context("regression tests") test_that("unlisting rtables has no effect on them", { t1 <- rtable(header = c("A", "B"), format = "xx", rrow("row 1", 1, 2)) expect_identical(t1, unlist(t1)) }) test_that( "manually created label l rows are always visible", expect_true(rtables:::labelrow_visible(rrow(""))) ) ## was error before rtables 0.3.2.16 test_that("printing table with 0 rows works", { norows <- rtable(c("hi", "lo")) mf_rinfo(matrix_form(norows)) capture.output(prout <- print(norows)) expect_identical(prout, norows) }) test_that("inclNAs argument works as expected", { tinydat <- data.frame( RSP = c(TRUE, FALSE, NA, TRUE), ARM = factor(c("A", "A", "B", "B")) ) tbl1 <- basic_table() %>% split_cols_by("ARM") %>% analyze(vars = "RSP", inclNAs = FALSE) %>% build_table(df = tinydat) expect_equal(tbl1[1, 2, drop = TRUE], 1) tbl2 <- basic_table() %>% split_cols_by("ARM") %>% analyze(vars = "RSP", inclNAs = TRUE) %>% build_table(df = tinydat) expect_true(is.na(tbl2[1, 2, drop = TRUE])) }) test_that("head/tail work", { tbl <- rtable( c("hi", "lo"), rrow("rn", 5, 5) ) expect_false(is.null(head(tbl))) expect_false(is.null(tail(tbl))) tbl_none <- tbl top_left(tbl) <- "hiya" main_title(tbl) <- "title" subtitles(tbl) <- c("subt 1", "subt2") main_footer(tbl) <- "footer" prov_footer(tbl) <- "prov" ## 335 .check_em <- function(t, tbl) { expect_identical(top_left(t), top_left(tbl)) expect_identical(main_title(t), main_title(tbl)) expect_identical(subtitles(t), subtitles(tbl)) expect_identical(top_left(t), top_left(tbl)) expect_identical(top_left(t), top_left(tbl)) expect_identical(top_left(t), top_left(tbl)) TRUE } t_h <- head(tbl) .check_em(head(tbl), tbl) .check_em(tail(tbl), tbl) .check_em( head(tbl, keep_topleft = FALSE, keep_titles = FALSE), tbl_none ) .check_em( tail(tbl, keep_topleft = FALSE, keep_titles = FALSE), tbl_none ) }) test_that("sort does not clobber top-level siblings", { lyt <- basic_table() %>% split_cols_by("ARM") %>% analyze("AGE") %>% split_rows_by("SEX") %>% analyze("AGE", function(x) in_rows(mean = mean(x), "mean+5" = mean(x) + 5)) tbl <- build_table(lyt, rawdat) stbl <- sort_at_path(tbl, c("SEX", "*", "AGE"), function(tt) sum(unlist(row_values((tt)))), decreasing = TRUE) expnms <- c("Mean", "M", "mean+5", "mean", "F", "mean+5", "mean") expect_identical(row.names(stbl), expnms) }) test_that("repeated multi-var analyzes work as expected", { works <- basic_table() %>% split_cols_by("ARM") %>% analyze(c("SEX", "RACE", "STRATA1"), afun = list_wrap_x(table)) %>% analyze("COUNTRY", afun = list_wrap_x(table)) %>% build_table(DM) fails <- basic_table() %>% split_cols_by("ARM") %>% analyze(c("SEX", "RACE"), afun = list_wrap_x(table)) %>% analyze(c("STRATA1", "COUNTRY"), afun = list_wrap_x(table)) %>% build_table(DM) expect_identical(works, fails) }) test_that("summarize_row_groups after analyze call(s) work", { lyt1 <- basic_table() %>% analyze("SEX") %>% split_rows_by("SEX") %>% analyze("SEX") tbl1 <- build_table(lyt1, DM) expect_equal(dim(tbl1), c(24, 1)) ## further regression when we have multiple analyze calls lyt2 <- basic_table() %>% analyze("SEX") %>% analyze("STRATA1") %>% split_rows_by("SEX") %>% analyze("SEX") tbl2 <- build_table(lyt2, DM) expect_equal(dim(tbl2), c(29, 1)) }) test_that("summarize_row_groups at top level works", { lyt <- basic_table() %>% summarize_row_groups("SEX") tbl <- build_table(lyt, DM) expect_equal(length(tree_children(tbl)), 0) expect_equal(dim(tbl), c(1, 1)) }) test_that("CellValue on something with object labels", { expect_identical( obj_label(CellValue(with_label(5, "hi"))), "hi" ) expect_identical( obj_label(CellValue(with_label(5, "hi"), label = "" )), "" ) expect_identical( obj_label(CellValue(with_label(5, "hi"), label = NULL )), "hi" ) }) test_that("rcell on CellValue overrides attrs as necessary", { val <- CellValue(c(100, .5), format = "xx (xx.x%)", label = "oldlabel", colspan = 2L, indent_mod = 2L ) val2 <- CellValue(c(100, .5), format = "xx (xx.xx%)", label = "new label", colspan = 3L, indent_mod = 3L ) expect_identical( rcell(val, format = "xx (xx.xx%)", label = "new label", colspan = 3L, indent_mod = 3L ), val2 ) }) test_that("cell-level formats are retained when column subsetting", { tbl <- rtable( header = c("Treatement\nN=100", "Comparison\nN=300"), format = "xx (xx.xx%)", rrow("A", c(104, .2), c(100, .4)), rrow("B", c(23, .4), c(43, .5)), rrow(""), rrow("this is a very long section header"), rrow("estimate", rcell(55.23, "xx.xx", colspan = 2)), rrow("95% CI", indent = 1, rcell(c(44.8, 67.4), format = "(xx.x, xx.x)", colspan = 2)) ) ## this tests for no warnings, because testthat is terribly designed expect_warning(toString(tbl), regexp = NA) subset <- tbl[, 1] expect_identical( matrix_form(subset)$strings, matrix_form(tbl)$strings[, -3] ) }) test_that("row subsetting works on table with only content rows", { l <- basic_table() %>% split_cols_by("ARM") %>% split_rows_by("RACE") %>% summarize_row_groups() tab <- build_table(l, DM) rw <- tab[1, ] expect_identical( cell_values(rw), cell_values(tab)[[1]] ) expect_identical( unname(tab[1, 1, drop = TRUE]), 79 * c(1, 1 / sum(DM$ARM == "A: Drug X")) ) }) test_that("calls to make_afun within loop work correctly", { dummy_stats_function <- function(x) { list("s_mean" = mean(x)) } dummy_layout <- function(lyt, vv) { for (i in seq_along(vv)) { afun <- make_afun( dummy_stats_function, .stats = "s_mean", .labels = c(s_mean = vv[i]), # set labels here to match variable name .formats = c(s_mean = "xx.x") ) lyt <- analyze( lyt, vars = vv[i], afun = afun, show_labels = "visible" ) } lyt } tab <- basic_table() %>% split_cols_by("ARM") %>% dummy_layout(vv = c("BMRKR1", "AGE")) %>% build_table(DM) expect_identical( row.names(tab), c("BMRKR1", "BMRKR1", "AGE", "AGE") ) }) test_that("keeping non-existent levels doesn't break internal machinery", { ANL <- DM ANL$COUNTRY <- as.character(ANL$COUNTRY) sfun <- keep_split_levels("ABC") lyt <- basic_table() %>% analyze("AGE") %>% split_rows_by("COUNTRY", split_fun = sfun) %>% summarize_row_groups() %>% analyze("AGE") result <- build_table(lyt, df = ANL) expect_identical(dim(result), c(3L, 1L)) expect_identical(row.names(result), c("Mean", "ABC", "Mean")) cbres <- cbind_rtables(result, result) expect_identical(dim(cbres), c(3L, 2L)) expect_identical(row.names(cbres), c("Mean", "ABC", "Mean")) ## because its a factor and "ABC" isn't a real level expect_error(build_table(lyt, DM)) expect_error(cbind_rtables(result[-1, ], result[-3, ]), "Mismatching, non-empty row names") }) test_that("add_overall_col with no col splits works", { lyt <- basic_table() %>% add_overall_col("whaaat") %>% analyze("AGE", mean) tab <- build_table(lyt, DM) ## previously error expect_identical(names(tab), "whaaat") }) test_that("cell_values works when you path all the way to the row", { tbl <- basic_table() %>% split_cols_by("ARM") %>% analyze(c("SEX", "AGE")) %>% build_table(ex_adsl) res <- cell_values(tbl, c("AGE", "Mean"), c("ARM", "B: Placebo")) expect_identical(res[[1]], mean(subset(ex_adsl, ARM == "B: Placebo")$AGE)) }) test_that("(xx,xx) format works correctly", { expect_identical( "(2, 5)", format_rcell(rcell(c(2, 5), format = "(xx, xx)")) ) }) test_that("inclNAs with empty factor levels behaves", { ## no NAs in DM$RACE so following 2 tables should be fully identical ## NO TIBBLES!!!!!!!!!!!!!!!!!!! dfdm <- as.data.frame(DM) tbl <- basic_table() %>% split_rows_by("RACE") %>% analyze("COUNTRY", function(x) in_rows(nobs = length(x)), inclNAs = TRUE) %>% build_table(dfdm) tbl2 <- basic_table() %>% split_rows_by("RACE") %>% analyze("COUNTRY", function(x) in_rows(nobs = length(x)), inclNAs = FALSE) %>% build_table(dfdm) expect_identical(tbl, tbl2) }) ## #173 test_that("column labeling works correctly when value label var is a factor", { ex_adsl$ARMLAB <- factor(ex_adsl$ARM, labels = c("Drug X", "Placebo", "Combination") ) lyt_orig <- basic_table() %>% split_cols_by("ARM") %>% analyze(c("AGE", "BMRKR2")) tbl_orig <- build_table(lyt_orig, ex_adsl) lyt_lab <- basic_table() %>% split_cols_by("ARM", labels_var = "ARMLAB") %>% analyze(c("AGE", "BMRKR2")) tbl_lab <- build_table(lyt_lab, ex_adsl) tbl_orig tbl_lab # wrong labeling here expect_identical( names(tbl_lab), names(tbl_orig) ) str <- matrix_form(tbl_lab)$strings expect_identical( as.vector(str[1, ]), c("", "Drug X", "Placebo", "Combination") ) }) ## pathing regression tests test_that("pathing works", { ## issue https://github.com/insightsengineering/rtables/issues/172 result_overall <- basic_table(show_colcounts = TRUE) %>% split_cols_by("ARM") %>% add_overall_col("overall") %>% analyze(c("AGE", "SEX")) %>% build_table(ex_adsl) va <- value_at(result_overall, c("AGE", "Mean"), c("ARM", "C: Combination")) expect_identical(va, result_overall[2, 3, drop = TRUE]) ## issue https://github.com/insightsengineering/rtables/issues/178 t2 <- basic_table() %>% split_cols_by("ARMCD") %>% split_rows_by("COUNTRY", split_fun = keep_split_levels("CHN")) %>% analyze("SEX") %>% analyze("AGE", nested = FALSE) %>% analyze("BMRKR1") %>% build_table(ex_adsl) ## this may get changed, but for now enforce it expect_error(cell_values(t2, "AGE")) expect_identical( cell_values(t2, c("ma_AGE_BMRKR1", "AGE")), cell_values(t2, c("ma_AGE_BMRKR1", "AGE", "Mean")) ) expect_identical( cell_values(t2, c("ma_AGE_BMRKR1", "AGE")), lapply(split(ex_adsl$AGE, ex_adsl$ARMCD), mean) ) }) ## issue https://github.com/insightsengineering/rtables/issues/175 test_that("pagination works on tables with only 1 row", { tt <- rtable(header = " ", rrow("", "NUll report")) expect_identical(nrow(tt), 1L) expect_identical(pag_tt_indices(tt), list(1L)) }) test_that("in_rows doesn't clobber cell format when only 1 row", { afun <- function(x) { in_rows("name" = rcell(123.31241231, format = "xx.xx")) } lyt <- basic_table() %>% analyze("AGE", afun = afun) tbl <- build_table(lyt, DM) mf <- matrix_form(tbl) expect_identical(mf$strings[2, 2, drop = TRUE], "123.31") }) ## newlabels works in reorder_split_levels (https://github.com/insightsengineering/rtables/issues/191) test_that("newlabels works in reorder_split_levels", { lyt <- basic_table() %>% split_cols_by("ARM") %>% split_rows_by( "COUNTRY", split_fun = reorder_split_levels( neworder = c("CAN", "PAK", "BRA"), newlabels = c(CAN = "Canada", PAK = "Pakistan", BRA = "Brazil") ) ) %>% analyze("AGE") tab <- build_table(lyt, ex_adsl) expect_identical( c("Canada", "Mean", "Pakistan", "Mean", "Brazil", "Mean"), row.names(tab) ) }) ## https://github.com/insightsengineering/rtables/issues/198 test_that("no extraneous footnote attribute", { r1 <- in_rows( .list = list( ncols = rcell(5L, "xx", label = "ncol") ) ) expect_false("footnote" %in% names(attributes(r1$ncols))) r2 <- in_rows( .list = list( ncols = rcell(5L, "xx", label = "ncol"), nrows = rcell(10L, "xx", label = "nrow") ) ) expect_false("footnote" %in% names(attributes(r2$ncols))) }) ## https://github.com/insightsengineering/rtables/issues/200 # nolint start test_that("no max is -Inf warnings from make_row_df when content rows exist in places that don't have any child rows in the subsequent split", { # nolint end dat2 <- data.frame( l1 = factor(c("A", "B")), l2 = factor(c("aa1", "bb1")), l3 = c("aaa1", "bbb1"), stringsAsFactors = FALSE ) lyt <- basic_table() %>% split_rows_by("l1") %>% summarize_row_groups() %>% split_rows_by("l2") %>% summarize_row_groups() %>% split_rows_by("l3") %>% summarize_row_groups() tbl <- build_table(lyt, dat2) ## again, regexp of NA tests for ***no warnings*** ## I know, I know, but I didn't design testthat! expect_warning(make_row_df(tbl), regexp = NA) }) ## discovered while preparing response for https://github.com/insightsengineering/rtables/issues/307 test_that("specifying function format with no cfun in summarize_row_groups works", { formfun <- function(x, output) if (x[1] == 0) "0" else format_value(x, "xx (xx.x%)", output = output) lyt <- basic_table() %>% split_cols_by("SEX", split_fun = keep_split_levels(c("F", "M"))) %>% split_rows_by("RACE", split_label = "Ethnicity", # 5 label_pos = "topleft", split_fun = keep_split_levels(c("ASIAN", "WHITE")) ) %>% summarize_row_groups(format = formfun) %>% # 4 analyze("AGE", afun = mean, format = "xx.x") tbl <- build_table(lyt, DM[1:15, ]) # WHITE-F is 0 in the first 15 rows... mat <- matrix_form(tbl) expect_identical(mat$strings[4, 2, drop = TRUE], "0") }) ## https://github.com/insightsengineering/rtables/issues/314 test_that("child_label = hidden does not affect tree structure/pathing", { df <- expand.grid( ARM = factor(paste("ARM", c("A", "B"))), FCT = factor(c("f1", "f2")) ) df <- cbind(df, val = seq_len(NROW(df))) df s_test <- function(df, ...) in_rows(mn = 1, sd = 2) lyt <- basic_table() %>% split_cols_by("ARM", ref_group = "ARM A") %>% split_rows_by("FCT", child_labels = "hidden") %>% analyze("val", afun = s_test) tbl <- build_table(lyt, df) lyt2 <- basic_table() %>% split_cols_by("ARM", ref_group = "ARM A") %>% split_rows_by("FCT") %>% analyze("val", afun = s_test) tbl2 <- build_table(lyt2, df) rdf1 <- make_row_df(tbl) rdf2 <- make_row_df(tbl2) expect_identical( row_paths(tbl), row_paths(tbl2)[-c(1, 4)] ) expect_identical( make_row_df(tbl, visible_only = FALSE)$path, make_row_df(tbl2, visible_only = FALSE)$path[-c(2, 7)] ) expect_identical( value_at(tbl, c("FCT", "f1", "val", "mn"), c("ARM", "ARM A")), 1 ) expect_identical( value_at(tbl2, c("FCT", "f1", "val", "mn"), c("ARM", "ARM A")), 1 ) }) ## ensure nested = FALSE not needed after analyze test_that("nested = FALSE not needed after analyze", { lyt1 <- basic_table() %>% analyze("AGE") %>% split_rows_by("STRATA1") %>% analyze("AGE") lyt2 <- basic_table() %>% analyze("AGE") %>% split_rows_by("STRATA1", nested = FALSE) %>% analyze("AGE") expect_identical(lyt1, lyt2) }) test_that("indent mod preserved when paginating between multi-analyses", { adsl2 <- ex_adsl adsl2$smoker <- factor(NA, levels = c("10 cigarettes", ">10 cigarettes")) adsl2$age_grp <- cut(adsl2$AGE, c(18, 65, 75, 1000), labels = c( "18 <= to < 65", "65 <= to < 75", "Elderly >= 75" )) ## make one of the factor levels of SEX variable empty adsl2 <- subset(adsl2, SEX != "UNDIFFERENTIATED") ## helper that omits the pct entirely if the count is 0 count_pct <- function(x, .N_col, ...) { if (x == 0) { rcell(0, format = "xx") } else { rcell(c(x, x / .N_col), format = "xx (xx.x%)") } } ## analysis function: table factor then apply above to get our cell values tab_w_pct <- function(x, .N_col, ...) { tab <- as.list(table(x)) lapply(tab, count_pct, .N_col = .N_col) } lyt3 <- basic_table() %>% split_cols_by("ARM") %>% summarize_row_groups("USUBJID", label_fstr = "Number of Patients", format = "xx") %>% analyze("SEX", tab_w_pct, var_labels = "Gender", indent_mod = -1) %>% analyze("smoker", tab_w_pct, indent_mod = -1) %>% analyze("age_grp", tab_w_pct, indent_mod = -1) tab <- build_table(lyt3, adsl2) res <- paginate_table(tab, lpp = 10, verbose = TRUE) rdf <- make_row_df(res[[2]]) expect_equal( rdf$indent[2], # smoker row 0 ) }) ## https://github.com/insightsengineering/rtables/issues/634 ## problem was actually in formatters fixed there in PR #152 test_that("export_as_txt works when there are newlines in column labels (naturally or after wrapping", { tbl <- basic_table(show_colcounts = TRUE) %>% split_cols_by("ACTARM") %>% split_rows_by( "PARAMCD", labels_var = "PARAM", split_fun = drop_split_levels ) %>% split_rows_by( "AVISIT", split_fun = drop_split_levels, label_pos = "hidden" ) %>% split_cols_by_multivar( vars = c("AVAL", "CHG"), varlabels = c("Analysis Value", "Change from\nBaseline") ) %>% analyze_colvars(afun = mean) %>% build_table(formatters::ex_adlb) expect_silent(tmp <- export_as_txt(tbl, lpp = 20)) })