0)
svt <- as(coo0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(coo0, "SVT_SparseArray"), svt)
coo <- as(m, "COO_SparseMatrix")
expect_identical(as(svt, "COO_SparseMatrix"), coo)
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- .make_test_1D_coo() # 1D
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
## Length zero.
coo0 <- as(make_3D_double_array()[ , 0, ], "COO_SparseArray")
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
})
test_that("SVT_SparseArray() constructor function", {
a0 <- array(0L, c(7, 10, 3),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
## 3D
svt <- SVT_SparseArray(a0)
check_SparseArray_object(svt, "SVT_SparseArray", a0)
svt <- SVT_SparseArray(dim=dim(a0), type=type(a0))
check_SparseArray_object(svt, "SVT_SparseArray", unname(a0))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a0), type=type(a0))
check_SparseArray_object(svt, "SVT_SparseArray", a0)
svt <- SVT_SparseArray(a0, dim=dim(a0))
check_SparseArray_object(svt, "SVT_SparseArray", unname(a0))
a <- S4Arrays:::set_dimnames(a0, list(LETTERS[1:7], NULL, letters[24:26]))
svt <- SVT_SparseArray(a0, dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a0, "logical")
svt <- SVT_SparseArray(a0, type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", a)
svt <- SVT_SparseArray(dim=dim(a0), type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a), type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a0, "raw")
svt <- SVT_SparseArray(a0, type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", a)
svt <- SVT_SparseArray(dim=dim(a0), type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a), type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", a)
## 2D
a <- S4Arrays:::set_dim(a0, 14:15)
svt <- SVT_SparseArray(a0, dim=dim(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
svt <- SVT_SparseArray(dim=dim(a), type=type(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
a <- S4Arrays:::set_dimnames(a, list(letters[1:14], NULL))
svt <- SVT_SparseArray(a0, dim=dim(a), dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
a <- `type<-`(a, "double")
svt <- SVT_SparseArray(dim=dim(a), type="double")
check_SparseArray_object(svt, "SVT_SparseMatrix", unname(a))
svt <- SVT_SparseArray(dim=dim(a), dimnames=dimnames(a), type="double")
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
## 1D
a <- S4Arrays:::set_dim(a0, prod(dim(a0)))
svt <- SVT_SparseArray(a0, dim=dim(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- S4Arrays:::set_dimnames(a, list(sprintf("%02d", 1:210)))
svt <- SVT_SparseArray(a0, dim=dim(a), dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a, "complex")
svt <- SVT_SparseArray(dim=dim(a), type="complex")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a), dimnames=dimnames(a), type="complex")
check_SparseArray_object(svt, "SVT_SparseArray", a)
})
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### 'a0' is expected to be of type "double".
### We only check types "double", "integer", "logical", and "raw" at the
### moment. No "complex", "character", or "list" (even though they are
### supported).
.test_coercion_to_SparseArray_with_various_types <-
function(a0, to, expected_class)
{
object <- as(a0, to)
check_SparseArray_object(object, expected_class, a0)
a <- a0
suppressWarnings(storage.mode(a) <- "integer")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
a <- a0
suppressWarnings(storage.mode(a) <- "logical")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
a <- a0
suppressWarnings(storage.mode(a) <- "raw")
suppressWarnings(object <- as(a, to))
check_SparseArray_object(object, expected_class, a)
}
test_that("array <==> SVT_SparseArray coercions", {
## Only zeros.
a0 <- array(0.0, c(7, 10, 3),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
.test_coercion_to_SparseArray_with_various_types(a0, "SVT_SparseArray",
"SVT_SparseArray")
.test_coercion_to_SparseArray_with_various_types(a0, "SparseArray",
"SVT_SparseArray")
m0 <- a0[ , , 1] # 2D
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseMatrix",
"SVT_SparseMatrix")
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseArray",
"SVT_SparseMatrix")
.test_coercion_to_SparseArray_with_various_types(m0, "SparseArray",
"SVT_SparseMatrix")
x0 <- as.array(m0[1, ]) # 1D
.test_coercion_to_SparseArray_with_various_types(x0, "SVT_SparseArray",
"SVT_SparseArray")
.test_coercion_to_SparseArray_with_various_types(x0, "SparseArray",
"SVT_SparseArray")
## Add some nonzero elements.
a0 <- make_3D_double_array()
.test_coercion_to_SparseArray_with_various_types(a0, "SVT_SparseArray",
"SVT_SparseArray")
m0 <- a0[ , , 1] # 2D
.test_coercion_to_SparseArray_with_various_types(m0, "SVT_SparseMatrix",
"SVT_SparseMatrix")
x0 <- as.array(m0[2, ]) # 1D
.test_coercion_to_SparseArray_with_various_types(x0, "SVT_SparseArray",
"SVT_SparseArray")
## Length zero.
a <- a0[ , 0, ]
.test_coercion_to_SparseArray_with_various_types(a, "SVT_SparseArray",
"SVT_SparseArray")
})
test_that("dgCMatrix <==> SVT_SparseMatrix coercions", {
## Only zeros.
m0 <- matrix(0.0, nrow=7, ncol=10, dimnames=list(NULL, letters[1:10]))
dgcm0 <- as(m0, "dgCMatrix")
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm0, "SparseMatrix"), svt)
expect_identical(as(dgcm0, "SVT_SparseArray"), svt)
expect_identical(as(dgcm0, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm0)
expect_identical(as(svt, "CsparseMatrix"), dgcm0)
expect_identical(as(svt, "sparseMatrix"), dgcm0)
## Add some nonzero elements.
set.seed(456)
m0[5*(1:14)] <- runif(7, min=-5, max=10)
m0[2, c(1:4, 7:9)] <- c(NA, NaN, Inf, 3e9, 256, -0.999, -1)
dgcm0 <- as(m0, "dgCMatrix")
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm0, "SparseMatrix"), svt)
expect_identical(as(dgcm0, "SVT_SparseArray"), svt)
expect_identical(as(dgcm0, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm0)
expect_identical(as(svt, "CsparseMatrix"), dgcm0)
expect_identical(as(svt, "sparseMatrix"), dgcm0)
## Length zero.
m <- m0[0 , ]
dgcm <- as(m, "dgCMatrix")
svt <- as(dgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm, "SparseMatrix"), svt)
expect_identical(as(dgcm, "SVT_SparseArray"), svt)
expect_identical(as(dgcm, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm)
expect_identical(as(svt, "CsparseMatrix"), dgcm)
expect_identical(as(svt, "sparseMatrix"), dgcm)
m <- m0[ , 0] # this sets the dimnames to list(NULL, NULL)
dimnames(m) <- NULL # fix the dimnames
dgcm <- as(m, "dgCMatrix")
svt <- as(dgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(dgcm, "SparseMatrix"), svt)
expect_identical(as(dgcm, "SVT_SparseArray"), svt)
expect_identical(as(dgcm, "SparseArray"), svt)
expect_identical(as(svt, "dgCMatrix"), dgcm)
expect_identical(as(svt, "CsparseMatrix"), dgcm)
expect_identical(as(svt, "sparseMatrix"), dgcm)
## dgCMatrix object with zeros in the "x" slot.
m0 <- matrix(c(11:13, 0, 0, NA, 22:25), ncol=2)
dgcm0 <- as(m0, "dgCMatrix")
m0[cbind(3:4, 2)] <- dgcm0[cbind(3:4, 2)] <- 0 # sneak zeros in "x" slot
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "dgCMatrix"), as(m0, "dgCMatrix"))
## With no nonzero elements in the 1st column.
m0[cbind(1:3, 1)] <- dgcm0[cbind(1:3, 1)] <- 0
svt <- as(dgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expected_SVT <- list(NULL, list(c(NA, 22, 25), c(0L, 1L, 4L)))
expect_identical(svt@SVT, expected_SVT)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "dgCMatrix"), as(m0, "dgCMatrix"))
})
test_that("lgCMatrix <==> SVT_SparseMatrix coercions", {
## Only zeros.
m0 <- matrix(FALSE, nrow=7, ncol=10, dimnames=list(NULL, letters[1:10]))
lgcm0 <- as(m0, "lgCMatrix")
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm0, "SparseMatrix"), svt)
expect_identical(as(lgcm0, "SVT_SparseArray"), svt)
expect_identical(as(lgcm0, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm0)
expect_identical(as(svt, "CsparseMatrix"), lgcm0)
expect_identical(as(svt, "sparseMatrix"), lgcm0)
## Add some nonzero elements.
m0[5*(1:14)] <- TRUE
m0[17*(1:4)] <- NA
m0[3, 8] <- NA
lgcm0 <- as(m0, "lgCMatrix")
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm0, "SparseMatrix"), svt)
expect_identical(as(lgcm0, "SVT_SparseArray"), svt)
expect_identical(as(lgcm0, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm0)
expect_identical(as(svt, "CsparseMatrix"), lgcm0)
expect_identical(as(svt, "sparseMatrix"), lgcm0)
## Length zero.
m <- m0[0 , ]
lgcm <- as(m, "lgCMatrix")
svt <- as(lgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm, "SparseMatrix"), svt)
expect_identical(as(lgcm, "SVT_SparseArray"), svt)
expect_identical(as(lgcm, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm)
expect_identical(as(svt, "CsparseMatrix"), lgcm)
expect_identical(as(svt, "sparseMatrix"), lgcm)
m <- m0[ , 0] # this sets the dimnames to list(NULL, NULL)
dimnames(m) <- NULL # fix the dimnames
lgcm <- as(m, "lgCMatrix")
svt <- as(lgcm, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(m, "SVT_SparseMatrix"), svt)
expect_identical(as(lgcm, "SparseMatrix"), svt)
expect_identical(as(lgcm, "SVT_SparseArray"), svt)
expect_identical(as(lgcm, "SparseArray"), svt)
expect_identical(as(svt, "lgCMatrix"), lgcm)
expect_identical(as(svt, "CsparseMatrix"), lgcm)
expect_identical(as(svt, "sparseMatrix"), lgcm)
## lgCMatrix object with zeros (i.e. FALSEs) in the "x" slot.
m0 <- matrix(c(rep(TRUE, 3), FALSE, FALSE, NA, rep(TRUE, 4)), ncol=2)
lgcm0 <- as(m0, "lgCMatrix")
m0[cbind(3:4, 2)] <- lgcm0[cbind(3:4, 2)] <- FALSE # sneak Fs in "x" slot
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "lgCMatrix"), as(m0, "lgCMatrix"))
## With no TRUEs in the 1st column.
m0[cbind(1:3, 1)] <- lgcm0[cbind(1:3, 1)] <- FALSE
svt <- as(lgcm0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m0)
expected_SVT <- list(NULL, list(c(NA, TRUE, TRUE), c(0L, 1L, 4L)))
expect_identical(svt@SVT, expected_SVT)
expect_identical(as(m0, "SVT_SparseMatrix"), svt)
expect_identical(as(svt, "lgCMatrix"), as(m0, "lgCMatrix"))
})
.make_test_3D_coo <- function()
{
a0 <- make_3D_double_array()
coo0 <- as(a0, "COO_SparseArray")
idx <- sample(length(coo0@nzdata))
coo0@nzcoo <- coo0@nzcoo[idx, , drop=FALSE]
coo0@nzdata <- coo0@nzdata[idx]
coo0
}
.make_test_2D_coo <- function()
{
coo0 <- .make_test_3D_coo()
coo <- extract_sparse_array(coo0, list(NULL, NULL, 1L))
COO_SparseArray(dim(coo)[1:2], nzcoo=nzcoo(coo)[ , 1:2], nzdata=nzdata(coo),
dimnames=dimnames(coo0)[1:2])
}
.make_test_1D_coo <- function()
{
coo0 <- .make_test_2D_coo()
coo <- extract_sparse_array(coo0, list(2L, NULL))
COO_SparseArray(dim(coo)[2L],
nzcoo=nzcoo(coo)[ , 2L, drop=FALSE], nzdata=nzdata(coo),
dimnames=dimnames(coo0)[2L])
}
test_that("COO_SparseArray <==> SVT_SparseArray coercions", {
## Only zeros.
coo0 <- COO_SparseArray(c(7, 10, 3), nzdata=double(0),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- COO_SparseArray(c(7, 10), nzdata=double(0)) # 2D
m <- as.matrix(coo0)
svt <- as(coo0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(coo0, "SVT_SparseArray"), svt)
coo <- as(m, "COO_SparseMatrix")
expect_identical(as(svt, "COO_SparseMatrix"), coo)
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- COO_SparseArray(10, nzdata=double(0)) # 1D
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
## Add some nonzero elements.
coo0 <- .make_test_3D_coo()
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- .make_test_2D_coo() # 2D
m <- as.matrix(coo0)
svt <- as(coo0, "SVT_SparseMatrix")
check_SparseArray_object(svt, "SVT_SparseMatrix", m)
expect_identical(as(coo0, "SVT_SparseArray"), svt)
coo <- as(m, "COO_SparseMatrix")
expect_identical(as(svt, "COO_SparseMatrix"), coo)
expect_identical(as(svt, "COO_SparseArray"), coo)
coo0 <- .make_test_1D_coo() # 1D
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
## Length zero.
coo0 <- as(make_3D_double_array()[ , 0, ], "COO_SparseArray")
a <- as.array(coo0)
svt <- as(coo0, "SVT_SparseArray")
check_SparseArray_object(svt, "SVT_SparseArray", a)
coo <- as(a, "COO_SparseArray")
expect_identical(as(svt, "COO_SparseArray"), coo)
})
test_that("SVT_SparseArray() constructor function", {
a0 <- array(0L, c(7, 10, 3),
dimnames=list(NULL, letters[1:10], LETTERS[1:3]))
## 3D
svt <- SVT_SparseArray(a0)
check_SparseArray_object(svt, "SVT_SparseArray", a0)
svt <- SVT_SparseArray(dim=dim(a0), type=type(a0))
check_SparseArray_object(svt, "SVT_SparseArray", unname(a0))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a0), type=type(a0))
check_SparseArray_object(svt, "SVT_SparseArray", a0)
svt <- SVT_SparseArray(a0, dim=dim(a0))
check_SparseArray_object(svt, "SVT_SparseArray", unname(a0))
a <- S4Arrays:::set_dimnames(a0, list(LETTERS[1:7], NULL, letters[24:26]))
svt <- SVT_SparseArray(a0, dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a0, "logical")
svt <- SVT_SparseArray(a0, type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", a)
svt <- SVT_SparseArray(dim=dim(a0), type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a), type="logical")
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a0, "raw")
svt <- SVT_SparseArray(a0, type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", a)
svt <- SVT_SparseArray(dim=dim(a0), type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a0), dimnames=dimnames(a), type="raw")
check_SparseArray_object(svt, "SVT_SparseArray", a)
## 2D
a <- S4Arrays:::set_dim(a0, 14:15)
svt <- SVT_SparseArray(a0, dim=dim(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
svt <- SVT_SparseArray(dim=dim(a), type=type(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
a <- S4Arrays:::set_dimnames(a, list(letters[1:14], NULL))
svt <- SVT_SparseArray(a0, dim=dim(a), dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
a <- `type<-`(a, "double")
svt <- SVT_SparseArray(dim=dim(a), type="double")
check_SparseArray_object(svt, "SVT_SparseMatrix", unname(a))
svt <- SVT_SparseArray(dim=dim(a), dimnames=dimnames(a), type="double")
check_SparseArray_object(svt, "SVT_SparseMatrix", a)
## 1D
a <- S4Arrays:::set_dim(a0, prod(dim(a0)))
svt <- SVT_SparseArray(a0, dim=dim(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- S4Arrays:::set_dimnames(a, list(sprintf("%02d", 1:210)))
svt <- SVT_SparseArray(a0, dim=dim(a), dimnames=dimnames(a))
check_SparseArray_object(svt, "SVT_SparseArray", a)
a <- `type<-`(a, "complex")
svt <- SVT_SparseArray(dim=dim(a), type="complex")
check_SparseArray_object(svt, "SVT_SparseArray", unname(a))
svt <- SVT_SparseArray(dim=dim(a), dimnames=dimnames(a), type="complex")
check_SparseArray_object(svt, "SVT_SparseArray", a)
})
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