library(dplyr) data(pedcan_expression) df_expr <- pedcan_expression %>% select(event, disease, starts_with("A")) %>% filter(event != "Unknown") gene <- sample(colnames(df_expr)[-c(1:2)], size = 1) gx <- df_expr[df_expr$event == "Primary", gene, drop = TRUE] gy <- df_expr[df_expr$event == "Metastatic", gene, drop = TRUE] gwt <- wilcox.test(x = gx, y = gy) test_that("step_select_wilcoxon works", { my_cutoff <- 0.05 my_correction <- "BH" rec <- recipe(event ~ ., data = df_expr) %>% step_select_wilcoxon(all_numeric_predictors(), outcome = "event", correction = my_correction, cutoff = my_cutoff) expect_equal(nrow(tidy(rec, 1)), 1) prepped <- prep(rec) wt_tidy <- tidy(prepped, 1) expect_equal(nrow(wt_tidy), ncol(df_expr) - 2) expect_equal(wt_tidy[wt_tidy$terms == gene, ]$pv, gwt$p.value) expect_true(all(wt_tidy[wt_tidy$kept, ]$qv <= my_cutoff)) expect_true(all(wt_tidy[!wt_tidy$kept, ]$qv > my_cutoff)) expect_equal(p.adjust(wt_tidy$pv, method = my_correction), wt_tidy$qv) baked <- bake(prepped, new_data = NULL) expect_setequal(colnames(baked), c(wt_tidy[wt_tidy$kept, ]$terms, "event", "disease")) expect_invisible(recipes_pkg_check(required_pkgs.step_select_wilcoxon())) }) test_that("step_select_wilcoxon throw errors", { rec <- recipe(disease ~ ., data = df_expr) expect_error(rec %>% step_select_wilcoxon(all_numeric_predictors(), outcome = "disease", cutoff = 0.05) %>% prep(), "`outcome` must be a binary vector.") expect_error(rec %>% step_select_wilcoxon(all_numeric_predictors(), outcome = "event", correction = c("BH", "fdr"), cutoff = 0.05) %>% prep(), "`correction` must be a length-one vector.") expect_error(rec %>% step_select_wilcoxon(all_numeric_predictors(), outcome = "event", correction = "FDR", cutoff = 0.05) %>% prep(), '`correction` must be one of "holm", "hochberg", ') })