# https://github.com/r-lib/rlang/issues/1556 skip_if_not(has_size_one_bool()) r_string <- function(str) { stopifnot(is_string(str)) .Call(ffi_r_string, str) } test_that("chr_prepend() prepends", { out <- .Call(ffi_test_chr_prepend, c("foo", "bar"), r_string("baz")) expect_identical(out, c("baz", "foo", "bar")) }) test_that("chr_append() appends", { out <- .Call(ffi_test_chr_append, c("foo", "bar"), r_string("baz")) expect_identical(out, c("foo", "bar", "baz")) }) test_that("r_warn() signals", { expect_warning(regexp = "foo", withCallingHandlers(warning = function(c) expect_null(c$call), .Call(ffi_test_r_warn, "foo") )) }) test_that("r_on_exit() adds deferred expr", { var <- chr() fn <- function() { .Call(ffi_test_r_on_exit, quote(var <<- c(var, "foo")), current_env()) var <<- c(var, "bar") } fn() expect_identical(var, c("bar", "foo")) }) test_that("r_base_ns_get() fail if object does not exist", { expect_error(.Call(ffi_test_base_ns_get, "foobar")) }) test_that("r_peek_frame() returns current frame", { current_frame <- function() { list(.Call(ffi_test_current_frame), environment()) } out <- current_frame() expect_identical(out[[1]], out[[2]]) }) test_that("r_sys_frame() returns current frame environment", { sys_frame <- function(..., .n = 0L) { list(.Call(ffi_test_sys_frame, .n), sys.frame(.n)) } out <- sys_frame(foo(), bar) expect_identical(out[[1]], out[[2]]) wrapper <- function(...) { sys_frame(.n = -1L) } out <- wrapper(foo(), bar) expect_identical(out[[1]], out[[2]]) }) test_that("r_sys_call() returns current frame call", { sys_call <- function(..., .n = 0L) { list(.Call(ffi_test_sys_call, .n), sys.call(.n)) } out <- sys_call(foo(), bar) expect_identical(out[[1]], out[[2]]) wrapper <- function(...) { sys_call(.n = -1L) } out <- wrapper(foo(), bar) expect_identical(out[[1]], out[[2]]) }) test_that("r_which_operator() returns correct tokens", { expect_identical(call_parse_type(quote(foo())), "") expect_identical(call_parse_type(""), "") expect_identical(call_parse_type(quote(?a)), "?unary") expect_identical(call_parse_type(quote(a ? b)), "?") expect_identical(call_parse_type(quote(while (a) b)), "while") expect_identical(call_parse_type(quote(for (a in b) b)), "for") expect_identical(call_parse_type(quote(repeat a)), "repeat") expect_identical(call_parse_type(quote(if (a) b)), "if") expect_identical(call_parse_type(quote(break)), "break") expect_identical(call_parse_type(quote(next)), "next") expect_identical(call_parse_type(quote(a <- b)), "<-") expect_identical(call_parse_type(quote(a <<- b)), "<<-") expect_identical(call_parse_type(quote(a < b)), "<") expect_identical(call_parse_type(quote(a <= b)), "<=") expect_identical(call_parse_type(quote(`<--`(a, b))), "") expect_identical(call_parse_type(quote(`<<--`(a, b))), "") expect_identical(call_parse_type(quote(`<==`(a, b))), "") expect_identical(call_parse_type(quote(a > b)), ">") expect_identical(call_parse_type(quote(a >= b)), ">=") expect_identical(call_parse_type(quote(`>-`(a, b))), "") expect_identical(call_parse_type(quote(`>==`(a, b))), "") expect_identical(call_parse_type(quote(`=`(a, b))), "=") expect_identical(call_parse_type(quote(a == b)), "==") expect_identical(call_parse_type(quote(`=-`(a, b))), "") expect_identical(call_parse_type(quote(`==-`(a, b))), "") expect_identical(call_parse_type(quote(~a)), "~unary") expect_identical(call_parse_type(quote(a ~ b)), "~") expect_identical(call_parse_type(quote(`~-`(a))), "") expect_identical(call_parse_type(quote(a:b)), ":") expect_identical(call_parse_type(quote(a::b)), "::") expect_identical(call_parse_type(quote(a:::b)), ":::") expect_identical(call_parse_type(quote(a := b)), ":=") expect_identical(call_parse_type(quote(`:-`(a, b))), "") expect_identical(call_parse_type(quote(`::-`(a, b))), "") expect_identical(call_parse_type(quote(`:::-`(a, b))), "") expect_identical(call_parse_type(quote(`:=-`(a, b))), "") expect_identical(call_parse_type(quote(a | b)), "|") expect_identical(call_parse_type(quote(a || b)), "||") expect_identical(call_parse_type(quote(`|-`(a, b))), "") expect_identical(call_parse_type(quote(`||-`(a, b))), "") expect_identical(call_parse_type(quote(a & b)), "&") expect_identical(call_parse_type(quote(a && b)), "&&") expect_identical(call_parse_type(quote(`&-`(a, b))), "") expect_identical(call_parse_type(quote(`&&-`(a, b))), "") expect_identical_(call_parse_type(quote(!b)), "!") expect_identical_(call_parse_type(quote(`!!`(b))), "!!") expect_identical_(call_parse_type(quote(`!!!`(b))), "!!!") expect_identical_(call_parse_type(quote(`!-`(a, b))), "") expect_identical_(call_parse_type(quote(`!!-`(a, b))), "") expect_identical_(call_parse_type(quote(`!!!-`(a, b))), "") expect_identical_(call_parse_type(quote(!?b)), "!") expect_identical_(call_parse_type(quote(!!?b)), "!") expect_identical(call_parse_type(quote(+a)), "+unary") expect_identical(call_parse_type(quote(a + b)), "+") expect_identical(call_parse_type(quote(`+-`(a))), "") expect_identical(call_parse_type(quote(-a)), "-unary") expect_identical(call_parse_type(quote(a - b)), "-") expect_identical(call_parse_type(quote(`--`(a))), "") expect_identical(call_parse_type(quote(a * b)), "*") expect_identical(call_parse_type(quote(a / b)), "/") expect_identical(call_parse_type(quote(a ^ b)), "^") expect_identical(call_parse_type(quote(a$b)), "$") expect_identical(call_parse_type(quote(a@b)), "@") expect_identical(call_parse_type(quote(a[b])), "[") expect_identical(call_parse_type(quote(a[[b]])), "[[") expect_identical(call_parse_type(quote(`*-`(a, b))), "") expect_identical(call_parse_type(quote(`/-`(a, b))), "") expect_identical(call_parse_type(quote(`^-`(a, b))), "") expect_identical(call_parse_type(quote(`$-`(a, b))), "") expect_identical(call_parse_type(quote(`@-`(a, b))), "") expect_identical(call_parse_type(quote(`[-`(a, b))), "") expect_identical(call_parse_type(quote(`[[-`(a, b))), "") expect_identical(call_parse_type(quote(a %% b)), "%%") expect_identical(call_parse_type(quote(a %>% b)), "special") expect_identical(call_parse_type(quote(`%%-`(a))), "") expect_identical(call_parse_type(quote((a))), "(") expect_identical(call_parse_type(quote({ a })), "{") expect_identical(call_parse_type(quote(`(-`(a))), "") expect_identical(call_parse_type(quote(`{-`(a))), "") }) test_that("client library passes tests", { expect_true(TRUE) return("Disabled") # Avoid installing into system library by default skip_if(!nzchar(Sys.getenv("RLANG_FULL_TESTS"))) skip_on_cran() skip_on_ci() # Silence package building and embedded tests output temp <- file() sink(temp) on.exit({ sink() close(temp) }) # tools::testInstalledPackage() can't find the package if we install # to a temporary library if (FALSE) { old_libpaths <- .libPaths() temp_lib <- tempfile("temp_lib") dir.create(temp_lib) .libPaths(c(temp_lib, old_libpaths)) on.exit(.libPaths(old_libpaths), add = TRUE) } else { temp_lib <- .libPaths() } zip_file <- normalizePath(file.path("fixtures", "lib.zip")) src_path <- normalizePath(file.path("fixtures", "rlanglibtest")) # Set temporary dir to install and test the embedded package so we # don't have to clean leftovers files temp_test_dir <- tempfile("temp_test_dir") dir.create(temp_test_dir) old <- setwd(temp_test_dir) on.exit(setwd(old), add = TRUE) file.copy(src_path, temp_test_dir, overwrite = TRUE, recursive = TRUE) pkg_path <- file.path(temp_test_dir, "rlanglibtest") # We store the library as a zip to avoid VCS noise. Use # fixtures/Makefile to regenerate it. utils::unzip(zip_file, exdir = file.path(pkg_path, "src")) install.packages(pkg_path, repos = NULL, type = "source", lib = temp_lib, INSTALL_opts = "--install-tests", verbose = FALSE, quiet = TRUE ) result <- tools::testInstalledPackage("rlanglibtest", lib.loc = temp_lib, types = "test") expect_identical(result, 0L) }) node_list_clone_until <- function(node, sentinel) { .Call(ffi_test_node_list_clone_until, node, sentinel) } test_that("can clone-until with NULL list", { expect_identical(node_list_clone_until(NULL, pairlist()), list(NULL, NULL)) }) test_that("can clone-until with NULL sentinel", { node <- pairlist(a = 1, b = 2, c = 3) out <- node_list_clone_until(node, NULL) sentinel_out <- out[[2]] expect_reference(node_cddr(out[[1]]), sentinel_out) node_out <- out[[1]] expect_identical(node_out, pairlist(a = 1, b = 2, c = 3)) while (!is_null(node_out)) { expect_false(is_reference(node_out, node)) node_out <- node_cdr(node_out) node <- node_cdr(node) } }) test_that("returned sentinel and value are NULL if couldn't be found", { node <- pairlist(a = NULL) out <- node_list_clone_until(node, pairlist(NULL)) expect_false(is_reference(out[[1]], node)) expect_null(out[[1]]) expect_null(out[[2]]) }) test_that("can clone until sentinel", { node1 <- pairlist(a = 1, b = 2, c = 3) node2 <- node_cdr(node1) node3 <- node_cdr(node2) out <- node_list_clone_until(node1, node2) # No modification by reference of original list expect_false(is_reference(out, node1)) expect_true(is_reference(node_cdr(node1), node2)) expect_true(is_reference(node_cdr(node2), node3)) node_out <- out[[1]] expect_identical(node_out, pairlist(a = 1, b = 2, c = 3)) expect_false(is_reference(node_out, node1)) expect_true(is_reference(node_cdr(node_out), node2)) expect_true(is_reference(node_out, out[[2]])) }) get_attributes <- function(x) { .Call(ffi_attrib, x) } c_set_attribute <- function(x, name, value) { .Call(ffi_test_attrib_set, x, sym(name), value) } test_that("r_attrib_set() sets elements", { x <- list() out1 <- c_set_attribute(x, "foo", 1L) attrs1 <- get_attributes(out1) expect_identical(attrs1, pairlist(foo = 1L)) expect_false(is_reference(x, out1)) expect_null(get_attributes(x)) out2 <- c_set_attribute(out1, "bar", 2L) attrs2 <- get_attributes(out2) expect_identical(attrs2, pairlist(bar = 2L, foo = 1L)) expect_reference(get_attributes(out1), attrs1) expect_reference(node_cdr(attrs2), attrs1) }) test_that("r_attrib_set() zaps one element", { x <- structure(list(), foo = 1) attrs <- get_attributes(x) out <- c_set_attribute(x, "foo", NULL) expect_reference(get_attributes(x), attrs) expect_null(get_attributes(out)) }) test_that("r_attrib_set() zaps several elements", { x <- structure(list(), foo = 1, bar = 2, baz = 3) attrs <- get_attributes(x) out1 <- c_set_attribute(x, "foo", NULL) attrs1 <- get_attributes(out1) expect_identical(attrs1, pairlist(bar = 2, baz = 3)) expect_true(is_reference(attrs1, node_cdr(attrs))) expect_true(is_reference(node_cdr(attrs1), node_cddr(attrs))) out2 <- c_set_attribute(x, "bar", NULL) attrs2 <- get_attributes(out2) expect_identical(attrs2, pairlist(foo = 1, baz = 3)) expect_false(is_reference(attrs2, attrs)) expect_true(is_reference(node_cdr(attrs2), node_cddr(attrs))) out3 <- c_set_attribute(x, "baz", NULL) attrs3 <- get_attributes(out3) expect_identical(attrs3, pairlist(foo = 1, bar = 2)) expect_false(is_reference(attrs3, attrs)) expect_false(is_reference(node_cdr(attrs3), node_cdr(attrs))) }) test_that("can zap non-existing attributes", { x <- list() out <- c_set_attribute(x, "foo", NULL) expect_identical(out, list()) expect_false(is_reference(x, out)) x2 <- structure(list(), foo = 1, bar = 2) out2 <- c_set_attribute(x2, "baz", NULL) attrs2 <- get_attributes(out2) expect_identical(attrs2, pairlist(foo = 1, bar = 2)) expect_reference(attrs2, get_attributes(x2)) }) test_that("r_parse()", { expect_equal(.Call(ffi_test_parse, "{ foo; bar }"), quote({ foo; bar })) expect_error(.Call(ffi_test_parse, "foo; bar"), "single expression") expect_error(.Call(ffi_test_parse, "foo\n bar"), "single expression") }) test_that("r_parse_eval()", { foo <- "quux" expect_identical(r_parse_eval("toupper(foo)"), "QUUX") expect_error(r_parse_eval("toupper(foo); foo"), "single expression") }) test_that("failed parses are printed if `rlang__verbose_errors` is non-NULL", { expect_error( expect_output( regexp = "foo; bar", with_options(rlang__verbose_errors = TRUE, .Call(ffi_test_parse, "foo; bar") ) ), "single expression" ) }) test_that("r_deprecate_warn() warns once", { expect_warning(deprecate_warn("retired", "foo"), "retired") expect_no_warning(deprecate_warn("retired", "foo")) expect_warning(deprecate_warn("retired", "bar"), "retired") }) test_that("nms_are_duplicated() detects duplicates", { out <- nms_are_duplicated(letters) expect_identical(out, rep(FALSE, length(letters))) out <- nms_are_duplicated(c("a", "b", "a", "a", "c", "c")) expect_identical(out, c(FALSE, FALSE, TRUE, TRUE, FALSE, TRUE)) }) test_that("nms_are_duplicated() handles empty and missing names", { out <- nms_are_duplicated(c("a", NA, NA, "b", "", "", "a")) expect_identical(out, c(FALSE, FALSE, FALSE, FALSE, FALSE, FALSE, TRUE)) }) test_that("r_lgl_sum() handles NA", { expect_identical(r_lgl_sum(lgl(TRUE, FALSE), TRUE), 1L) expect_identical(r_lgl_sum(lgl(TRUE, FALSE), FALSE), 1L) expect_identical(r_lgl_sum(lgl(TRUE, NA), TRUE), 2L) expect_identical(r_lgl_sum(lgl(TRUE, NA), FALSE), 1L) }) test_that("r_lgl_which() handles NA", { expect_identical(r_lgl_which(lgl(TRUE, FALSE), TRUE), 1L) expect_identical(r_lgl_which(lgl(TRUE, FALSE), FALSE), 1L) expect_identical(r_lgl_which(lgl(TRUE, NA, FALSE, NA, TRUE, NA), TRUE), int(1L, NA, NA, 5L, NA)) expect_identical(r_lgl_which(lgl(TRUE, NA, FALSE, NA, TRUE, NA), FALSE), int(1L, 5L)) }) test_that("r_lgl_which() handles empty vectors", { expect_identical(r_lgl_which(lgl(), TRUE), int()) expect_identical(r_lgl_which(lgl(), FALSE), int()) expect_identical(r_lgl_which(named(lgl()), TRUE), named(int())) expect_identical(r_lgl_which(named(lgl()), FALSE), named(int())) }) test_that("r_lgl_which() propagates names", { x <- lgl(a = TRUE, b = FALSE, c = NA, d = FALSE, e = NA, f = TRUE) expect_named(r_lgl_which(x, na_propagate = TRUE), c("a", "c", "e", "f")) expect_named(r_lgl_which(x, na_propagate = FALSE), c("a", "f")) # Unnamed if input is unnamed expect_named(r_lgl_which(TRUE, na_propagate = TRUE), NULL) expect_named(r_lgl_which(lgl(TRUE, NA), na_propagate = TRUE), NULL) }) test_that("r_lgl_which() handles `NA` when propagation is disabled (#750)", { expect_identical(r_lgl_which(lgl(TRUE, FALSE, NA), FALSE), int(1)) expect_identical(r_lgl_which(lgl(TRUE, FALSE, NA, TRUE), FALSE), int(1, 4)) expect_identical(r_lgl_which(lgl(TRUE, NA, FALSE, NA, TRUE, FALSE, TRUE), FALSE), int(1, 5, 7)) }) test_that("r_pairlist_rev() reverses destructively", { x <- pairlist(1) y <- node_list_reverse(x) expect_true(is_reference(x, y)) x <- pairlist(1, 2) n1 <- x n2 <- node_cdr(x) y <- node_list_reverse(x) expect_identical(y, pairlist(2, 1)) expect_true(is_reference(x, n1)) expect_true(is_reference(y, n2)) expect_true(is_reference(node_cdr(y), n1)) expect_true(is_null(node_cdr(n1))) x <- pairlist(1, 2, 3) n1 <- x n2 <- node_cdr(x) n3 <- node_cddr(x) y <- node_list_reverse(x) expect_identical(y, pairlist(3, 2, 1)) expect_true(is_reference(x, n1)) expect_true(is_reference(y, n3)) expect_true(is_reference(node_cdr(y), n2)) expect_true(is_reference(node_cddr(y), n1)) expect_true(is_null(node_cdr(n1))) }) test_that("r_dict_put() hashes object", { dict <- new_dict(10L) expect_true(dict_put(dict, quote(foo), 1)) expect_true(dict_put(dict, quote(bar), 2)) expect_false(dict_put(dict, quote(foo), 2)) expect_false(dict_put(dict, quote(bar), 2)) }) test_that("key has reference semantics", { dict <- new_dict(10L) keys <- c("foo", "bar") # Fresh character vector returned by `[[` expect_true(dict_put(dict, keys[[1]], 1)) expect_true(dict_put(dict, keys[[1]], 2)) # CHARSXP are interned and unique expect_true(dict_put(dict, chr_get(keys[[1]], 0L), 3)) expect_false(dict_put(dict, chr_get(keys[[1]], 0L), 4)) }) test_that("key can be `NULL`", { dict <- new_dict(10L) expect_true(dict_put(dict, NULL, 1)) expect_false(dict_put(dict, NULL, 2)) }) test_that("collisions are handled", { dict <- new_dict(1L, prevent_resize = TRUE) expect_true(dict_put(dict, quote(foo), 1)) expect_true(dict_put(dict, quote(bar), 2)) expect_false(dict_put(dict, quote(bar), 3)) # Check that dictionary was not resized and we indeed have colliding # elements expect_equal(dict_size(dict), 1L) }) test_that("can check existing and retrieve values", { dict <- new_dict(10L) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) dict_put(dict, quote(foo), 3) expect_true(dict_has(dict, quote(foo))) expect_true(dict_has(dict, quote(bar))) expect_false(dict_has(dict, quote(baz))) expect_equal(dict_get(dict, quote(foo)), 1) expect_equal(dict_get(dict, quote(bar)), 2) expect_error(dict_get(dict, quote(baz)), "Can't find key") }) test_that("dictionary size is rounded to next power of 2", { dict <- new_dict(3L) expect_equal(dict_size(dict), 4L) }) test_that("can resize dictionary", { dict <- new_dict(3L) dict_resize(dict, 5L) expect_equal(dict_size(dict), 8L) }) test_that("dictionary grows", { dict <- new_dict(3L) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) dict_put(dict, quote(baz), 3) expect_equal(dict_size(dict), 4L) dict_put(dict, quote(quux), 4) expect_equal(dict_size(dict), 8L) }) test_that("can delete elements from dict", { dict <- new_dict(3L) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) expect_true(dict_del(dict, quote(bar))) expect_false(dict_has(dict, quote(bar))) expect_false(dict_del(dict, quote(bar))) expect_true(dict_del(dict, quote(foo))) expect_false(dict_has(dict, quote(foo))) expect_false(dict_del(dict, quote(foo))) }) test_that("can put again after del", { dict <- new_dict(3L) dict_put(dict, quote(foo), 1) dict_del(dict, quote(foo)) expect_true(dict_put(dict, quote(foo), 2)) expect_equal(dict_get(dict, quote(foo)), 2) # Used to fail because we deleted whole bucket instead of just a # node when this node appeared first in the bucket dict <- new_dict(3L) dict_put(dict, chr_get("1"), NULL) dict_put(dict, chr_get("foo"), NULL) unclass(dict)[[2]] dict_del(dict, chr_get("1")) unclass(dict)[[2]] dict_put(dict, chr_get("1"), "1") unclass(dict) expect_null(dict_get(dict, chr_get("foo"))) expect_equal(dict_get(dict, chr_get("1")), "1") }) test_that("can poke dict value", { dict <- new_dict(3L) expect_equal( dict_poke(dict, quote(foo), 1), sym(".__C_NULL__.") ) expect_equal( dict_get(dict, quote(foo)), 1 ) expect_equal( dict_poke(dict, quote(foo), 2), 1 ) expect_equal( dict_get(dict, quote(foo)), 2 ) }) test_that("can iterate over dict", { dict <- new_dict(10L) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) it <- new_dict_iterator(dict) expect_equal( dict_it_info(it), list( key = NULL, value = NULL, i = 0L, n = 16L ) ) exp_foo <- list(key = quote(foo), value = 1) exp_bar <- list(key = quote(bar), value = 2) expect_true(dict_it_next(it)) info1 <- dict_it_info(it)[1:2] expect_true(dict_it_next(it)) info2 <- dict_it_info(it)[1:2] if (as_string(info1$key) == "foo") { expect_equal(info1, exp_foo) expect_equal(info2, exp_bar) } else { expect_equal(info1, exp_bar) expect_equal(info2, exp_foo) } expect_false(dict_it_next(it)) expect_false(dict_it_next(it)) }) test_that("can iterate over dict (edge case)", { dict <- new_dict(1L, prevent_resize = TRUE) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) it <- new_dict_iterator(dict) expect_equal( dict_it_info(it), list( key = NULL, value = NULL, i = 0L, n = 1L ) ) exp_foo <- list(key = quote(foo), value = 1) exp_bar <- list(key = quote(bar), value = 2) expect_true(dict_it_next(it)) info1 <- dict_it_info(it)[1:2] expect_true(dict_it_next(it)) info2 <- dict_it_info(it)[1:2] if (as_string(info1$key) == "foo") { expect_equal(info1, exp_foo) expect_equal(info2, exp_bar) } else { expect_equal(info1, exp_bar) expect_equal(info2, exp_foo) } expect_false(dict_it_next(it)) expect_false(dict_it_next(it)) }) test_that("can transform dict to list and df-list", { dict <- new_dict(10L) dict_put(dict, quote(foo), 1) dict_put(dict, quote(bar), 2) out <- dict_as_df_list(dict) foo_first <- as_string(out$key[[1]]) == "foo" if (foo_first) { exp <- list( key = list(quote(foo), quote(bar)), value = list(1, 2) ) } else { exp <- list( key = list(quote(bar), quote(foo)), value = list(2, 1) ) } expect_equal(out, exp) out <- dict_as_list(dict) if (foo_first) { expect_equal(out, list(1, 2)) } else { expect_equal(out, list(2, 1)) } }) test_that("can preserve and unpreserve repeatedly", { old <- use_local_precious_list(TRUE) on.exit(use_local_precious_list(old)) x <- env() # Need to call rlang_precious_dict() repeatedly because it returns a # clone of the dict dict <- function() rlang_precious_dict() peek_stack <- function() dict_get(dict(), x) peek_count <- function() peek_stack()[[1]] expect_false(dict_has(dict(), x)) rlang_preserve(x) on.exit(while (dict_has(dict(), x)) { rlang_unpreserve(x) }) expect_true(dict_has(dict(), x)) stack <- peek_stack() expect_equal(stack[[1]], 1L) expect_equal(stack[[2]], x) rlang_preserve(x) expect_equal(peek_count(), 2L) rlang_unpreserve(x) expect_equal(peek_count(), 1L) rlang_unpreserve(x) expect_false(dict_has(dict(), x)) expect_error(rlang_unpreserve(x), "Can't unpreserve") }) test_that("alloc_data_frame() creates data frame", { df <- alloc_data_frame(2L, c("a", "b", "c"), c(13L, 14L, 16L)) expect_equal(nrow(df), 2) expect_equal(ncol(df), 3) expect_equal(class(df), "data.frame") expect_equal(names(df), c("a", "b", "c")) expect_equal(lapply(df, typeof), list(a = "integer", b = "double", c = "character")) expect_equal(lapply(df, length), list(a = 2, b = 2, c = 2)) df <- alloc_data_frame(0L, chr(), int()) expect_equal(nrow(df), 0) expect_equal(ncol(df), 0) expect_equal(names(df), chr()) df <- alloc_data_frame(3L, chr(), int()) expect_equal(nrow(df), 3) expect_equal(ncol(df), 0) expect_equal(names(df), chr()) }) test_that("r_list_compact() compacts lists", { expect_equal(list_compact(list()), list()) expect_equal(list_compact(list(1, 2)), list(1, 2)) expect_equal(list_compact(list(NULL)), list()) expect_equal(list_compact(list(NULL, 1)), list(1)) expect_equal(list_compact(list(1, NULL)), list(1)) expect_equal(list_compact(list(NULL, 1, NULL, 2, NULL)), list(1, 2)) }) test_that("can grow vectors", { x <- 1:3 out <- vec_resize(x, 5) expect_length(out, 5) expect_equal(x, 1:3) expect_equal(out[1:3], x) x <- as.list(1:3) out <- vec_resize(x, 5) expect_length(out, 5) expect_equal(x, as.list(1:3)) expect_equal(out[1:3], x) }) test_that("can shrink vectors", { x_atomic <- 1:3 + 0L out <- vec_resize(x_atomic, 2) expect_equal(out, 1:2) x_list <- as.list(1:3) out <- vec_resize(x_list, 2) expect_equal(out, as.list(1:2)) # Uses truelength to modify in place on recent R if (getRversion() >= "3.4.0") { expect_equal(x_atomic, 1:2) expect_equal(x_list, as.list(1:2)) } }) test_that("can grow and shrink dynamic arrays", { arr <- new_dyn_array(1, 3) expect_equal( dyn_info(arr), list( count = 0, capacity = 3, growth_factor = 2, type = "raw", elt_byte_size = 1 ) ) dyn_push_back_bool(arr, FALSE) dyn_push_back_bool(arr, TRUE) dyn_push_back_bool(arr, TRUE) expect_equal( dyn_info(arr), list( count = 3, capacity = 3, growth_factor = 2, type = "raw", elt_byte_size = 1 ) ) dyn_push_back_bool(arr, FALSE) expect_equal( dyn_info(arr)[1:2], list( count = 4, capacity = 6 ) ) dyn_push_back_bool(arr, FALSE) dyn_push_back_bool(arr, TRUE) expect_equal( dyn_info(arr)[1:2], list( count = 6, capacity = 6 ) ) exp <- bytes(0, 1, 1, 0, 0, 1) expect_equal(arr[[2]], exp) dyn_pop_back(arr) expect_equal( dyn_info(arr)[1:2], list( count = 5, capacity = 6 ) ) expect_equal(arr[[2]], exp) }) test_that("can resize dynamic arrays", { arr <- new_dyn_array(1, 4) dyn_push_back_bool(arr, TRUE) dyn_push_back_bool(arr, FALSE) dyn_push_back_bool(arr, TRUE) dyn_resize(arr, 2L) expect_equal( dyn_info(arr), list( count = 2, capacity = 2, growth_factor = 2, type = "raw", elt_byte_size = 1 ) ) expect_equal(arr[[2]], bytes(1, 0)) dyn_resize(arr, 4L) expect_equal( dyn_info(arr)[1:2], list( count = 2, capacity = 4 ) ) expect_equal(arr[[2]][1:2], bytes(1, 0)) expect_equal(dyn_unwrap(arr), bytes(1, 0)) }) test_that("dynamic arrays with multiple bytes per elements are resized correctly", { arr <- new_dyn_array(4, 4) expect_length(arr[[2]], 16) dyn_resize(arr, 8L) expect_length(arr[[2]], 32) arr <- new_dyn_vector("integer", 4) expect_length(arr[[2]], 4) dyn_resize(arr, 8L) expect_length(arr[[2]], 8) }) test_that("can shrink and grow dynamic atomic vectors", { arr <- new_dyn_vector("double", 3) expect_equal( dyn_info(arr), list( count = 0, capacity = 3, growth_factor = 2, type = "double", elt_byte_size = 8 ) ) dyn_push_back(arr, 1) dyn_push_back(arr, 2) dyn_push_back(arr, 3) expect_equal( dyn_info(arr)[1:2], list( count = 3, capacity = 3 ) ) expect_identical(arr[[2]], dbl(1:3)) dyn_push_back(arr, 4) expect_equal( dyn_info(arr), list( count = 4, capacity = 6, growth_factor = 2, type = "double", elt_byte_size = 8 ) ) expect_identical(arr[[2]][1:4], dbl(1:4)) expect_identical(dyn_unwrap(arr), dbl(1:4)) }) test_that("can shrink and grow dynamic barrier vectors", { arr <- new_dyn_vector("list", 3) expect_equal( dyn_info(arr)[1:4], list( count = 0, capacity = 3, growth_factor = 2, type = "list" ) ) dyn_push_back(arr, 1) dyn_push_back(arr, 2) dyn_push_back(arr, 3) expect_equal( dyn_info(arr)[1:2], list( count = 3, capacity = 3 ) ) expect_identical(arr[[2]], as.list(dbl(1:3))) dyn_push_back(arr, 4) expect_equal( dyn_info(arr)[1:4], list( count = 4, capacity = 6, growth_factor = 2, type = "list" ) ) expect_identical(arr[[2]][1:4], as.list(dbl(1:4))) expect_identical(dyn_unwrap(arr), as.list(dbl(1:4))) expect_equal(dyn_pop_back(arr), 4) expect_equal(dyn_pop_back(arr), 3) expect_equal(dyn_count(arr), 2) }) test_that("can get, push, and poke elements", { arr <- new_dyn_vector("logical", 3) dyn_push_back(arr, TRUE) dyn_lgl_push_back(arr, TRUE) expect_equal(dyn_lgl_get(arr, 0L), TRUE) expect_equal(dyn_lgl_get(arr, 1L), TRUE) dyn_lgl_poke(arr, 0L, FALSE) expect_equal(dyn_lgl_get(arr, 0L), FALSE) arr <- new_dyn_vector("integer", 3) dyn_push_back(arr, 1L) dyn_int_push_back(arr, 2L) expect_equal(dyn_int_get(arr, 0L), 1L) expect_equal(dyn_int_get(arr, 1L), 2L) dyn_int_poke(arr, 0L, 10L) expect_equal(dyn_int_get(arr, 0L), 10L) arr <- new_dyn_vector("double", 3) dyn_push_back(arr, 1.5) dyn_dbl_push_back(arr, 2.5) expect_equal(dyn_dbl_get(arr, 0L), 1.5) expect_equal(dyn_dbl_get(arr, 1L), 2.5) dyn_dbl_poke(arr, 0L, 3.5) expect_equal(dyn_dbl_get(arr, 0L), 3.5) arr <- new_dyn_vector("complex", 3) dyn_push_back(arr, 0i) dyn_cpl_push_back(arr, 1i) expect_equal(dyn_cpl_get(arr, 0L), 0i) expect_equal(dyn_cpl_get(arr, 1L), 1i) dyn_cpl_poke(arr, 0L, 2i) expect_equal(dyn_cpl_get(arr, 0L), 2i) arr <- new_dyn_vector("raw", 3) dyn_push_back(arr, as.raw(1)) dyn_raw_push_back(arr, as.raw(2)) expect_equal(dyn_raw_get(arr, 0L), as.raw(1)) expect_equal(dyn_raw_get(arr, 1L), as.raw(2)) dyn_raw_poke(arr, 0L, as.raw(3)) expect_equal(dyn_raw_get(arr, 0L), as.raw(3)) arr <- new_dyn_vector("character", 3) foo <- chr_get("foo", 0L) bar <- chr_get("bar", 0L) dyn_push_back(arr, foo) dyn_chr_push_back(arr, bar) expect_true(identical(dyn_chr_get(arr, 0L), foo)) expect_true(identical(dyn_chr_get(arr, 1L), bar)) baz <- chr_get("bar", 0L) dyn_chr_poke(arr, 0L, baz) expect_true(identical(dyn_chr_get(arr, 0L), baz)) arr <- new_dyn_vector("list", 3) dyn_push_back(arr, 1:2) dyn_list_push_back(arr, 3:4) expect_equal(dyn_list_get(arr, 0L), 1:2) expect_equal(dyn_list_get(arr, 1L), 3:4) dyn_list_poke(arr, 0L, 11:12) expect_equal(dyn_list_get(arr, 0L), 11:12) }) test_that("can create dynamic list-of", { lof <- new_dyn_list_of("integer", 5, 2) info <- lof_info(lof) expect_equal( info[c( "count", "growth_factor", "arrays", "width", "capacity", "type", "elt_byte_size" )], list( count = 0, growth_factor = 2, arrays = list(), width = 2, capacity = 5, type = "integer", elt_byte_size = 4 ) ) expect_length(lof[[2]], 5 * 2) }) test_that("can push to dynamic list-of", { lof <- new_dyn_list_of("integer", 2, 2) info <- lof_info(lof) expect_equal(lof_unwrap(lof), list()) lof_push_back(lof) expect_equal(lof_unwrap(lof), list(int())) lof_push_back(lof) expect_equal(lof_unwrap(lof), list(int(), int())) lof_push_back(lof) expect_equal(lof_unwrap(lof), list(int(), int(), int())) }) test_that("internal error is thrown with OOB dyn-lof access", { skip_if(!compiled_by_gcc()) lof <- new_dyn_list_of("integer", 3, 2) expect_snapshot({ err(lof_arr_push_back(lof, 0, 42L), "Location 0 does not exist") err(lof_arr_push_back(lof, 10, 42L), "Location 10 does not exist") }) }) test_that("can push to arrays in dynamic list-of", { lof <- new_dyn_list_of("integer", 3, 2) lof_push_back(lof) lof_push_back(lof) lof_push_back(lof) lof_push_back(lof) expect_error(lof_arr_push_back(lof, 0, 42), "type double") lof_arr_push_back(lof, 0, 42L) expect_equal( lof_unwrap(lof), list(42L, int(), int(), int()) ) lof_arr_push_back(lof, 3, 42L) expect_equal( lof_unwrap(lof), list(42L, int(), int(), 42L) ) # Trigger resizes of the reserve lof_arr_push_back(lof, 0, 43L) lof_arr_push_back(lof, 0, 44L) expect_equal( lof_unwrap(lof), list(42:44, int(), int(), 42L) ) lof_arr_push_back(lof, 2, 42L) lof_arr_push_back(lof, 2, 43L) lof_arr_push_back(lof, 2, 44L) expect_equal( lof_unwrap(lof), list(42:44, int(), 42:44, 42L) ) # Trigger resize in the moved array lof_arr_push_back(lof, 3, 43L) lof_arr_push_back(lof, 3, 44L) expect_equal( lof_unwrap(lof), list(42:44, int(), 42:44, 42:44) ) }) test_that("sexp iterator visits in full order", { it_dirs <- function(snapshot) { dirs <- sapply(snapshot, `[[`, "dir") dirs <- table(dirs) nms <- names(dirs) dim(dirs) <- NULL set_names(dirs, nms) } expect_symmetric_dirs <- function(s) { dirs <- it_dirs(s) expect_equal(s[["incoming"]], s[["outgoing"]]) } expect_symmetric_dirs(sexp_iterate(list(1), list)) expect_symmetric_dirs(sexp_iterate(list(1, 2), list)) expect_symmetric_dirs(sexp_iterate(list(1, list()), list)) expect_symmetric_dirs(sexp_iterate(list(1, list(2)), list)) expect_symmetric_dirs(sexp_iterate(list(emptyenv(), emptyenv()), list)) }) test_that("addresses have hexadecimal prefix `0x` (#1135)", { expect_equal( substring(obj_address(NULL), 1, 2), "0x" ) }) test_that("can re-encode a character vector of various encodings (r-lib/vctrs#553)", { x <- unlist(test_encodings(), use.names = FALSE) results <- r_obj_encode_utf8(x) expect_utf8_encoded(results) }) test_that("re-encodes all encodings to UTF-8", { for (enc in test_encodings()) { expect_utf8_encoded(r_obj_encode_utf8(enc)) } }) test_that("can re-encode a list containing character vectors with different encodings", { results <- r_obj_encode_utf8(test_encodings()) results <- unlist(results) expect_utf8_encoded(results) }) test_that("re-encoding fails purposefully with any bytes", { bytes <- rawToChar(as.raw(0xdc)) Encoding(bytes) <- "bytes" expect_snapshot( (expect_error(r_obj_encode_utf8(bytes))) ) for (enc in test_encodings()) { expect_snapshot( (expect_error(r_obj_encode_utf8(c(enc, bytes)))) ) } }) test_that("attributes are kept when re-encoding (r-lib/vctrs#599)", { encs <- test_encodings() x <- c(encs$utf8, encs$latin1) x <- structure(x, names = c("a", "b"), extra = 1) expect_identical(attributes(r_obj_encode_utf8(x)), attributes(x)) }) test_that("re-encoding is robust against scalar types contained in lists (r-lib/vctrs#633)", { x <- list(a = z ~ y, b = z ~ z) expect_identical(r_obj_encode_utf8(x), x) }) test_that("re-encoding can still occur even if a scalar type is in a list", { x <- list(a = z ~ y, b = test_encodings()$latin1) expect_utf8_encoded(r_obj_encode_utf8(x)$b) }) test_that("re-encoding occurs inside scalars contained in a list", { encs <- test_encodings() x <- list( structure(list(x = encs$latin1), class = "scalar_list") ) result <- r_obj_encode_utf8(x) expect_utf8_encoded(result[[1]]$x) }) test_that("re-encoding treats data frames elements of lists as lists (r-lib/vctrs#1233)", { encs <- test_encodings() a <- c(encs$utf8, encs$latin1) df <- data.frame(a = a, b = 1:2, stringsAsFactors = FALSE) x <- list(df) result <- r_obj_encode_utf8(x) expect_utf8_encoded(result[[1]]$a) }) test_that("attributes are re-encoded", { utf8 <- test_encodings()$utf8 latin1 <- test_encodings()$latin1 a <- structure(1, enc = utf8) b <- structure(1, enc = latin1) c <- structure(1, enc1 = utf8, enc2 = list(latin1), enc3 = latin1) x <- list(a, b, c) result <- r_obj_encode_utf8(x) a_enc <- attr(result[[1]], "enc") b_enc <- attr(result[[2]], "enc") c_enc1 <- attr(result[[3]], "enc1") c_enc2 <- attr(result[[3]], "enc2")[[1]] c_enc3 <- attr(result[[3]], "enc3") expect_utf8_encoded(a_enc) expect_utf8_encoded(b_enc) expect_utf8_encoded(c_enc1) expect_utf8_encoded(c_enc2) expect_utf8_encoded(c_enc3) }) test_that("attributes are re-encoded recursively", { utf8 <- test_encodings()$utf8 latin1 <- test_encodings()$latin1 nested <- structure(1, latin1 = latin1) x <- structure(2, nested = nested, foo = 1, latin1 = latin1) result <- r_obj_encode_utf8(x) attrib <- attributes(result) attrib_nested <- attributes(attrib$nested) expect_utf8_encoded(attrib$latin1) expect_utf8_encoded(attrib_nested$latin1) }) test_that("NAs aren't re-encoded to 'NA' (r-lib/vctrs#1291)", { utf8 <- c(NA, test_encodings()$utf8) latin1 <- c(NA, test_encodings()$latin1) result1 <- r_obj_encode_utf8(utf8) result2 <- r_obj_encode_utf8(latin1) expect_identical(result1[[1]], NA_character_) expect_identical(result2[[1]], NA_character_) expect_utf8_encoded(result1[[2]]) expect_utf8_encoded(result2[[2]]) }) local({ df <- c_tests() for (i in seq_len(nrow(df))) { desc <- df[[1]][[i]] ptr <- df[[2]][[i]] test_that(desc, { expect_true(run_c_test(ptr)) }) } }) test_that("r_stop_internal() mentions expected namespace", { fn <- function() { .Call(get("ffi_test_stop_internal", envir = asNamespace("rlang")), "Message.") } environment(fn) <- ns_env("base") expect_error(fn(), "detected in the base package") environment(fn) <- ns_env("utils") expect_error(fn(), "detected in the utils package") })