data("pbmcPlot", package = "rliger") withNewH5Copy <- function(fun) { ctrlpath.orig <- system.file("extdata/ctrl.h5", package = "rliger") stimpath.orig <- system.file("extdata/stim.h5", package = "rliger") if (!file.exists(ctrlpath.orig)) stop("Cannot find original h5 file at: ", ctrlpath.orig) # if (file.exists("ctrltest.h5")) file.remove("ctrltest.h5") # if (file.exists("stimtest.h5")) file.remove("stimtest.h5") # pwd <- getwd() # # Temp setting for GitHub Actions # fsep <- ifelse(Sys.info()["sysname"] == "Windows", "\\", "/") # if (Sys.info()["sysname"] == "Windows") { # pwd <- file.path("C:\\Users", Sys.info()["user"], "Documents", fsep = fsep) # } # ctrlpath <- file.path(pwd, "ctrltest.h5", fsep = fsep) # stimpath <- file.path(pwd, "stimtest.h5", fsep = fsep) ctrlpath <- tempfile(pattern = "ctrltest_", fileext = ".h5") stimpath <- tempfile(pattern = "stimtest_", fileext = ".h5") cat("Working ctrl H5 file path: ", ctrlpath, "\n") cat("Working stim H5 file path: ", stimpath, "\n") file.copy(ctrlpath.orig, ctrlpath, copy.mode = TRUE) file.copy(stimpath.orig, stimpath, copy.mode = TRUE) if (!file.exists(ctrlpath)) stop("Cannot find copied h5 file at: ", ctrlpath) if (!file.exists(stimpath)) stop("Cannot find copied h5 file at: ", stimpath) fun(list(ctrl = ctrlpath, stim = stimpath)) if (file.exists(ctrlpath)) unlink(ctrlpath) if (file.exists(stimpath)) unlink(stimpath) } closeH5Liger <- function(object) { for (d in names(object)) { if (isH5Liger(object, d)) { h5file <- getH5File(object, d) h5file$close() } } } expect_gg <- function(...) { objects <- list(...) for (i in seq_along(objects)) { testthat::expect_is(objects[[i]], "ggplot") } } #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Scatter plots #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Scatter plots") test_that("scatter plots", { # Wrappers expect_gg( plotClusterDimRed(pbmcPlot), plotDatasetDimRed(pbmcPlot), plotByDatasetAndCluster(pbmcPlot), plotGeneDimRed(pbmcPlot, "S100A8"), plotFactorDimRed(pbmcPlot, 1) ) # General expect_is( plotDimRed(pbmcPlot, splitBy = "dataset"), "list" ) expect_is( plotDimRed(pbmcPlot, colorBy = "dataset", splitBy = "dataset"), "list" ) for (o in c("shuffle", "ascending", "descending")) { expect_gg(plotDimRed(pbmcPlot, colorBy = "dataset", dotOrder = o)) } expect_gg( plotDimRed(pbmcPlot, colorBy = "S100A8", slot = "normData", trimHigh = 5, trimLow = 0), plotDimRed(pbmcPlot, colorBy = "leiden_cluster", shapeBy = "dataset"), plotDimRed(pbmcPlot, colorBy = NULL, shapeBy = "dataset") ) skip_if_not_installed("scattermore") expect_gg( plotDimRed(pbmcPlot, colorBy = "leiden_cluster", raster = TRUE) ) }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Violin plots #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Violin plots") test_that("Violin plots", { # Wrappers expect_is(plotGeneViolin(pbmcPlot, "S100A8"), "list") expect_is(plotGeneViolin(pbmcPlot, "S100A8", groupBy = FALSE, dot = TRUE, dotColor = NULL), "list") expect_gg( plotGeneViolin(pbmcPlot, "S100A8", byDataset = FALSE), plotTotalCountViolin(pbmc, dot = TRUE) ) # General skip_if_not_installed("scattermore") expect_gg( plotGeneDetectedViolin(pbmc, dot = TRUE, dotColor = NULL, raster = TRUE), plotCellViolin(pbmcPlot, "nUMI", groupBy = NULL, colorBy = "leiden_cluster", box = TRUE, dot = TRUE, raster = TRUE) ) }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # ggplot themes #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("ggplot themes") test_that("ggplot themes", { nCluster <- length(levels(pbmcPlot$leiden_cluster)) expect_gg( plotClusterDimRed(pbmcPlot, titleSize = 10, subtitleSize = 8, xTextSize = 8, xFacetSize = 8, xTitleSize = 10, yTextSize = 8, yFacetSize = 8, yTitleSize = 10, legendTextSize = 8, legendTitleSize = 10, xlab = NULL, ylab = NULL, panelBorder = TRUE, colorLabels = letters[1:nCluster], colorValues = RColorBrewer::brewer.pal(nCluster, "Set1"), showLegend = FALSE), plotTotalCountViolin(pbmcPlot, colorBy = "dataset", colorLabel = letters[1:2], colorValues = c("green", "purple"), legendFillTitle = "hi", legendColorTitle = "hi"), plotGeneDimRed(pbmcPlot, "S100A8", colorLow = "red", colorMid = "white", colorHigh = "blue", colorMidPoint = 5), plotGeneDimRed(pbmcPlot, "S100A8", colorPalette = "Pastel1") ) }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Density plot #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Density plot") test_that("Density plot", { expect_gg( expect_no_warning(plotDensityDimRed(pbmcPlot, splitBy = "dataset", title = "one")), expect_message(plotDensityDimRed(pbmcPlot, title = letters[1:3], dotRaster = TRUE), "`title` has length greater than") ) expect_is(plotDensityDimRed(pbmcPlot, "UMAP", splitBy = "dataset", title = names(pbmcPlot), combinePlot = FALSE), "list") }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Proportion plots #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Proportion plots") test_that("Proportion plots", { expect_gg( plotProportion(pbmcPlot), plotProportion(pbmcPlot, method = "pie"), plotProportionBar(pbmcPlot, method = "group"), plotProportionDot(pbmcPlot) ) expect_is(plotProportionBar(pbmcPlot, inclRev = TRUE, combinePlot = FALSE), "list") expect_error(plotProportionDot(pbmcPlot, letters), "`class1` and `class2` must be") expect_error(plotProportionBar(pbmcPlot, letters), "`class1` and `class2` must be") }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Heatmap #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Heatmap") test_that("Heatmap", { expect_is( plotFactorHeatmap(pbmcPlot), "HeatmapList" ) expect_error( plotFactorHeatmap(pbmcPlot, viridisOption = letters), "`viridisOption` has to be one value from the available choices" ) expect_is( plotGeneHeatmap(pbmcPlot, varFeatures(pbmcPlot), useCellMeta = "leiden_cluster", scale = TRUE), "HeatmapList" ) extAnn <- cellMeta(pbmcPlot, c("nUMI", "dataset"), as.data.frame = TRUE) expect_is( plotGeneHeatmap(pbmcPlot, varFeatures(pbmcPlot), cellAnnotation = extAnn, transpose = TRUE, cellTextSize = 8, featureTextSize = 8, cellTitleSize = 10, featureTitleSize = 10, legendTextSize = 8, legendTitleSize = 10), "HeatmapList" ) expect_warning( plotGeneHeatmap(pbmcPlot, varFeatures(pbmcPlot), scale = TRUE, trim = c(-5, 0, 5)), "`trim` must be a numeric vector of two values" ) }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Dot Plot #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Dot Plot") test_that("Dot Plot", { expect_error(plotClusterFactorDot(pbmcPlot, viridisOption = letters), "`viridisOption` has to be one") expect_is(plotClusterGeneDot(pbmcPlot, varFeatures(pbmcPlot)[1:5], cellTextSize = 8, featureTextSize = 8, cellTitleSize = 10, featureTitleSize = 10, legendTextSize = 8, legendTitleSize = 10), "HeatmapList") expect_is( plotClusterGeneDot(pbmcPlot, features = data.frame(varFeatures(pbmcPlot)[1:10], factor(rep(letters[1:5], 2))), transpose = TRUE), "HeatmapList" ) expect_is(plotClusterFactorDot(pbmcPlot, factorScaleFunc = function(x) x), "HeatmapList") }) #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% # Gene loading #%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% context("Gene loading") test_that("Gene loading", { res <- getFactorMarkers(pbmcPlot, "ctrl", "stim") expect_gg(plotGeneLoadings(pbmcPlot, res, 1)) }) context("spatial coordinates") test_that("Plot spatial coordinates", { ctrl.fake.spatial <- as.ligerDataset(dataset(pbmc, "ctrl"), modal = "spatial") fake.coords <- matrix(rnorm(2 * ncol(ctrl.fake.spatial)), ncol = 2) dimnames(fake.coords) <- list(colnames(ctrl.fake.spatial), c("x", "y")) coordinate(ctrl.fake.spatial) <- fake.coords dataset(pbmc, "ctrl") <- ctrl.fake.spatial expect_gg(plotSpatial2D(pbmc, dataset = "ctrl")) expect_gg(plotSpatial2D(pbmc, dataset = "ctrl", useCluster = "dataset")) }) context("Sankey") test_that("PlotSankey", { skip_if_not_installed("sankey") cellMeta(pbmcPlot, "ctrl_cluster", "ctrl") <- cellMeta(pbmcPlot, "leiden_cluster", "ctrl") cellMeta(pbmcPlot, "stim_cluster", "stim") <- cellMeta(pbmcPlot, "leiden_cluster", "stim") pdfName <- tempfile(pattern = "fig_", fileext = ".pdf") grDevices::pdf(file = pdfName) expect_no_error({ plotSankey(pbmcPlot, "ctrl_cluster", "stim_cluster", titles = c("control", "LIGER", "stim"), prefixes = c("c", NA, "s")) }) grDevices::dev.off() if (file.exists(pdfName)) unlink(pdfName) })