Nothing
tests/testthat/test_calculations.R
In countsimQC: Compare Characteristic Features of Count Data Sets
library(countsimQC)
context("Check individual functions")
local({
data(countsimExample)
x <- lapply(countsimExample, function(w) w[1:50, ])
set.seed(1)
xsub <- calculateDispersionsddsList(x, maxNForDisp = 4)
x <- calculateDispersionsddsList(x, maxNForDisp = Inf)
test_that("Dimensions are correct", {
expect_equivalent(unlist(lapply(x, function(w) c(nrow(w$dge), nrow(w$dds)))),
rep(50, 6))
expect_equivalent(unlist(lapply(x, function(w) c(ncol(w$dge), ncol(w$dds)))),
rep(11, 6))
expect_equivalent(unlist(lapply(xsub, function(w) c(nrow(w$dge), nrow(w$dds)))),
rep(50, 6))
expect_equivalent(unlist(lapply(xsub, function(w) c(ncol(w$dge), ncol(w$dds)))),
rep(11, 6))
})
## Sample correlations
## With calculateSampleCorrs
set.seed(1)
sample_corrs <- calculateSampleCorrs(x, maxNForCorr = 3)
## Manually
set.seed(1)
cpms <- edgeR::cpm(x$Original$dge, prior.count = 2, log = TRUE)
samples_to_keep <- sample(seq_len(ncol(cpms)), 3, replace = FALSE)
test_that("Sample correlations are correct", {
expect_equal(subset(sample_corrs, dataset == "Original")$Correlation[1],
stats::cor(cpms[, samples_to_keep[1]], cpms[, samples_to_keep[2]],
method = "spearman", use = "pairwise.complete.obs"))
expect_equal(subset(sample_corrs, dataset == "Original")$Correlation[2],
stats::cor(cpms[, samples_to_keep[1]], cpms[, samples_to_keep[3]],
method = "spearman", use = "pairwise.complete.obs"))
})
## Feature correlations
## With calculateFeatureCorrs
set.seed(1)
feature_corrs <- calculateFeatureCorrs(x, maxNForCorr = 3)
## Manually
set.seed(1)
cpms <- edgeR::cpm(x$Original$dge, prior.count = 2, log = TRUE)
cpms <- cpms[genefilter::rowVars(cpms) > 0, ]
features_to_keep <- sample(seq_len(nrow(cpms)), 3, replace = FALSE)
test_that("Feature correlations are correct", {
expect_equal(subset(feature_corrs, dataset == "Original")$Correlation[1],
stats::cor(cpms[features_to_keep[1], ], cpms[features_to_keep[2], ],
method = "spearman", use = "pairwise.complete.obs"))
expect_equal(subset(feature_corrs, dataset == "Original")$Correlation[2],
stats::cor(cpms[features_to_keep[1], ], cpms[features_to_keep[3], ],
method = "spearman", use = "pairwise.complete.obs"))
})
## Stats
sampleDF <- lapply(x, function(w) {
data.frame(
Libsize = colSums(w$dge$counts),
Fraczero = colMeans(w$dge$counts == 0),
TMM = w$dge$samples$norm.factors
) %>% dplyr::mutate(EffLibsize = Libsize * TMM)
})
ns <- sapply(sampleDF, nrow)
sampleDF <- do.call(rbind, sampleDF) %>%
dplyr::mutate(dataset = rep(names(sampleDF), ns))
test_that("Summary stats are correct", {
expect_equal(subset(sampleDF, dataset == "Sim1")$Fraczero[1],
mean(x$Sim1$dge$counts[, 1] == 0))
expect_equal(subset(sampleDF, dataset == "Sim2")$Libsize[1],
sum(x$Sim2$dge$counts[, 1]))
expect_equivalent(subset(sampleDF, dataset == "Sim2")$TMM[1],
edgeR::calcNormFactors(x$Sim2$dge$counts)[1])
expect_equivalent(subset(sampleDF, dataset == "Sim2")$EffLibsize[1],
edgeR::calcNormFactors(x$Sim2$dge$counts)[1] *
sum(x$Sim2$dge$counts[, 1]))
})
statDF <- makeDF(df = sampleDF, column = "TMM",
permutationPvalues = FALSE, nPermutations = 0,
subsampleSize = 11, kmin = 3, kfrac = 0.1)$x$data
test_that("Derived stats are correct", {
expect_equivalent(signif(stats::ks.test(sampleDF$TMM[sampleDF$dataset == "Original"],
sampleDF$TMM[sampleDF$dataset == "Sim1"])$stat, 3),
statDF$`K-S statistic`[statDF$dataset1 == "Original" & statDF$dataset2 == "Sim1"])
expect_equivalent(signif(stats::ks.test(sampleDF$TMM[sampleDF$dataset == "Original"],
sampleDF$TMM[sampleDF$dataset == "Sim1"])$p.value, 3),
statDF$`K-S p-value`[statDF$dataset1 == "Original" & statDF$dataset2 == "Sim1"])
})
expect_equal(length(countsimQC:::defaultStats(n = 1, withP = FALSE)), 8L)
expect_equal(length(countsimQC:::defaultStats(n = 1, withP = TRUE)), 12L)
expect_equal(length(countsimQC:::defaultStats(n = 2, withP = FALSE)), 3L)
expect_equal(length(countsimQC:::defaultStats(n = 2, withP = TRUE)), 6L)
dtd <- countsimQC:::defineTableDesc(
calculateStatistics = TRUE, subsampleSize = 5, kfrac = 0.25, kmin = 4,
obstype = "sample", aspect = "aspect", minvalue = 0, maxvalue = 1,
permutationPvalues = TRUE, nPermutations = 10, nDatasets = 3)
expect_is(dtd, "list")
expect_length(dtd, 2)
expect_named(dtd, c("tabledesc", "tabledesc2d"), ignore.order = TRUE)
dtd <- countsimQC:::defineTableDesc(
calculateStatistics = TRUE, subsampleSize = 5, kfrac = 0.25, kmin = 4,
obstype = "sample", aspect = "aspect", minvalue = 0, maxvalue = 1,
permutationPvalues = TRUE, nPermutations = 10, nDatasets = 1)
expect_is(dtd, "list")
expect_length(dtd, 2)
expect_named(dtd, c("tabledesc", "tabledesc2d"), ignore.order = TRUE)
expect_equal(dtd[[1]],
"No statistics were calculated, since there is only one data set.")
})
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countsimQC documentation built on Feb. 5, 2021, 2:02 a.m.
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library(countsimQC)
context("Check individual functions")
local({
data(countsimExample)
x <- lapply(countsimExample, function(w) w[1:50, ])
set.seed(1)
xsub <- calculateDispersionsddsList(x, maxNForDisp = 4)
x <- calculateDispersionsddsList(x, maxNForDisp = Inf)
test_that("Dimensions are correct", {
expect_equivalent(unlist(lapply(x, function(w) c(nrow(w$dge), nrow(w$dds)))),
rep(50, 6))
expect_equivalent(unlist(lapply(x, function(w) c(ncol(w$dge), ncol(w$dds)))),
rep(11, 6))
expect_equivalent(unlist(lapply(xsub, function(w) c(nrow(w$dge), nrow(w$dds)))),
rep(50, 6))
expect_equivalent(unlist(lapply(xsub, function(w) c(ncol(w$dge), ncol(w$dds)))),
rep(11, 6))
})
## Sample correlations
## With calculateSampleCorrs
set.seed(1)
sample_corrs <- calculateSampleCorrs(x, maxNForCorr = 3)
## Manually
set.seed(1)
cpms <- edgeR::cpm(x$Original$dge, prior.count = 2, log = TRUE)
samples_to_keep <- sample(seq_len(ncol(cpms)), 3, replace = FALSE)
test_that("Sample correlations are correct", {
expect_equal(subset(sample_corrs, dataset == "Original")$Correlation[1],
stats::cor(cpms[, samples_to_keep[1]], cpms[, samples_to_keep[2]],
method = "spearman", use = "pairwise.complete.obs"))
expect_equal(subset(sample_corrs, dataset == "Original")$Correlation[2],
stats::cor(cpms[, samples_to_keep[1]], cpms[, samples_to_keep[3]],
method = "spearman", use = "pairwise.complete.obs"))
})
## Feature correlations
## With calculateFeatureCorrs
set.seed(1)
feature_corrs <- calculateFeatureCorrs(x, maxNForCorr = 3)
## Manually
set.seed(1)
cpms <- edgeR::cpm(x$Original$dge, prior.count = 2, log = TRUE)
cpms <- cpms[genefilter::rowVars(cpms) > 0, ]
features_to_keep <- sample(seq_len(nrow(cpms)), 3, replace = FALSE)
test_that("Feature correlations are correct", {
expect_equal(subset(feature_corrs, dataset == "Original")$Correlation[1],
stats::cor(cpms[features_to_keep[1], ], cpms[features_to_keep[2], ],
method = "spearman", use = "pairwise.complete.obs"))
expect_equal(subset(feature_corrs, dataset == "Original")$Correlation[2],
stats::cor(cpms[features_to_keep[1], ], cpms[features_to_keep[3], ],
method = "spearman", use = "pairwise.complete.obs"))
})
## Stats
sampleDF <- lapply(x, function(w) {
data.frame(
Libsize = colSums(w$dge$counts),
Fraczero = colMeans(w$dge$counts == 0),
TMM = w$dge$samples$norm.factors
) %>% dplyr::mutate(EffLibsize = Libsize * TMM)
})
ns <- sapply(sampleDF, nrow)
sampleDF <- do.call(rbind, sampleDF) %>%
dplyr::mutate(dataset = rep(names(sampleDF), ns))
test_that("Summary stats are correct", {
expect_equal(subset(sampleDF, dataset == "Sim1")$Fraczero[1],
mean(x$Sim1$dge$counts[, 1] == 0))
expect_equal(subset(sampleDF, dataset == "Sim2")$Libsize[1],
sum(x$Sim2$dge$counts[, 1]))
expect_equivalent(subset(sampleDF, dataset == "Sim2")$TMM[1],
edgeR::calcNormFactors(x$Sim2$dge$counts)[1])
expect_equivalent(subset(sampleDF, dataset == "Sim2")$EffLibsize[1],
edgeR::calcNormFactors(x$Sim2$dge$counts)[1] *
sum(x$Sim2$dge$counts[, 1]))
})
statDF <- makeDF(df = sampleDF, column = "TMM",
permutationPvalues = FALSE, nPermutations = 0,
subsampleSize = 11, kmin = 3, kfrac = 0.1)$x$data
test_that("Derived stats are correct", {
expect_equivalent(signif(stats::ks.test(sampleDF$TMM[sampleDF$dataset == "Original"],
sampleDF$TMM[sampleDF$dataset == "Sim1"])$stat, 3),
statDF$`K-S statistic`[statDF$dataset1 == "Original" & statDF$dataset2 == "Sim1"])
expect_equivalent(signif(stats::ks.test(sampleDF$TMM[sampleDF$dataset == "Original"],
sampleDF$TMM[sampleDF$dataset == "Sim1"])$p.value, 3),
statDF$`K-S p-value`[statDF$dataset1 == "Original" & statDF$dataset2 == "Sim1"])
})
expect_equal(length(countsimQC:::defaultStats(n = 1, withP = FALSE)), 8L)
expect_equal(length(countsimQC:::defaultStats(n = 1, withP = TRUE)), 12L)
expect_equal(length(countsimQC:::defaultStats(n = 2, withP = FALSE)), 3L)
expect_equal(length(countsimQC:::defaultStats(n = 2, withP = TRUE)), 6L)
dtd <- countsimQC:::defineTableDesc(
calculateStatistics = TRUE, subsampleSize = 5, kfrac = 0.25, kmin = 4,
obstype = "sample", aspect = "aspect", minvalue = 0, maxvalue = 1,
permutationPvalues = TRUE, nPermutations = 10, nDatasets = 3)
expect_is(dtd, "list")
expect_length(dtd, 2)
expect_named(dtd, c("tabledesc", "tabledesc2d"), ignore.order = TRUE)
dtd <- countsimQC:::defineTableDesc(
calculateStatistics = TRUE, subsampleSize = 5, kfrac = 0.25, kmin = 4,
obstype = "sample", aspect = "aspect", minvalue = 0, maxvalue = 1,
permutationPvalues = TRUE, nPermutations = 10, nDatasets = 1)
expect_is(dtd, "list")
expect_length(dtd, 2)
expect_named(dtd, c("tabledesc", "tabledesc2d"), ignore.order = TRUE)
expect_equal(dtd[[1]],
"No statistics were calculated, since there is only one data set.")
})
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Any scripts or data that you put into this service are public.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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