Nothing
tests/testthat/test-net_and_modules.R
In GWENA: Pipeline for augmented co-expression analysis
library(dplyr)
arg_cor_func <- c("pearson", "spearman", "bicor")
arg_network_type = c("unsigned", "signed", "signed hybrid")
fake_mat <- runif(n = 10*45, max = 100) %>% matrix(ncol = 45)
fake_cor_mat <- cor(fake_mat)
# ==== .cor_func_match ====
test_that("badly formatted cor_func throw an error", {
# cor_func should be one of the string allowed to design the correlation function
lapply(arg_cor_func, function(arg){
expect_error(.cor_func_match(cor_func = arg), NA)
expect_error(.cor_func_match(cor_func = 42))
expect_error(.cor_func_match(cor_func = "this is not a function available"))
})
})
test_that("output format is ok", {
# Return a data.frame
lapply(arg_cor_func, function(arg) {
expect_true(is.function(.cor_func_match(cor_func = arg)))
})
})
# ==== .check_data_expr ====
test_that("Rightly formated data_expr throw no error", {
expect_error(.check_data_expr(data_expr = df_expr$df_microarray), NA)
expect_error(.check_data_expr(data_expr = df_expr$df_microarray %>% as.matrix), NA)
})
test_that("data_expr should be either a matrix or data frame", {
expect_error(.check_data_expr(data_expr = 42))
expect_error(.check_data_expr(data_expr = 1:42))
expect_error(.check_data_expr(data_expr = "this is not a data.frame nor a matrix"))
expect_error(.check_data_expr(data_expr = list("this is not a data.frame nor a matrix", "this shouldn't work")))
})
# HF_remove_limit_neg_value_build_net : removing negative value prohibition
# test_that("data_expr should have values >= 0", {
# expect_error(.check_data_expr(data_expr = cbind(df_expr$df_rnaseq, -10:(nrow(df_expr$df_rnaseq) - 11))))
# })
test_that("data_expr should have genes as columns and samples as rows", {
expect_warning(.check_data_expr(data_expr = df_expr$df_microarray %>% t))
})
# ==== get_fit.cor ====
test_that("cor_mat should be a matrix of correlations", {
# Type is matrix
expect_error(get_fit.cor(cor_mat = 42))
expect_error(get_fit.cor(cor_mat = "this is not a correlation matrix"))
expect_error(get_fit.cor(cor_mat = fake_cor_mat %>% as.data.frame()))
# Is a squared matrix
expect_error(get_fit.cor(cor_mat = fake_cor_mat[, -1]))
# Values in [0;1]
expect_error(get_fit.cor(cor_mat = cbind(fake_cor_mat[, -1], 1:nrow(fake_cor_mat))))
# Contains no NA (need to be checked with a symetric matrix)
fake_cor_mat_na <- fake_cor_mat
fake_cor_mat_na[c(2,4), c(2,4)] <- NA
expect_warning(get_fit.cor(cor_mat = fake_cor_mat_na))
})
test_that("fit_cut_off should be a number in ]0;1[", {
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = -1))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = 42))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = c(0.1, 0.5, 0.9)))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = "this is not a numeric value"))
})
test_that("network_type should be one of the string allowed to design the correlation function", {
lapply(arg_network_type, function(arg){
# expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = arg), NA)
expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = 42))
expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = "this is not a network available"))
})
})
test_that("output format is ok", {
# Return a list with expected elements formated correctly
res <- get_fit.cor(cor_mat = cor(df_expr$df_microarray))
expect_true(is.list(res))
expect_true(all(names(res) == c("power_value", "fit_table", "fit_above_cut_off", "metadata")))
expect_true(all(names(res$metadata) == c("network_type")))
expect_true(is.numeric(res$power_value) & length(res$power_value) == 1)
expect_true(
is.data.frame(res$fit_table) &
length(setdiff(colnames(res$fit_table), c("Power", "SFT.R.sq", "slope", "truncated.R.sq",
"mean.k.", "median.k.", "max.k."))) == 0)
})
# ==== get_fit.expr ====
test_that("good input return no error", {
expect_error(get_fit.expr(df_expr$df_microarray), NA)
expect_error(get_fit.expr(data_expr = df_expr$df_microarray %>% as.matrix), NA)
expect_error(get_fit.expr(se), NA)
})
# HF_remove_limit_neg_value_build_net : removing negative value prohibition
# test_that("data_expr should be a data.frame or a matrix of values >= 0", {
# expect_error(get_fit.expr(data_expr = cbind(df_expr$df_rnaseq, -10:(nrow(df_expr$df_rnaseq) - 11))))
# })
test_that("data_expr should be either a matrix or data frame of intensities or counts", {
expect_error(get_fit.expr(data_expr = "this is not a data.frame nor a matrix"))
expect_error(get_fit.expr(data_expr = list("this is not a data.frame nor a matrix", "this shouldn't work")))
expect_warning(get_fit.expr(data_expr = df_expr$df_microarray %>% t))
})
test_that("your_func is checked to returns correlation values ([-1;1])", {
fake_bad_func <- function(df) { matrix(sample(-10:10, nrow(df)*ncol(df), replace = TRUE), ncol = ncol(df)) }
lapply(df_expr, function(df) {
expect_error(get_fit.expr(data_expr = df, cor_func = "other", your_func = fake_bad_func))
})
})
test_that("output format is ok", {
res <- get_fit.expr(data_expr = df_expr$df_microarray)
expect_true(is.list(res))
expect_true(all(names(res) == c("power_value", "fit_table", "fit_above_cut_off", "metadata")))
expect_true(all(names(res$metadata) == c("network_type", "cor_func")))
expect_true(is.numeric(res$power_value) & length(res$power_value) == 1)
expect_true(
is.data.frame(res$fit_table) &
length(setdiff(colnames(res$fit_table), c("Power", "SFT.R.sq", "slope", "truncated.R.sq",
"mean.k.", "median.k.", "max.k."))) == 0)
})
# ==== build_net ====
test_that("good input return no error", {
expect_error(build_net(df_expr$df_microarray, n_threads = 1), NA)
expect_error(build_net(se, n_threads = 1), NA)
})
test_that("genes interactions strength is in [0;1]", {
expect_gte(min(res_net$network %>% c), 0)
expect_lte(max(res_net$network %>% c), 1)
})
test_that("output format is ok", {
expect_true(is.list(res_net))
expect_true(all(names(res_net) == c("network", "metadata")))
expect_true(all(names(res_net$metadata) == c("cor_func", "network_type", "tom_type", "power", "fit_power_table")))
})
# ==== detect_modules ====
test_that("good input return no error", {
expect_error(detect_modules(df_expr$df_microarray, res_net$network), NA)
expect_error(detect_modules(df_expr$df_microarray %>% as.matrix, res_net$network), NA)
expect_error(detect_modules(se, res_net$network), NA)
})
test_that("net is a matrix or data.frame", {
expect_error(detect_modules(df_expr$df_microarray, 42))
expect_error(detect_modules(df_expr$df_microarray, "this is not a data.frame or matrix"))
expect_error(detect_modules(df_expr$df_microarray, 1:42))
expect_error(detect_modules(df_expr$df_microarray, list("this is not a data.frame", "this is not a matrix")))
})
test_that("net should be squarred", {
expect_error(detect_modules(data_expr = df_expr$df_microarray, net = res_net$network[, -1]))
})
test_that("all colnames in rownames", {
expect_error(detect_modules(data_expr = df_expr$df_microarray, net = res_net$network[-1, -10]))
})
test_that("output format is ok (detailled_result = TRUE)", {
expect_true(all(names(res_detection) == c(
"modules", "modules_premerge", "modules_eigengenes", "dendrogram_genes",
"dendrogram_merged_modules")))
expect_true(is.list(res_detection$modules))
expect_true(is.list(res_detection$modules_premerge))
expect_true(is.vector(res_detection$modules %>% unlist, "character"))
expect_true(is.vector(res_detection$modules_premerge %>% unlist, "character"))
expect_true(is.data.frame(res_detection$modules_eigengenes) & ncol(res_detection$modules_eigengenes) == length(res_detection$modules))
expect_true(is(res_detection$dendrogram_genes, "hclust"))
expect_true(is(res_detection$dendrogram_merged_modules, "hclust"))
})
test_that("output format is ok (detailled_result = FALSE)", {
res_detection_not_detailled <- detect_modules(data_expr = df_expr$df_microarray, net = res_net$network, detailled_result = FALSE)
expect_true(all(names(res_detection_not_detailled) == c("modules", "modules_eigengenes")))
expect_true(is.list(res_detection_not_detailled$modules))
expect_true(is.vector(res_detection_not_detailled$modules %>% unlist, "character"))
expect_true(is.data.frame(res_detection_not_detailled$modules_eigengenes) &
ncol(res_detection_not_detailled$modules_eigengenes) == length(res_detection_not_detailled$modules))
})
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library(dplyr)
arg_cor_func <- c("pearson", "spearman", "bicor")
arg_network_type = c("unsigned", "signed", "signed hybrid")
fake_mat <- runif(n = 10*45, max = 100) %>% matrix(ncol = 45)
fake_cor_mat <- cor(fake_mat)
# ==== .cor_func_match ====
test_that("badly formatted cor_func throw an error", {
# cor_func should be one of the string allowed to design the correlation function
lapply(arg_cor_func, function(arg){
expect_error(.cor_func_match(cor_func = arg), NA)
expect_error(.cor_func_match(cor_func = 42))
expect_error(.cor_func_match(cor_func = "this is not a function available"))
})
})
test_that("output format is ok", {
# Return a data.frame
lapply(arg_cor_func, function(arg) {
expect_true(is.function(.cor_func_match(cor_func = arg)))
})
})
# ==== .check_data_expr ====
test_that("Rightly formated data_expr throw no error", {
expect_error(.check_data_expr(data_expr = df_expr$df_microarray), NA)
expect_error(.check_data_expr(data_expr = df_expr$df_microarray %>% as.matrix), NA)
})
test_that("data_expr should be either a matrix or data frame", {
expect_error(.check_data_expr(data_expr = 42))
expect_error(.check_data_expr(data_expr = 1:42))
expect_error(.check_data_expr(data_expr = "this is not a data.frame nor a matrix"))
expect_error(.check_data_expr(data_expr = list("this is not a data.frame nor a matrix", "this shouldn't work")))
})
# HF_remove_limit_neg_value_build_net : removing negative value prohibition
# test_that("data_expr should have values >= 0", {
# expect_error(.check_data_expr(data_expr = cbind(df_expr$df_rnaseq, -10:(nrow(df_expr$df_rnaseq) - 11))))
# })
test_that("data_expr should have genes as columns and samples as rows", {
expect_warning(.check_data_expr(data_expr = df_expr$df_microarray %>% t))
})
# ==== get_fit.cor ====
test_that("cor_mat should be a matrix of correlations", {
# Type is matrix
expect_error(get_fit.cor(cor_mat = 42))
expect_error(get_fit.cor(cor_mat = "this is not a correlation matrix"))
expect_error(get_fit.cor(cor_mat = fake_cor_mat %>% as.data.frame()))
# Is a squared matrix
expect_error(get_fit.cor(cor_mat = fake_cor_mat[, -1]))
# Values in [0;1]
expect_error(get_fit.cor(cor_mat = cbind(fake_cor_mat[, -1], 1:nrow(fake_cor_mat))))
# Contains no NA (need to be checked with a symetric matrix)
fake_cor_mat_na <- fake_cor_mat
fake_cor_mat_na[c(2,4), c(2,4)] <- NA
expect_warning(get_fit.cor(cor_mat = fake_cor_mat_na))
})
test_that("fit_cut_off should be a number in ]0;1[", {
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = -1))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = 42))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = c(0.1, 0.5, 0.9)))
expect_error(get_fit.cor(cor_mat = fake_cor_mat, fit_cut_off = "this is not a numeric value"))
})
test_that("network_type should be one of the string allowed to design the correlation function", {
lapply(arg_network_type, function(arg){
# expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = arg), NA)
expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = 42))
expect_error(get_fit.cor(cor_mat = cor(df_expr$df_microarray), network_type = "this is not a network available"))
})
})
test_that("output format is ok", {
# Return a list with expected elements formated correctly
res <- get_fit.cor(cor_mat = cor(df_expr$df_microarray))
expect_true(is.list(res))
expect_true(all(names(res) == c("power_value", "fit_table", "fit_above_cut_off", "metadata")))
expect_true(all(names(res$metadata) == c("network_type")))
expect_true(is.numeric(res$power_value) & length(res$power_value) == 1)
expect_true(
is.data.frame(res$fit_table) &
length(setdiff(colnames(res$fit_table), c("Power", "SFT.R.sq", "slope", "truncated.R.sq",
"mean.k.", "median.k.", "max.k."))) == 0)
})
# ==== get_fit.expr ====
test_that("good input return no error", {
expect_error(get_fit.expr(df_expr$df_microarray), NA)
expect_error(get_fit.expr(data_expr = df_expr$df_microarray %>% as.matrix), NA)
expect_error(get_fit.expr(se), NA)
})
# HF_remove_limit_neg_value_build_net : removing negative value prohibition
# test_that("data_expr should be a data.frame or a matrix of values >= 0", {
# expect_error(get_fit.expr(data_expr = cbind(df_expr$df_rnaseq, -10:(nrow(df_expr$df_rnaseq) - 11))))
# })
test_that("data_expr should be either a matrix or data frame of intensities or counts", {
expect_error(get_fit.expr(data_expr = "this is not a data.frame nor a matrix"))
expect_error(get_fit.expr(data_expr = list("this is not a data.frame nor a matrix", "this shouldn't work")))
expect_warning(get_fit.expr(data_expr = df_expr$df_microarray %>% t))
})
test_that("your_func is checked to returns correlation values ([-1;1])", {
fake_bad_func <- function(df) { matrix(sample(-10:10, nrow(df)*ncol(df), replace = TRUE), ncol = ncol(df)) }
lapply(df_expr, function(df) {
expect_error(get_fit.expr(data_expr = df, cor_func = "other", your_func = fake_bad_func))
})
})
test_that("output format is ok", {
res <- get_fit.expr(data_expr = df_expr$df_microarray)
expect_true(is.list(res))
expect_true(all(names(res) == c("power_value", "fit_table", "fit_above_cut_off", "metadata")))
expect_true(all(names(res$metadata) == c("network_type", "cor_func")))
expect_true(is.numeric(res$power_value) & length(res$power_value) == 1)
expect_true(
is.data.frame(res$fit_table) &
length(setdiff(colnames(res$fit_table), c("Power", "SFT.R.sq", "slope", "truncated.R.sq",
"mean.k.", "median.k.", "max.k."))) == 0)
})
# ==== build_net ====
test_that("good input return no error", {
expect_error(build_net(df_expr$df_microarray, n_threads = 1), NA)
expect_error(build_net(se, n_threads = 1), NA)
})
test_that("genes interactions strength is in [0;1]", {
expect_gte(min(res_net$network %>% c), 0)
expect_lte(max(res_net$network %>% c), 1)
})
test_that("output format is ok", {
expect_true(is.list(res_net))
expect_true(all(names(res_net) == c("network", "metadata")))
expect_true(all(names(res_net$metadata) == c("cor_func", "network_type", "tom_type", "power", "fit_power_table")))
})
# ==== detect_modules ====
test_that("good input return no error", {
expect_error(detect_modules(df_expr$df_microarray, res_net$network), NA)
expect_error(detect_modules(df_expr$df_microarray %>% as.matrix, res_net$network), NA)
expect_error(detect_modules(se, res_net$network), NA)
})
test_that("net is a matrix or data.frame", {
expect_error(detect_modules(df_expr$df_microarray, 42))
expect_error(detect_modules(df_expr$df_microarray, "this is not a data.frame or matrix"))
expect_error(detect_modules(df_expr$df_microarray, 1:42))
expect_error(detect_modules(df_expr$df_microarray, list("this is not a data.frame", "this is not a matrix")))
})
test_that("net should be squarred", {
expect_error(detect_modules(data_expr = df_expr$df_microarray, net = res_net$network[, -1]))
})
test_that("all colnames in rownames", {
expect_error(detect_modules(data_expr = df_expr$df_microarray, net = res_net$network[-1, -10]))
})
test_that("output format is ok (detailled_result = TRUE)", {
expect_true(all(names(res_detection) == c(
"modules", "modules_premerge", "modules_eigengenes", "dendrogram_genes",
"dendrogram_merged_modules")))
expect_true(is.list(res_detection$modules))
expect_true(is.list(res_detection$modules_premerge))
expect_true(is.vector(res_detection$modules %>% unlist, "character"))
expect_true(is.vector(res_detection$modules_premerge %>% unlist, "character"))
expect_true(is.data.frame(res_detection$modules_eigengenes) & ncol(res_detection$modules_eigengenes) == length(res_detection$modules))
expect_true(is(res_detection$dendrogram_genes, "hclust"))
expect_true(is(res_detection$dendrogram_merged_modules, "hclust"))
})
test_that("output format is ok (detailled_result = FALSE)", {
res_detection_not_detailled <- detect_modules(data_expr = df_expr$df_microarray, net = res_net$network, detailled_result = FALSE)
expect_true(all(names(res_detection_not_detailled) == c("modules", "modules_eigengenes")))
expect_true(is.list(res_detection_not_detailled$modules))
expect_true(is.vector(res_detection_not_detailled$modules %>% unlist, "character"))
expect_true(is.data.frame(res_detection_not_detailled$modules_eigengenes) &
ncol(res_detection_not_detailled$modules_eigengenes) == length(res_detection_not_detailled$modules))
})
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