tests/testthat/test_perm.R
In kasperdanielhansen/bsseq: Analyze, manage and store whole-genome methylation data
context("Permutations")
test_that("makeIdxMatrix() n = 1", {
grp1 <- paste0("A", 1)
grp2 <- paste0("B", 1)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0L)
expect_equal(res[1, ], grp1)
expect_equal(res[2, ], grp2)
expect_equal(nrow(res), choose(2, 1)) # Fail
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0L)
expect_equal(res[1, ], grp1)
expect_equal(nrow(res), choose(2, 1) / 2)
})
test_that("makeIdxMatrix() n = 2", {
grp1 <- paste0("A", 1:2)
grp2 <- paste0("B", 1:2)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(4, 2))
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(4, 2) / 2)
})
test_that("makeIdxMatrix() n = 3", {
grp1 <- paste0("A", 1:3)
grp2 <- paste0("B", 1:3)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(6, 3))
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(6, 3) / 2)
})
test_that("makeIdxMatrix() n = 4", {
grp1 <- paste0("A", 1:4)
grp2 <- paste0("B", 1:4)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(8,4))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(8,4) / 2) # Fail
})
test_that("makeIdxMatrix() n = 5", {
grp1 <- paste0("A", 1:5)
grp2 <- paste0("B", 1:5)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(10,5))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(10,5) / 2)
})
test_that("makeIdxMatrix() n = 6", {
grp1 <- paste0("A", 1:6)
grp2 <- paste0("B", 1:6)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(12,6))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(12,6) / 2)
})
kasperdanielhansen/bsseq documentation built on April 14, 2024, 2:19 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.
context("Permutations")
test_that("makeIdxMatrix() n = 1", {
grp1 <- paste0("A", 1)
grp2 <- paste0("B", 1)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0L)
expect_equal(res[1, ], grp1)
expect_equal(res[2, ], grp2)
expect_equal(nrow(res), choose(2, 1)) # Fail
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0L)
expect_equal(res[1, ], grp1)
expect_equal(nrow(res), choose(2, 1) / 2)
})
test_that("makeIdxMatrix() n = 2", {
grp1 <- paste0("A", 1:2)
grp2 <- paste0("B", 1:2)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(4, 2))
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(4, 2) / 2)
})
test_that("makeIdxMatrix() n = 3", {
grp1 <- paste0("A", 1:3)
grp2 <- paste0("B", 1:3)
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = FALSE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(6, 3))
res <- bsseq:::makeIdxMatrix(grp1, grp2, testIsSymmetric = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(6, 3) / 2)
})
test_that("makeIdxMatrix() n = 4", {
grp1 <- paste0("A", 1:4)
grp2 <- paste0("B", 1:4)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(8,4))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(8,4) / 2) # Fail
})
test_that("makeIdxMatrix() n = 5", {
grp1 <- paste0("A", 1:5)
grp2 <- paste0("B", 1:5)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(10,5))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(10,5) / 2)
})
test_that("makeIdxMatrix() n = 6", {
grp1 <- paste0("A", 1:6)
grp2 <- paste0("B", 1:6)
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = FALSE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(res[2,], grp2)
expect_equal(nrow(res), choose(12,6))
res <- bsseq:::makeIdxMatrix(
grp1,
grp2,
testIsSymmetric = TRUE,
includeUnbalanced = TRUE)[[1]]
expect_equal(anyDuplicated(res), 0)
expect_equal(res[1,], grp1)
expect_equal(nrow(res), choose(12,6) / 2)
})
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.