# ------------------------------------------------------------------------------ # slide_index2_*() test_that("slide_index2_*() works", { expect_identical(slide_index2_vec(1L, 1L, 1, ~.x + .y), 2L) expect_identical(slide_index2_int(1L, 1L, 1, ~.x + .y), 2L) }) test_that("slide_index2_*() retains names of x", { expect_identical(slide_index2_vec(c(x = 1L), c(y = 1L), 1, ~.x + .y), c(x = 2L)) expect_identical(slide_index2_int(c(x = 1L), c(y = 1L), 1, ~.x + .y), c(x = 2L)) }) test_that("slide_index2_vec() can simplify automatically", { expect_identical(slide_index2_vec(1, 2, 1, ~.x + .y, .ptype = NULL), 3) }) test_that("slide_index2_*() errors if it can't simplify", { fn <- function(x, y) if (x == 1L) {1} else {"hi"} expect_snapshot({ (expect_error( slide_index2_vec(1:2, 1:2, 1:2, fn, .ptype = NULL), class = "vctrs_error_incompatible_type" )) }) expect_snapshot({ (expect_error( slide_index2_int(1:2, 1:2, 1:2, fn), class = "vctrs_error_incompatible_type" )) }) }) # ------------------------------------------------------------------------------ # suffix tests test_that("slide_index2_int() works", { expect_equal(slide_index2_int(1L, 1L, 1, ~.x), 1L) }) test_that("slide_index2_int() can coerce", { expect_equal(slide_index2_int(1, 1, 1, ~.x), 1L) }) test_that("slide_index2_dbl() works", { expect_equal(slide_index2_dbl(1, 1, 1, ~.x), 1) }) test_that("slide_index2_dbl() can coerce", { expect_equal(slide_index2_dbl(1L, 1, 1, ~.x), 1) }) test_that("slide_index2_chr() works", { expect_equal(slide_index2_chr("x", 1, 1, ~.x), "x") }) test_that("slide_index2_chr() cannot coerce", { expect_snapshot({ (expect_error(slide_index2_chr(1, 1, 1, ~.x), class = "vctrs_error_incompatible_type")) }) }) test_that("slide_index2_lgl() works", { expect_equal(slide_index2_lgl(TRUE, 1, 1, ~.x), TRUE) }) test_that("slide_index2_lgl() can coerce", { expect_equal(slide_index2_lgl(1, 1, 1, ~.x), TRUE) }) # ------------------------------------------------------------------------------ # data frame suffix tests test_that("slide_index2_dfr() works", { expect_identical( slide_index2_dfr( 1:2, 1:2, 1:2, ~new_data_frame(list(x = list(.x), y = list(.y))), .before = 1 ), data_frame( x = list(1L, 1:2), y = list(1L, 1:2) ) ) }) test_that("pslide_index_dfc() works", { x <- 1:2 fn <- function(x, y) { if (length(x) == 1) { data.frame(x1 = x, y1 = y) } else { data.frame(x2 = x, y2 = y) } } expect_identical( slide_index2_dfc( 1:2, 1:2, 1:2, fn, .before = 1 ), data.frame( x1 = c(1L, 1L), y1 = c(1L, 1L), x2 = 1:2, y2 = 1:2 ) ) }) # ------------------------------------------------------------------------------ # .ptype test_that("`.ptype = NULL` is size stable (#78)", { expect_length(slide_index2_vec(1:4, 1:4, 1:4, ~1, .before = 1, .complete = TRUE), 4) }) test_that("size 0 inputs returns .ptype", { expect_identical(slide_index2_vec(integer(), integer(), integer(), ~.x, .ptype = NULL), NULL) expect_identical(slide_index2_vec(integer(), integer(), integer(), ~.x, .ptype = double()), double()) }) test_that("`slide_index2_vec()` falls back to `c()` method as required", { local_c_foobar() expect_identical(slide_index2_vec(1:3, 1:3, 1:3, ~foobar(.x), .ptype = foobar(integer())), foobar(1:3)) expect_condition(slide_index2_vec(1:3, 1:3, 1:3, ~foobar(.x), .ptype = foobar(integer())), class = "slider_c_foobar") expect_identical(slide_index2_vec(1:3, 1:3, 1:3, ~foobar(.x)), foobar(1:3)) expect_condition(slide_index2_vec(1:3, 1:3, 1:3, ~foobar(.x)), class = "slider_c_foobar") }) # ------------------------------------------------------------------------------ # .complete test_that(".complete produces typed `NA` values", { expect_identical(slide_index2_int(1:3, 1:3, 1:3, ~1L, .before = 1, .complete = TRUE), c(NA, 1L, 1L)) expect_identical(slide_index2_dbl(1:3, 1:3, 1:3, ~1, .before = 1, .complete = TRUE), c(NA, 1, 1)) expect_identical(slide_index2_chr(1:3, 1:3, 1:3, ~"1", .before = 1, .complete = TRUE), c(NA, "1", "1")) expect_identical(slide_index2_vec(1:3, 1:3, 1:3, ~1, .before = 1, .complete = TRUE), c(NA, 1, 1)) expect_identical(slide_index2_vec(1:3, 1:3, 1:3, ~1, .before = 1, .complete = TRUE, .ptype = integer()), c(NA, 1L, 1L)) })