tests/testthat/test-graph_test.R
In cole-trapnell-lab/monocle3: Clustering, Differential Expression, and Trajectory Analysis for Single-Cell RNA-Seq
context("test-graph_test")
skip_if_offline()
skip_not_travis <- function ()
{
if (identical(Sys.getenv("TRAVIS"), "true")) {
return(invisible(TRUE))
}
skip("Not on Travis")
}
cds <- monocle3:::load_worm_embryo()
set.seed(42)
cds <- preprocess_cds(cds, num_dim = 100)
cds <- reduce_dimension(cds, umap.fast_sgd=FALSE, cores=1)
cds <- cluster_cells(cds)
cds <- learn_graph(cds, learn_graph_control=list(ncenter=1000), close_loop=TRUE)
#plot_cells(cds, color_cells_by="cell.type")
# test_that("test graph_test error messages work", {
# expect_error(cds <- graph_test(cds),
# "No dimensionality reduction for UMAP calculated. Please run reduce_dimension with reduction_method = UMAP and partition_cells before running learn_graph.")
# cds <- preprocess_cds(cds)
# expect_error(cds <- graph_test(cds),
# "No dimensionality reduction for UMAP calculated. Please run reduce_dimension with reduction_method = UMAP and partition_cells before running learn_graph.")
# cds <- reduce_dimension(cds)
# expect_error(cds <- graph_test(cds),
# "No cell partition for UMAP calculated. Please run partition_cells with reduction_method = UMAP before running learn_graph.")
# cds <- reduce_dimension(cds)
# expect_error(cds <- graph_test(cds),
# "No cell partition for UMAP calculated. Please run partition_cells with reduction_method = UMAP before running learn_graph.")
#
# #expect_error(cds <- learn_graph(cds, learn_graph_control = list(FALSE)), "")
# #expect_error(cds <- graph_test(cds, learn_graph_control = list(prune = FALSE)), "Unknown variable in learn_graph_control")
# })
test_that("test graph_test returns Dex-dependent genes",{
skip_on_travis()
test_cds = cds
pos_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "che-1",]
pr_test_res = graph_test(pos_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.661, tolerance=1e-2)
expect_equal(pr_test_res$morans_test_statistic, 204.72, tolerance=1e-1)
expect_lt(pr_test_res$p_value[1], 0.05)
neg_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "R02D3.1",]
pr_test_res = graph_test(neg_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, -0.000752, tolerance=1e-5)
expect_equal(pr_test_res$morans_test_statistic, -0.173, tolerance=1e-2)
expect_gt(pr_test_res$p_value[1], 0.05)
})
test_that("test graph_test returns few genes under UMAP coordinate randomization",{
skip_on_travis()
ciliated_genes = c("che-1",
"hlh-17",
"nhr-6",
"dmd-6",
"ceh-36",
"ham-1")
cds_subset = cds[rowData(cds)$gene_short_name %in% ciliated_genes,]
test_cds = cds_subset
nr = nrow(reducedDims(test_cds)$UMAP)
reducedDims(test_cds)$UMAP[,1] = reducedDims(test_cds)$UMAP[sample.int(nr),1]
reducedDims(test_cds)$UMAP[,2] = reducedDims(test_cds)$UMAP[sample.int(nr),2]
test_cds <- cluster_cells(test_cds)
test_cds <- learn_graph(test_cds)
pr_test_res = graph_test(test_cds, neighbor_graph="principal_graph", k=50)
num_degs = sum(pr_test_res$q_value < 0.05)
expect_equal(num_degs, 0)
})
#### TRAVIS ####
test_that("test graph_test returns Dex-dependent genes",{
skip_not_travis()
test_cds = cds
pos_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "che-1",]
pr_test_res = graph_test(pos_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.653, tolerance=1e-2)
expect_equal(pr_test_res$morans_test_statistic, 204.72, tolerance=1e-1)
expect_lt(pr_test_res$p_value[1], 0.05)
neg_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "R02D3.1",]
pr_test_res = graph_test(neg_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.000263, tolerance=1e-5)
expect_equal(pr_test_res$morans_test_statistic, 0.125, tolerance=1e-2)
expect_gt(pr_test_res$p_value[1], 0.05)
})
test_that("test graph_test returns few genes under UMAP coordinate randomization",{
skip_not_travis()
ciliated_genes = c("che-1",
"hlh-17",
"nhr-6",
"dmd-6",
"ceh-36",
"ham-1")
cds_subset = cds[rowData(cds)$gene_short_name %in% ciliated_genes,]
test_cds = cds_subset
nr = nrow(reducedDims(test_cds)$UMAP)
reducedDims(test_cds)$UMAP[,1] = reducedDims(test_cds)$UMAP[sample.int(nr),1]
reducedDims(test_cds)$UMAP[,2] = reducedDims(test_cds)$UMAP[sample.int(nr),2]
test_cds <- cluster_cells(test_cds)
test_cds <- learn_graph(test_cds)
pr_test_res = graph_test(test_cds, neighbor_graph="principal_graph", k=50)
num_degs = sum(pr_test_res$q_value < 0.05)
expect_equal(num_degs, 0)
})
cole-trapnell-lab/monocle3 documentation built on April 7, 2024, 9:24 p.m.
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context("test-graph_test")
skip_if_offline()
skip_not_travis <- function ()
{
if (identical(Sys.getenv("TRAVIS"), "true")) {
return(invisible(TRUE))
}
skip("Not on Travis")
}
cds <- monocle3:::load_worm_embryo()
set.seed(42)
cds <- preprocess_cds(cds, num_dim = 100)
cds <- reduce_dimension(cds, umap.fast_sgd=FALSE, cores=1)
cds <- cluster_cells(cds)
cds <- learn_graph(cds, learn_graph_control=list(ncenter=1000), close_loop=TRUE)
#plot_cells(cds, color_cells_by="cell.type")
# test_that("test graph_test error messages work", {
# expect_error(cds <- graph_test(cds),
# "No dimensionality reduction for UMAP calculated. Please run reduce_dimension with reduction_method = UMAP and partition_cells before running learn_graph.")
# cds <- preprocess_cds(cds)
# expect_error(cds <- graph_test(cds),
# "No dimensionality reduction for UMAP calculated. Please run reduce_dimension with reduction_method = UMAP and partition_cells before running learn_graph.")
# cds <- reduce_dimension(cds)
# expect_error(cds <- graph_test(cds),
# "No cell partition for UMAP calculated. Please run partition_cells with reduction_method = UMAP before running learn_graph.")
# cds <- reduce_dimension(cds)
# expect_error(cds <- graph_test(cds),
# "No cell partition for UMAP calculated. Please run partition_cells with reduction_method = UMAP before running learn_graph.")
#
# #expect_error(cds <- learn_graph(cds, learn_graph_control = list(FALSE)), "")
# #expect_error(cds <- graph_test(cds, learn_graph_control = list(prune = FALSE)), "Unknown variable in learn_graph_control")
# })
test_that("test graph_test returns Dex-dependent genes",{
skip_on_travis()
test_cds = cds
pos_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "che-1",]
pr_test_res = graph_test(pos_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.661, tolerance=1e-2)
expect_equal(pr_test_res$morans_test_statistic, 204.72, tolerance=1e-1)
expect_lt(pr_test_res$p_value[1], 0.05)
neg_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "R02D3.1",]
pr_test_res = graph_test(neg_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, -0.000752, tolerance=1e-5)
expect_equal(pr_test_res$morans_test_statistic, -0.173, tolerance=1e-2)
expect_gt(pr_test_res$p_value[1], 0.05)
})
test_that("test graph_test returns few genes under UMAP coordinate randomization",{
skip_on_travis()
ciliated_genes = c("che-1",
"hlh-17",
"nhr-6",
"dmd-6",
"ceh-36",
"ham-1")
cds_subset = cds[rowData(cds)$gene_short_name %in% ciliated_genes,]
test_cds = cds_subset
nr = nrow(reducedDims(test_cds)$UMAP)
reducedDims(test_cds)$UMAP[,1] = reducedDims(test_cds)$UMAP[sample.int(nr),1]
reducedDims(test_cds)$UMAP[,2] = reducedDims(test_cds)$UMAP[sample.int(nr),2]
test_cds <- cluster_cells(test_cds)
test_cds <- learn_graph(test_cds)
pr_test_res = graph_test(test_cds, neighbor_graph="principal_graph", k=50)
num_degs = sum(pr_test_res$q_value < 0.05)
expect_equal(num_degs, 0)
})
#### TRAVIS ####
test_that("test graph_test returns Dex-dependent genes",{
skip_not_travis()
test_cds = cds
pos_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "che-1",]
pr_test_res = graph_test(pos_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.653, tolerance=1e-2)
expect_equal(pr_test_res$morans_test_statistic, 204.72, tolerance=1e-1)
expect_lt(pr_test_res$p_value[1], 0.05)
neg_ctrl_gene = test_cds[rowData(cds)$gene_short_name == "R02D3.1",]
pr_test_res = graph_test(neg_ctrl_gene)
expect_equal(pr_test_res$status[1], "OK")
expect_equal(pr_test_res$morans_I, 0.000263, tolerance=1e-5)
expect_equal(pr_test_res$morans_test_statistic, 0.125, tolerance=1e-2)
expect_gt(pr_test_res$p_value[1], 0.05)
})
test_that("test graph_test returns few genes under UMAP coordinate randomization",{
skip_not_travis()
ciliated_genes = c("che-1",
"hlh-17",
"nhr-6",
"dmd-6",
"ceh-36",
"ham-1")
cds_subset = cds[rowData(cds)$gene_short_name %in% ciliated_genes,]
test_cds = cds_subset
nr = nrow(reducedDims(test_cds)$UMAP)
reducedDims(test_cds)$UMAP[,1] = reducedDims(test_cds)$UMAP[sample.int(nr),1]
reducedDims(test_cds)$UMAP[,2] = reducedDims(test_cds)$UMAP[sample.int(nr),2]
test_cds <- cluster_cells(test_cds)
test_cds <- learn_graph(test_cds)
pr_test_res = graph_test(test_cds, neighbor_graph="principal_graph", k=50)
num_degs = sum(pr_test_res$q_value < 0.05)
expect_equal(num_degs, 0)
})
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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