tests/testthat/test_merging_subsampling_GRanges.R
In mdeber/BRGenomics: Tools for the Efficient Analysis of High-Resolution Genomics Data
# Merging GRanges ---------------------------------------------------------
context("Merging GRanges data")
library(BRGenomics)
data("PROseq")
ps_breaks <- seq(1, length(PROseq), floor(0.25*length(PROseq)))
PROseq$quartile <- findInterval(seq_along(PROseq),
ps_breaks,
rightmost.closed = TRUE)
test_that("Merging is non-destructive", {
expect_identical(subset(PROseq, select = score),
suppressWarnings(mergeGRangesData(PROseq, ncores = 1)))
expect_identical(subset(PROseq, select = score),
mergeGRangesData(subset(PROseq, quartile == 1),
subset(PROseq, quartile == 2),
subset(PROseq, quartile == 3),
subset(PROseq, quartile == 4),
ncores = 1))
})
ps_10ranges <- PROseq[seq(1, 100, 10)] # ensure disjoint when resized below
test_that("Merging sums signals in overlaps", {
merge_10ranges <- mergeGRangesData(PROseq, ps_10ranges, ncores = 1)
expect_equal(length(PROseq), length(merge_10ranges))
overlap_scores_combined <- score(merge_10ranges)[seq(1, 100, 10)]
overlap_scores_original <- score(PROseq)[seq(1, 100, 10)]
expect_equivalent(overlap_scores_combined, 2*overlap_scores_original)
expect_equal(sum(score(merge_10ranges)),
sum(score(PROseq), overlap_scores_original))
})
test_that("Merging concatenates non-overlapping ranges", {
merge_nonoverlap <- mergeGRangesData(ps_10ranges, shift(ps_10ranges, 1),
ncores = 1)
expect_equal(length(merge_nonoverlap), 2*length(ps_10ranges))
# %in% operator fails depending on environment?
# expect_true(all( merge_nonoverlap %in%
# c(ps_10ranges, shift(ps_10ranges, 1)) ))
})
gr1 <- PROseq[10:13]
gr2 <- PROseq[12:15]
gr_multi <- mergeGRangesData(gr1, gr2, multiplex = TRUE, ncores = 1)
test_that("Multiplexed merging works with input GRanges", {
expect_equivalent(names(mcols(gr_multi)), c("gr1", "gr2"))
expect_equivalent(sapply(mcols(gr_multi), sum),
c(sum(gr1$score), sum(gr2$score)))
expect_equivalent(subset(gr_multi, gr1 > 0, select = gr1)$gr1,
gr1$score)
})
test_that("Multiplexed merging works with listed input", {
expect_equivalent(gr_multi, mergeGRangesData(list(gr1 = gr1, gr2 = gr2),
multiplex = TRUE, ncores = 1))
expect_equivalent(gr_multi, mergeGRangesData(list(gr1 = gr1),
list(gr2 = gr2),
multiplex = TRUE, ncores = 1))
})
test_that("Multiplexing non-single-width GRanges produces warning", {
expect_warning(mergeGRangesData(PROseq, resize(ps_10ranges, 2),
multiplex = TRUE, ncores = 1))
})
test_that("one or more alternate field names", {
# if all the same, keep the name
ls_rename <- Map(function(gr, nm) {
mcols(gr) <- setNames(mcols(gr)[1], nm)
gr
}, list(gr1, gr2), "signal")
out_rename <- mergeGRangesData(ls_rename, field = "signal", ncores = 1)
expect_equal(names(mcols(out_rename)), "signal")
# if multiple, use "score"
ls_2names <- Map(function(gr, nm) {
mcols(gr) <- setNames(mcols(gr)[1], nm)
gr
}, list(gr1, gr2), c("gr1", "gr2"))
out_2names <- mergeGRangesData(ls_2names, field = c("gr1", "gr2"),
ncores = 1)
expect_equal(names(mcols(out_2names)), "score")
expect_identical(ranges(out_rename), ranges(out_2names))
})
# Merging Exact -----------------------------------------------------------
context("Merging exact ranges")
data("PROseq_paired")
plist <- list(A = PROseq_paired,
B = head(PROseq_paired, 5),
C = tail(PROseq_paired, 5))
test_that("Merging exact ranges works", {
mrg_exact <- mergeGRangesData(plist, makeBRG = FALSE, exact_overlaps = TRUE,
ncores = 1)
expect_identical(ranges(mrg_exact), ranges(PROseq_paired))
idx_overlap <- c(1:5, length(PROseq_paired) - (0:4))
expect_identical(score(mrg_exact[-idx_overlap]),
score(PROseq_paired[-idx_overlap]))
expect_equivalent(score(mrg_exact)[idx_overlap],
score(PROseq_paired)[idx_overlap] * 2)
})
test_that("partial overlaps not merged", {
partial_o <- list(PROseq_paired, shift(PROseq_paired, 3))
mrg_po <- mergeGRangesData(partial_o, exact_overlaps = TRUE)
c_po <- c(PROseq_paired, shift(PROseq_paired, 3))
expect_equal(sum(score(mrg_po)),
sum(score(c_po)))
expect_equal(length(mrg_po), length(unique(c_po)))
expect_true(length(mrg_po) < length(c_po))
})
test_that("makeBRG will not occur after exact ranges merge", {
mrg_exact_brg <- mergeGRangesData(plist, makeBRG = TRUE,
exact_overlaps = TRUE, ncores = 1)
expect_true(!isBRG(mrg_exact_brg))
})
# Merge Replicates Function -----------------------------------------------
ps_list <- list(A_rep1 = PROseq[seq(1, length(PROseq), 6)],
A_rep2 = PROseq[seq(4, length(PROseq), 6)],
B_rep1 = PROseq[seq(2, length(PROseq), 6)],
B_rep2 = PROseq[seq(5, length(PROseq), 6)],
C_rep1 = PROseq[seq(3, length(PROseq), 6)],
C_rep2 = PROseq[seq(6, length(PROseq), 6)])
context("merging replicates")
mrg_rep <- mergeReplicates(ps_list, ncores = 1)
test_that("valid replicates merged", {
expect_is(mrg_rep, "list")
expect_identical(names(mrg_rep), c("A", "B", "C"))
expect_identical(sum(score(mrg_rep[[1]])),
sum(score(ps_list[[1]]) + score(ps_list[[2]])))
})
test_that("rename option applied", {
new_names <- setNames(sapply(names(ps_list), tolower), NULL)
mrg_rep_rename <- mergeReplicates(ps_list, sample_names = new_names,
ncores = 1)
expect_identical(names(mrg_rep_rename), c("a", "b", "c"))
# with no named input
expect_identical(mrg_rep_rename,
mergeReplicates(setNames(ps_list, NULL),
sample_names = new_names, ncores = 1))
})
test_that("error for invalid names", {
new_names <- sub("rep", "not", names(ps_list))
expect_error(mergeReplicates(ps_list, sample_names = new_names,
ncores = 1))
})
# Sampling GRanges --------------------------------------------------------
context("Random subsampling GRanges data")
set.seed(11)
ps_tenth <- subsampleGRanges(PROseq, prop = 0.1)
test_that("Subsampling produces GRanges", {
expect_is(ps_tenth, "GRanges")
})
test_that("Subsampling gives correct signal count", {
expect_equal(round(0.1*sum(score(PROseq))), sum(score(ps_tenth)))
})
test_that("Subsamplied reproduced using set.seed", {
expect_equal(length(ps_tenth), 6330)
})
test_that("can subsample with field = NULL", {
reads <- rep(PROseq, times = PROseq$score)
score(reads) <- NULL
reads_tenth <- subsampleGRanges(reads, prop = 0.1, field = NULL)
expect_is(reads_tenth, "GRanges")
expect_equivalent(mcols(reads), mcols(reads_tenth))
expect_equal(length(reads_tenth), floor(0.1*length(reads)))
expect_error(subsampleGRanges(reads, prop = 0.1))
})
test_that("can subsample multiplexed GRanges", {
ssmulti <- subsampleGRanges(gr_multi, prop = 0.1, field = c("gr1", "gr2"),
ncores = 1)
expect_is(ssmulti, "GRanges")
expect_equivalent(names(mcols(ssmulti)), c("gr1", "gr2"))
expect_equal(sum(ssmulti$gr1), round(0.1*sum(gr_multi$gr1)))
expect_equal(sum(ssmulti$gr2), round(0.1*sum(gr_multi$gr2)))
})
test_that("can subsample when simple normalization factor was applied", {
norm_ps <- PROseq
score(norm_ps) <- 0.89 * score(norm_ps)
expect_warning(subsampleGRanges(norm_ps, prop = 0.1))
set.seed(11)
norm_tenth <- suppressWarnings(subsampleGRanges(norm_ps, prop = 0.1))
signal_ps_tenth <- sum(score(ps_tenth))
signal_norm_tenth <- sum(score(norm_tenth))
expect_true(abs(0.89*signal_ps_tenth - signal_norm_tenth) < 1)
})
test_that("error when incorrect input arguments", {
expect_error(subsampleGRanges(PROseq))
expect_error(subsampleGRanges(PROseq, prop = 0.1, n = 7415))
})
test_that("error when non-simple normalization", {
breakpoint <- floor(0.5*length(PROseq))
norm_1 <- PROseq[1:breakpoint]
norm_2 <- PROseq[(breakpoint+1):length(PROseq)]
score(norm_1) <- 0.75*norm_1$score
score(norm_2) <- 0.50*norm_2$score
norm_mix <- c(norm_1, norm_2)
expect_error(subsampleGRanges(norm_mix, prop = 0.1))
})
test_that("sampling with expand ranges", {
pscov <- getStrandedCoverage(PROseq, ncores = 1)
ps_tenth_exp <- subsampleGRanges(pscov, prop = 0.1, expand_ranges = TRUE,
ncores = 1)
expect_equal(sum(score(ps_tenth)),
sum(score(ps_tenth_exp) * width(ps_tenth_exp)))
})
mdeber/BRGenomics documentation built on March 4, 2024, 9:46 a.m.
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# Merging GRanges ---------------------------------------------------------
context("Merging GRanges data")
library(BRGenomics)
data("PROseq")
ps_breaks <- seq(1, length(PROseq), floor(0.25*length(PROseq)))
PROseq$quartile <- findInterval(seq_along(PROseq),
ps_breaks,
rightmost.closed = TRUE)
test_that("Merging is non-destructive", {
expect_identical(subset(PROseq, select = score),
suppressWarnings(mergeGRangesData(PROseq, ncores = 1)))
expect_identical(subset(PROseq, select = score),
mergeGRangesData(subset(PROseq, quartile == 1),
subset(PROseq, quartile == 2),
subset(PROseq, quartile == 3),
subset(PROseq, quartile == 4),
ncores = 1))
})
ps_10ranges <- PROseq[seq(1, 100, 10)] # ensure disjoint when resized below
test_that("Merging sums signals in overlaps", {
merge_10ranges <- mergeGRangesData(PROseq, ps_10ranges, ncores = 1)
expect_equal(length(PROseq), length(merge_10ranges))
overlap_scores_combined <- score(merge_10ranges)[seq(1, 100, 10)]
overlap_scores_original <- score(PROseq)[seq(1, 100, 10)]
expect_equivalent(overlap_scores_combined, 2*overlap_scores_original)
expect_equal(sum(score(merge_10ranges)),
sum(score(PROseq), overlap_scores_original))
})
test_that("Merging concatenates non-overlapping ranges", {
merge_nonoverlap <- mergeGRangesData(ps_10ranges, shift(ps_10ranges, 1),
ncores = 1)
expect_equal(length(merge_nonoverlap), 2*length(ps_10ranges))
# %in% operator fails depending on environment?
# expect_true(all( merge_nonoverlap %in%
# c(ps_10ranges, shift(ps_10ranges, 1)) ))
})
gr1 <- PROseq[10:13]
gr2 <- PROseq[12:15]
gr_multi <- mergeGRangesData(gr1, gr2, multiplex = TRUE, ncores = 1)
test_that("Multiplexed merging works with input GRanges", {
expect_equivalent(names(mcols(gr_multi)), c("gr1", "gr2"))
expect_equivalent(sapply(mcols(gr_multi), sum),
c(sum(gr1$score), sum(gr2$score)))
expect_equivalent(subset(gr_multi, gr1 > 0, select = gr1)$gr1,
gr1$score)
})
test_that("Multiplexed merging works with listed input", {
expect_equivalent(gr_multi, mergeGRangesData(list(gr1 = gr1, gr2 = gr2),
multiplex = TRUE, ncores = 1))
expect_equivalent(gr_multi, mergeGRangesData(list(gr1 = gr1),
list(gr2 = gr2),
multiplex = TRUE, ncores = 1))
})
test_that("Multiplexing non-single-width GRanges produces warning", {
expect_warning(mergeGRangesData(PROseq, resize(ps_10ranges, 2),
multiplex = TRUE, ncores = 1))
})
test_that("one or more alternate field names", {
# if all the same, keep the name
ls_rename <- Map(function(gr, nm) {
mcols(gr) <- setNames(mcols(gr)[1], nm)
gr
}, list(gr1, gr2), "signal")
out_rename <- mergeGRangesData(ls_rename, field = "signal", ncores = 1)
expect_equal(names(mcols(out_rename)), "signal")
# if multiple, use "score"
ls_2names <- Map(function(gr, nm) {
mcols(gr) <- setNames(mcols(gr)[1], nm)
gr
}, list(gr1, gr2), c("gr1", "gr2"))
out_2names <- mergeGRangesData(ls_2names, field = c("gr1", "gr2"),
ncores = 1)
expect_equal(names(mcols(out_2names)), "score")
expect_identical(ranges(out_rename), ranges(out_2names))
})
# Merging Exact -----------------------------------------------------------
context("Merging exact ranges")
data("PROseq_paired")
plist <- list(A = PROseq_paired,
B = head(PROseq_paired, 5),
C = tail(PROseq_paired, 5))
test_that("Merging exact ranges works", {
mrg_exact <- mergeGRangesData(plist, makeBRG = FALSE, exact_overlaps = TRUE,
ncores = 1)
expect_identical(ranges(mrg_exact), ranges(PROseq_paired))
idx_overlap <- c(1:5, length(PROseq_paired) - (0:4))
expect_identical(score(mrg_exact[-idx_overlap]),
score(PROseq_paired[-idx_overlap]))
expect_equivalent(score(mrg_exact)[idx_overlap],
score(PROseq_paired)[idx_overlap] * 2)
})
test_that("partial overlaps not merged", {
partial_o <- list(PROseq_paired, shift(PROseq_paired, 3))
mrg_po <- mergeGRangesData(partial_o, exact_overlaps = TRUE)
c_po <- c(PROseq_paired, shift(PROseq_paired, 3))
expect_equal(sum(score(mrg_po)),
sum(score(c_po)))
expect_equal(length(mrg_po), length(unique(c_po)))
expect_true(length(mrg_po) < length(c_po))
})
test_that("makeBRG will not occur after exact ranges merge", {
mrg_exact_brg <- mergeGRangesData(plist, makeBRG = TRUE,
exact_overlaps = TRUE, ncores = 1)
expect_true(!isBRG(mrg_exact_brg))
})
# Merge Replicates Function -----------------------------------------------
ps_list <- list(A_rep1 = PROseq[seq(1, length(PROseq), 6)],
A_rep2 = PROseq[seq(4, length(PROseq), 6)],
B_rep1 = PROseq[seq(2, length(PROseq), 6)],
B_rep2 = PROseq[seq(5, length(PROseq), 6)],
C_rep1 = PROseq[seq(3, length(PROseq), 6)],
C_rep2 = PROseq[seq(6, length(PROseq), 6)])
context("merging replicates")
mrg_rep <- mergeReplicates(ps_list, ncores = 1)
test_that("valid replicates merged", {
expect_is(mrg_rep, "list")
expect_identical(names(mrg_rep), c("A", "B", "C"))
expect_identical(sum(score(mrg_rep[[1]])),
sum(score(ps_list[[1]]) + score(ps_list[[2]])))
})
test_that("rename option applied", {
new_names <- setNames(sapply(names(ps_list), tolower), NULL)
mrg_rep_rename <- mergeReplicates(ps_list, sample_names = new_names,
ncores = 1)
expect_identical(names(mrg_rep_rename), c("a", "b", "c"))
# with no named input
expect_identical(mrg_rep_rename,
mergeReplicates(setNames(ps_list, NULL),
sample_names = new_names, ncores = 1))
})
test_that("error for invalid names", {
new_names <- sub("rep", "not", names(ps_list))
expect_error(mergeReplicates(ps_list, sample_names = new_names,
ncores = 1))
})
# Sampling GRanges --------------------------------------------------------
context("Random subsampling GRanges data")
set.seed(11)
ps_tenth <- subsampleGRanges(PROseq, prop = 0.1)
test_that("Subsampling produces GRanges", {
expect_is(ps_tenth, "GRanges")
})
test_that("Subsampling gives correct signal count", {
expect_equal(round(0.1*sum(score(PROseq))), sum(score(ps_tenth)))
})
test_that("Subsamplied reproduced using set.seed", {
expect_equal(length(ps_tenth), 6330)
})
test_that("can subsample with field = NULL", {
reads <- rep(PROseq, times = PROseq$score)
score(reads) <- NULL
reads_tenth <- subsampleGRanges(reads, prop = 0.1, field = NULL)
expect_is(reads_tenth, "GRanges")
expect_equivalent(mcols(reads), mcols(reads_tenth))
expect_equal(length(reads_tenth), floor(0.1*length(reads)))
expect_error(subsampleGRanges(reads, prop = 0.1))
})
test_that("can subsample multiplexed GRanges", {
ssmulti <- subsampleGRanges(gr_multi, prop = 0.1, field = c("gr1", "gr2"),
ncores = 1)
expect_is(ssmulti, "GRanges")
expect_equivalent(names(mcols(ssmulti)), c("gr1", "gr2"))
expect_equal(sum(ssmulti$gr1), round(0.1*sum(gr_multi$gr1)))
expect_equal(sum(ssmulti$gr2), round(0.1*sum(gr_multi$gr2)))
})
test_that("can subsample when simple normalization factor was applied", {
norm_ps <- PROseq
score(norm_ps) <- 0.89 * score(norm_ps)
expect_warning(subsampleGRanges(norm_ps, prop = 0.1))
set.seed(11)
norm_tenth <- suppressWarnings(subsampleGRanges(norm_ps, prop = 0.1))
signal_ps_tenth <- sum(score(ps_tenth))
signal_norm_tenth <- sum(score(norm_tenth))
expect_true(abs(0.89*signal_ps_tenth - signal_norm_tenth) < 1)
})
test_that("error when incorrect input arguments", {
expect_error(subsampleGRanges(PROseq))
expect_error(subsampleGRanges(PROseq, prop = 0.1, n = 7415))
})
test_that("error when non-simple normalization", {
breakpoint <- floor(0.5*length(PROseq))
norm_1 <- PROseq[1:breakpoint]
norm_2 <- PROseq[(breakpoint+1):length(PROseq)]
score(norm_1) <- 0.75*norm_1$score
score(norm_2) <- 0.50*norm_2$score
norm_mix <- c(norm_1, norm_2)
expect_error(subsampleGRanges(norm_mix, prop = 0.1))
})
test_that("sampling with expand ranges", {
pscov <- getStrandedCoverage(PROseq, ncores = 1)
ps_tenth_exp <- subsampleGRanges(pscov, prop = 0.1, expand_ranges = TRUE,
ncores = 1)
expect_equal(sum(score(ps_tenth)),
sum(score(ps_tenth_exp) * width(ps_tenth_exp)))
})
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