# ------------------------------------------------------------------------------ # type / size strict-ness test_that("size of each `.f` result must be 1", { expect_snapshot({ (expect_error(hop_index_vec(1, 1, 1, 1, ~c(.x, 1)))) }) }) test_that("inner type is allowed to be different", { expect_equal( hop_index_vec(1:2, 1:2, 1:2, 1:2, ~if (.x == 1L) {list(1)} else {list("hi")}, .ptype = list()), list(1, "hi") ) }) test_that("inner type can be restricted with list_of", { expect_snapshot({ (expect_error( hop_index_vec(1:2, 1:2, 1:2, 1:2, ~if (.x == 1L) {list_of(1)} else {list_of("hi")}, .ptype = list_of(.ptype = double())), class = "vctrs_error_incompatible_type" )) }) }) # ------------------------------------------------------------------------------ # .ptype test_that(".ptype is respected", { expect_equal(hop_index_vec(1, 1, 1, 1, ~.x), 1) expect_equal(hop_index_vec(1, 1, 1, 1, ~.x, .ptype = int()), 1L) expect_error(hop_index_vec(1, 1, 1, 1, ~.x + .5, .ptype = integer()), class = "vctrs_error_cast_lossy") }) test_that("`.ptype = NULL` results in 'guessed' .ptype", { expect_equal( hop_index_vec(1, 1, 1, 1, ~.x, .ptype = NULL), hop_index_vec(1, 1, 1, 1, ~.x, .ptype = dbl()) ) }) test_that("`.ptype = NULL` fails if no common type is found", { expect_snapshot({ (expect_error( hop_index_vec(1:2, 1:2, 1:2, 1:2, ~ifelse(.x == 1L, "hello", 1), .ptype = NULL), class = "vctrs_error_incompatible_type" )) }) }) test_that("`.ptype = NULL` validates that element lengths are 1", { expect_snapshot({ (expect_error(hop_index_vec(1:2, 1:2, 1:2, 1:2, ~if(.x == 1L) {1:2} else {1}, .ptype = NULL))) (expect_error(hop_index_vec(1:2, 1:2, 1:2, 1:2, ~if(.x == 1L) {NULL} else {2}, .ptype = NULL))) }) }) test_that("size 0 `.starts` / `.stops` returns size 0 `.ptype`", { expect_identical( hop_index_vec(1:5, 1:5, integer(), integer(), ~.x, .ptype = NULL), NULL ) expect_identical( hop_index_vec(1:5, 1:5, integer(), integer(), ~.x, .ptype = double()), double() ) }) test_that("`.ptype = NULL` returns `NULL` with one size 0 and one size 1 starts / stops", { expect_equal( hop_index_vec(integer(), integer(), integer(), 1, ~.x, .ptype = NULL), NULL ) expect_equal( hop_index_vec(integer(), integer(), 1, integer(), ~.x, .ptype = NULL), NULL ) }) test_that("`.ptype = NULL` errors with non recyclable starts/stops", { expect_snapshot({ (expect_error( hop_index_vec(integer(), integer(), integer(), 1:2, ~.x, .ptype = NULL), class = "vctrs_error_incompatible_size" )) }) }) test_that(".ptypes with a vec_proxy() are restored to original type", { expect_s3_class( hop_index_vec(Sys.Date() + 1:5, 1:5, 1:5, 1:5, ~.x, .ptype = as.POSIXlt(Sys.Date())), "POSIXlt" ) }) test_that("can return a matrix and rowwise bind the results together", { mat <- matrix(1, ncol = 2) expect_equal( hop_index_vec(1:5, 1:5, 1:5, 1:5, ~mat, .ptype = mat), rbind(mat, mat, mat, mat, mat) ) }) test_that("`hop_index_vec()` falls back to `c()` method as required", { local_c_foobar() expect_identical(hop_index_vec(1:3, 1:3, 1:3, 1:3, ~foobar(.x), .ptype = foobar(integer())), foobar(1:3)) expect_condition(hop_index_vec(1:3, 1:3, 1:3, 1:3, ~foobar(.x), .ptype = foobar(integer())), class = "slider_c_foobar") expect_identical(hop_index_vec(1:3, 1:3, 1:3, 1:3, ~foobar(.x)), foobar(1:3)) expect_condition(hop_index_vec(1:3, 1:3, 1:3, 1:3, ~foobar(.x)), class = "slider_c_foobar") }) # ------------------------------------------------------------------------------ # input names test_that("names exist on inner sliced elements", { names <- letters[1:5] x <- set_names(1:5, names) exp <- as.list(names) i <- vec_seq_along(x) expect_equal(hop_index_vec(x, i, i, i, ~list(names(.x))), exp) }) test_that("names are never placed on the output", { names <- letters[1:5] x <- set_names(1:5, names) i <- vec_seq_along(x) expect_null(names(hop_index_vec(x, i, i, i, ~.x))) expect_null(names(hop_index_vec(x, i, i, i, ~.x, .ptype = int()))) })