# ------------------------------------------------------------------------------ # year_quarter_day() test_that("helper can create different precisions", { x <- year_quarter_day(2019, 1:2) expect_identical(get_year(x), c(2019L, 2019L)) expect_identical(get_quarter(x), 1:2) x <- year_quarter_day(2019, 1:2, 3) expect_identical(get_day(x), c(3L, 3L)) }) test_that("can create subsecond precision calendars", { x <- year_quarter_day(2019, 1, 1, 0, 0, 0, 1, subsecond_precision = "millisecond") expect_identical(get_millisecond(x), 1L) x <- year_quarter_day(2019, 1, 1, 0, 0, 0, 1, subsecond_precision = "microsecond") expect_identical(get_microsecond(x), 1L) x <- year_quarter_day(2019, 1, 1, 0, 0, 0, 1, subsecond_precision = "nanosecond") expect_identical(get_nanosecond(x), 1L) }) test_that("validates value ranges", { expect_snapshot(error = TRUE, year_quarter_day(50000)) expect_snapshot(error = TRUE, year_quarter_day(2020, 5)) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 93)) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 24)) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 1, 60)) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 1, 1, 60)) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 1, 1, 1, 1000, subsecond_precision = "millisecond")) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 1, 1, 1, 1000000, subsecond_precision = "microsecond")) expect_snapshot(error = TRUE, year_quarter_day(2020, 1, 1, 1, 1, 1, 1000000000, subsecond_precision = "nanosecond")) }) test_that("can get the last day of the quarter", { x <- year_quarter_day(2019, 1:2, "last") expect_identical(get_day(x), c(90L, 91L)) }) test_that("`NA` propagates through 'last'", { x <- year_quarter_day(2019, c(1, NA)) x <- set_day(x, "last") expect_identical(get_day(x), c(90L, NA)) }) test_that("ignores values past first `NULL`", { expect_identical(year_quarter_day(2019, day = 2), year_quarter_day(2019)) }) test_that("NA values propagate", { x <- year_quarter_day(2019, 1:3, c(NA, 2, 3), c(3, 4, NA)) expect_identical(is.na(x), c(TRUE, FALSE, TRUE)) }) # ------------------------------------------------------------------------------ # vec_ptype() test_that("ptype is correct", { base <- year_quarter_day(1) ptype <- year_quarter_day(integer()) for (precision in precision_names()) { if (precision == "month" || precision == "week") { next } x <- calendar_widen(base, precision) expect <- calendar_widen(ptype, precision) expect_identical(vec_ptype(x), expect) } }) # ------------------------------------------------------------------------------ # vec_proxy() / vec_restore() test_that("proxy is a data frame", { expect_identical(vec_proxy(year_quarter_day(2019)), data_frame(year = 2019L)) expect_identical(vec_proxy(year_quarter_day(2019, 1)), data_frame(year = 2019L, quarter = 1L)) }) test_that("proxy has names on `year`", { x <- set_names(year_quarter_day(2019, 1), "nm") year <- vec_proxy(x)$year expect_named(year, "nm") }) test_that("restore works", { to <- year_quarter_day(2019, 1:4) proxy <- vec_slice(vec_proxy(to), 1:2) expect_identical(vec_restore(proxy, to), year_quarter_day(2019, 1:2)) }) # ------------------------------------------------------------------------------ # vec_ptype_full() test_that("full ptype is correct", { expect_snapshot_output(vec_ptype_full(year_quarter_day(2019))) expect_snapshot_output(vec_ptype_full(year_quarter_day(2019, start = 2))) expect_snapshot_output(vec_ptype_full(year_quarter_day(2019, 1, 1))) expect_snapshot_output(vec_ptype_full(year_quarter_day(2019, 1, 1, 1, 1, 1, 1, subsecond_precision = "nanosecond"))) expect_snapshot_output(vec_ptype_full(year_quarter_day(2019, 1, 92))) }) # ------------------------------------------------------------------------------ # vec_ptype_abbr() test_that("abbreviated ptype is correct", { expect_snapshot_output(vec_ptype_abbr(year_quarter_day(2019))) expect_snapshot_output(vec_ptype_abbr(year_quarter_day(2019, start = 2))) expect_snapshot_output(vec_ptype_abbr(year_quarter_day(2019, 1, 1))) expect_snapshot_output(vec_ptype_abbr(year_quarter_day(2019, 1, 1, 1, 1, 1, 1, subsecond_precision = "nanosecond"))) expect_snapshot_output(vec_ptype_abbr(year_quarter_day(2019, 1, 92))) }) # ------------------------------------------------------------------------------ # set_*() test_that("setters work", { x <- year_quarter_day(1L) x <- set_year(x, 2L) expect_identical(get_year(x), 2L) x <- set_quarter(x, 1L) expect_identical(get_quarter(x), 1L) x <- set_day(x, 2L) expect_identical(get_day(x), 2L) x <- set_hour(x, 3L) expect_identical(get_hour(x), 3L) x <- set_minute(x, 4L) expect_identical(get_minute(x), 4L) x <- set_second(x, 5L) expect_identical(get_second(x), 5L) ms <- set_millisecond(x, 6L) expect_identical(get_millisecond(ms), 6L) us <- set_microsecond(x, 7L) expect_identical(get_microsecond(us), 7L) ns <- set_nanosecond(x, 8L) expect_identical(get_nanosecond(ns), 8L) }) test_that("setters propagate all missings", { x <- year_quarter_day(2019, c(1, NA, 3)) x <- set_day(x, c(NA, 2, 4)) expect_identical(vec_detect_missing(x), c(TRUE, TRUE, FALSE)) }) test_that("setters recycling works both ways", { x <- year_quarter_day(2019) x <- set_quarter(x, 1:2) expect_identical(x, year_quarter_day(2019, 1:2)) x <- set_day(x, 1) expect_identical(x, year_quarter_day(2019, 1:2, 1)) expect_snapshot(error = TRUE, { x <- year_quarter_day(1:2) y <- 1:3 set_quarter(x, y) }) }) test_that("setters require integer `value`", { x <- year_quarter_day(2019, 1, 2, 3, 4, 5) expect_snapshot(error = TRUE, { set_year(x, 1.5) }) expect_snapshot(error = TRUE, { set_quarter(x, 1.5) }) expect_snapshot(error = TRUE, { set_day(x, 1.5) }) expect_snapshot(error = TRUE, { set_hour(x, 1.5) }) expect_snapshot(error = TRUE, { set_minute(x, 1.5) }) expect_snapshot(error = TRUE, { set_second(x, 1.5) }) expect_snapshot(error = TRUE, { set_millisecond(x, 1.5) }) expect_snapshot(error = TRUE, { set_microsecond(x, 1.5) }) expect_snapshot(error = TRUE, { set_nanosecond(x, 1.5) }) }) test_that("setters check `value` range", { x <- year_quarter_day(2019, 1, 2, 3, 4, 5) expect_snapshot(error = TRUE, { set_year(x, 100000) }) expect_snapshot(error = TRUE, { set_quarter(x, 5) }) expect_snapshot(error = TRUE, { set_day(x, 93) }) expect_snapshot(error = TRUE, { set_hour(x, 24) }) expect_snapshot(error = TRUE, { set_minute(x, 60) }) expect_snapshot(error = TRUE, { set_second(x, 60) }) expect_snapshot(error = TRUE, { set_millisecond(x, -1) }) expect_snapshot(error = TRUE, { set_microsecond(x, -1) }) expect_snapshot(error = TRUE, { set_nanosecond(x, -1) }) }) test_that("setters require minimum precision", { expect_snapshot(error = TRUE, { set_day(year_quarter_day(year = 1), 1) }) expect_snapshot(error = TRUE, { set_hour(year_quarter_day(year = 1, quarter = 2), 1) }) expect_snapshot(error = TRUE, { set_minute(year_quarter_day(year = 1, quarter = 2, day = 3), 1) }) expect_snapshot(error = TRUE, { set_second(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4), 1) }) expect_snapshot(error = TRUE, { set_millisecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5), 1) }) expect_snapshot(error = TRUE, { set_microsecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5), 1) }) expect_snapshot(error = TRUE, { set_nanosecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5), 1) }) }) test_that("setters require correct subsecond precision", { expect_snapshot(error = TRUE, { set_millisecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "microsecond"), 1) }) expect_snapshot(error = TRUE, { set_millisecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "nanosecond"), 1) }) expect_snapshot(error = TRUE, { set_microsecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "millisecond"), 1) }) expect_snapshot(error = TRUE, { set_microsecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "nanosecond"), 1) }) expect_snapshot(error = TRUE, { set_nanosecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "millisecond"), 1) }) expect_snapshot(error = TRUE, { set_nanosecond(year_quarter_day(year = 1, quarter = 2, day = 3, hour = 4, minute = 5, second = 6, subsecond = 7, subsecond_precision = "microsecond"), 1) }) }) test_that("setters retain names", { x <- year_quarter_day(2019) x <- set_names(x, "foo") expect_named(set_quarter(x, 2), "foo") }) test_that("setting with named `value` strips its names", { x <- year_quarter_day(2019) x <- set_quarter(x, set_names(1L, "x")) expect_named(field(x, "quarter"), NULL) }) # ------------------------------------------------------------------------------ # format() test_that("default formats are correct", { expect_snapshot(format(year_quarter_day(2019))) expect_snapshot(format(year_quarter_day(2019, 1))) expect_snapshot(format(year_quarter_day(2019, 1, 1, 1))) expect_snapshot(format(year_quarter_day(2019, 1, 1, 1, 2, 3, 50, subsecond_precision = "microsecond"))) }) # ------------------------------------------------------------------------------ # as.character() test_that("as.character() works", { x <- year_quarter_day(2019, 1) y <- year_quarter_day(2019, 1, 2) expect_identical(as.character(x), format(x)) expect_identical(as.character(y), format(y)) }) # ------------------------------------------------------------------------------ # calendar_narrow() test_that("can narrow to week", { x_expect <- year_quarter_day(2019, 2) x <- set_day(x_expect, 1) expect_identical(calendar_narrow(x, "quarter"), x_expect) expect_identical(calendar_narrow(x_expect, "quarter"), x_expect) }) test_that("can narrow to day", { x_expect <- year_quarter_day(2019, 2, 3) x <- set_hour(x_expect, 5) expect_identical(calendar_narrow(x, "day"), x_expect) expect_identical(calendar_narrow(x_expect, "day"), x_expect) }) # ------------------------------------------------------------------------------ # calendar_widen() test_that("can widen to quarter", { x <- year_quarter_day(2019) expect_identical(calendar_widen(x, "quarter"), set_quarter(x, 1)) }) test_that("can widen to day", { x <- year_quarter_day(2019) y <- year_quarter_day(2019, 02) expect_identical(calendar_widen(x, "day"), set_day(set_quarter(x, 1), 1)) expect_identical(calendar_widen(y, "day"), set_day(y, 1)) }) # ------------------------------------------------------------------------------ # calendar_start() test_that("can compute year start", { x <- year_quarter_day(2019) expect_identical(calendar_start(x, "year"), x) x <- year_quarter_day(2019, 2, 2, 2, 2, 2, 2, subsecond_precision = "millisecond") expect <- year_quarter_day(2019, 1, 1, 0, 0, 0, 0, subsecond_precision = "millisecond") expect_identical(calendar_start(x, "year"), expect) }) test_that("can compute quarter start", { x <- year_quarter_day(2019, 2) expect_identical(calendar_start(x, "quarter"), x) x <- year_quarter_day(2019, 2, 2, 2, 2, 2, 2, subsecond_precision = "millisecond") expect <- year_quarter_day(2019, 2, 1, 0, 0, 0, 0, subsecond_precision = "millisecond") expect_identical(calendar_start(x, "quarter"), expect) }) # ------------------------------------------------------------------------------ # calendar_end() test_that("can compute year end", { x <- year_quarter_day(2019) expect_identical(calendar_end(x, "year"), x) x <- year_quarter_day(2019, 2, 2, 2, 2, 2, 2, subsecond_precision = "millisecond") expect <- year_quarter_day(2019, 4, 92, 23, 59, 59, 999L, subsecond_precision = "millisecond") expect_identical(calendar_end(x, "year"), expect) }) test_that("can compute quarter end", { x <- year_quarter_day(2019, 2) expect_identical(calendar_end(x, "quarter"), x) x <- year_quarter_day(2019, 2:3, 2, 2, 2, 2, 2, subsecond_precision = "millisecond") expect <- year_quarter_day(2019, 2:3, 91:92, 23, 59, 59, 999L, subsecond_precision = "millisecond") expect_identical(calendar_end(x, "quarter"), expect) }) # ------------------------------------------------------------------------------ # calendar_leap_year() test_that("can detect leap years", { year <- 2020 for (start in as.list(clock_months)) { x <- year_quarter_day(year, start = start) expect <- start != clock_months$february expect_identical(calendar_leap_year(x), expect) } year <- 2021 for (start in as.list(clock_months)) { x <- year_quarter_day(year, start = start) expect <- start == clock_months$february expect_identical(calendar_leap_year(x), expect) } }) test_that("`NA` propagates", { expect_identical(calendar_leap_year(year_quarter_day(NA)), NA) }) # ------------------------------------------------------------------------------ # calendar_count_between() test_that("can compute year and month counts", { x <- year_quarter_day(2019, 1, 1) y <- year_quarter_day(2020, 3, 4) expect_identical(calendar_count_between(x, y, "year"), 1L) expect_identical(calendar_count_between(x, y, "quarter"), 6L) expect_identical(calendar_count_between(x, y, "quarter", n = 2), 3L) }) test_that("works with different quarter start months", { x <- year_quarter_day(2019, 1, 1, start = clock_months$march) y <- year_quarter_day(2020, 3, 4, start = clock_months$march) expect_identical(calendar_count_between(x, y, "year"), 1L) expect_identical(calendar_count_between(x, y, "quarter"), 6L) expect_identical(calendar_count_between(x, y, "quarter", n = 2), 3L) }) test_that("can't compute a unsupported count precision", { x <- year_quarter_day(2019, 1, 1) expect_snapshot((expect_error(calendar_count_between(x, x, "day")))) }) test_that("positive / negative counts are correct", { start <- year_quarter_day(1972, 03, 04) end <- year_quarter_day(1973, 03, 03) expect_identical(calendar_count_between(start, end, "year"), 0L) expect_identical(calendar_count_between(start, end, "quarter"), 3L) end <- year_quarter_day(1973, 03, 04) expect_identical(calendar_count_between(start, end, "year"), 1L) expect_identical(calendar_count_between(start, end, "quarter"), 4L) end <- year_quarter_day(1973, 03, 05) expect_identical(calendar_count_between(start, end, "year"), 1L) expect_identical(calendar_count_between(start, end, "quarter"), 4L) end <- year_quarter_day(1971, 03, 03) expect_identical(calendar_count_between(start, end, "year"), -1L) expect_identical(calendar_count_between(start, end, "quarter"), -4L) end <- year_quarter_day(1971, 03, 04) expect_identical(calendar_count_between(start, end, "year"), -1L) expect_identical(calendar_count_between(start, end, "quarter"), -4L) end <- year_quarter_day(1971, 03, 05) expect_identical(calendar_count_between(start, end, "year"), 0L) expect_identical(calendar_count_between(start, end, "quarter"), -3L) }) # ------------------------------------------------------------------------------ # seq() test_that("only granular precisions are allowed", { expect_snapshot(error = TRUE, seq(year_quarter_day(2019, 1, 1), by = 1, length.out = 2)) }) test_that("seq(to, by) works", { expect_identical(seq(year_quarter_day(2019, 1), to = year_quarter_day(2020, 2), by = 2), year_quarter_day(c(2019, 2019, 2020), c(1, 3, 1))) expect_identical(seq(year_quarter_day(2019, 1), to = year_quarter_day(2020, 1), by = 2), year_quarter_day(c(2019, 2019, 2020), c(1, 3, 1))) }) test_that("seq(to, length.out) works", { expect_identical(seq(year_quarter_day(2019, 1), to = year_quarter_day(2020, 2), length.out = 2), year_quarter_day(c(2019, 2020), c(1, 2))) expect_identical(seq(year_quarter_day(2019, 1), to = year_quarter_day(2020, 2), length.out = 6), year_quarter_day(2019, 1) + 0:5) expect_identical(seq(year_quarter_day(2019, 1), to = year_quarter_day(2020, 2), along.with = 1:2), year_quarter_day(c(2019, 2020), c(1, 2))) }) test_that("seq(by, length.out) works", { expect_identical(seq(year_quarter_day(2019, 1), by = 2, length.out = 3), year_quarter_day(2019, 1) + c(0, 2, 4)) expect_identical(seq(year_quarter_day(2019, 1), by = -2, length.out = 3), year_quarter_day(2019, 1) + c(0, -2, -4)) expect_identical(seq(year_quarter_day(2019, 1), by = 2, along.with = 1:3), year_quarter_day(2019, 1) + c(0, 2, 4)) }) # ------------------------------------------------------------------------------ # miscellaneous test_that("can roundtrip to naive-time with any `start`", { x <- seq( as_naive_time(year_month_day(-9999, 1, 1)), as_naive_time(year_month_day(9999, 12, 31)), by = 1 ) for (start in seq_len(12)) { expect_identical(x, as_naive_time(as_year_quarter_day(x, start = start))) } }) test_that("can generate correct last days of the quarter with any `start`", { start <- 1L expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 1)), as.Date(year_month_day(2019, c(3, 6, 9, 12), "last")) ) expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 2)), as.Date(year_month_day(c(2018, 2018, 2018, 2019), c(4, 7, 10, 1), "last")) ) expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 3)), as.Date(year_month_day(c(2018, 2018, 2018, 2019), c(5, 8, 11, 2), "last")) ) # ..., 4, 5, 6, 7, 8, 9, ... expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 10)), as.Date(year_month_day(c(2018, 2019, 2019, 2019), c(12, 3, 6, 9), "last")) ) expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 11)), as.Date(year_month_day(2019, c(1, 4, 7, 10), "last")) ) expect_identical( as.Date(year_quarter_day(2019, 1:4, "last", start = 12)), as.Date(year_month_day(2019, c(2, 5, 8, 11), "last")) ) # Leap year! expect_identical( as.Date(year_quarter_day(2020, 1:4, "last", start = 1)), as.Date(year_month_day(2020, c(3, 6, 9, 12), "last")) ) expect_identical( as.Date(year_quarter_day(2020, 1:4, "last", start = 2)), as.Date(year_month_day(c(2019, 2019, 2019, 2020), c(4, 7, 10, 1), "last")) ) expect_identical( as.Date(year_quarter_day(2020, 1:4, "last", start = 3)), as.Date(year_month_day(c(2019, 2019, 2019, 2020), c(5, 8, 11, 2), "last")) ) }) # ------------------------------------------------------------------------------ # invalid_detect() test_that("`invalid_detect()` works", { # Not possible to be invalid x <- year_quarter_day(2019:2020, 2:3) expect_identical(invalid_detect(x), c(FALSE, FALSE)) # Now possible x <- year_quarter_day(2019, 1, c(1, 90, 91, NA)) expect_identical(invalid_detect(x), c(FALSE, FALSE, TRUE, FALSE)) # Possible after that too x <- year_quarter_day(2019, 1, c(1, 90, 91, NA), 1) expect_identical(invalid_detect(x), c(FALSE, FALSE, TRUE, FALSE)) }) # ------------------------------------------------------------------------------ # invalid_any() test_that("`invalid_any()` works", { # Not possible to be invalid x <- year_quarter_day(2019:2020, 2:3) expect_false(invalid_any(x)) # Now possible x <- year_quarter_day(2019, 1, c(1, 90, 91, NA)) expect_true(invalid_any(x)) # Possible after that too x <- year_quarter_day(2019, 1, c(1, 90, 91, NA), 1) expect_true(invalid_any(x)) }) # ------------------------------------------------------------------------------ # invalid_count() test_that("`invalid_count()` works", { # Not possible to be invalid x <- year_quarter_day(2019:2020, 2:3) expect_identical(invalid_count(x), 0L) # Now possible x <- year_quarter_day(2019, 1, c(1, 90, 91, NA)) expect_identical(invalid_count(x), 1L) # Possible after that too x <- year_quarter_day(2019, 1, c(1, 90, 91, NA), 1) expect_identical(invalid_count(x), 1L) }) # ------------------------------------------------------------------------------ # invalid_resolve() test_that("strict mode can be activated", { local_options(clock.strict = TRUE) expect_snapshot(error = TRUE, invalid_resolve(year_quarter_day(2019, 1, 1))) }) test_that("can resolve correctly", { x <- year_quarter_day(2019, 1, 92, 2, 3, 4, 5, subsecond_precision = "millisecond") expect_identical( invalid_resolve(x, invalid = "previous"), year_quarter_day(2019, 1, 90, 23, 59, 59, 999, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "previous-day"), year_quarter_day(2019, 1, 90, 2, 3, 4, 5, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "next"), year_quarter_day(2019, 2, 1, 0, 0, 0, 0, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "next-day"), year_quarter_day(2019, 2, 1, 2, 3, 4, 5, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "overflow"), year_quarter_day(2019, 2, 2, 0, 0, 0, 0, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "overflow-day"), year_quarter_day(2019, 2, 2, 2, 3, 4, 5, subsecond_precision = "millisecond") ) expect_identical( invalid_resolve(x, invalid = "NA"), year_quarter_day(NA, NA, NA, NA, NA, NA, NA, subsecond_precision = "millisecond") ) }) test_that("throws known classed error", { expect_snapshot(error = TRUE, invalid_resolve(year_quarter_day(2019, 1, 91))) expect_error(invalid_resolve(year_quarter_day(2019, 1, 91)), class = "clock_error_invalid_date") }) test_that("works with always valid precisions", { x <- year_quarter_day(2019:2020, 1:2) expect_identical(invalid_resolve(x), x) }) # ------------------------------------------------------------------------------ # vec_math() test_that("is.nan() works", { x <- year_quarter_day(c(2019, NA)) expect_identical(is.nan(x), c(FALSE, FALSE)) }) test_that("is.finite() works", { x <- year_quarter_day(c(2019, NA)) expect_identical(is.finite(x), c(TRUE, FALSE)) }) test_that("is.infinite() works", { x <- year_quarter_day(c(2019, NA)) expect_identical(is.infinite(x), c(FALSE, FALSE)) }) # ------------------------------------------------------------------------------ # clock_minimum() / clock_maximum() test_that("minimums are right", { expect_snapshot({ clock_minimum(year_quarter_day(1)) clock_minimum(year_quarter_day(1, 1)) clock_minimum(year_quarter_day(1, 1, 1)) clock_minimum(year_quarter_day(1, 1, 1, 1)) clock_minimum(year_quarter_day(1, 1, 1, 1, 1)) clock_minimum(year_quarter_day(1, 1, 1, 1, 1, 1)) clock_minimum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "millisecond")) clock_minimum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "microsecond")) clock_minimum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "nanosecond")) }) }) test_that("maximums are right", { expect_snapshot({ clock_maximum(year_quarter_day(1)) clock_maximum(year_quarter_day(1, 1)) clock_maximum(year_quarter_day(1, 1, 1)) clock_maximum(year_quarter_day(1, 1, 1, 1)) clock_maximum(year_quarter_day(1, 1, 1, 1, 1)) clock_maximum(year_quarter_day(1, 1, 1, 1, 1, 1)) clock_maximum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "millisecond")) clock_maximum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "microsecond")) clock_maximum(year_quarter_day(1, 1, 1, 1, 1, 1, 1, subsecond_precision = "nanosecond")) }) }) test_that("minimums and maximums respect `start`", { expect_snapshot({ clock_minimum(year_quarter_day(1, start = clock_months$february)) clock_maximum(year_quarter_day(1, start = clock_months$february)) }) }) # ------------------------------------------------------------------------------ # min() / max() / range() test_that("min() / max() / range() works", { x <- year_quarter_day(c(1, 3, 2, 1, -1)) expect_identical(min(x), year_quarter_day(-1)) expect_identical(max(x), year_quarter_day(3)) expect_identical(range(x), year_quarter_day(c(-1, 3))) }) test_that("min() / max() / range() works with `NA`", { x <- year_quarter_day(c(1, NA, 2, 0)) expect_identical(min(x), year_quarter_day(NA)) expect_identical(max(x), year_quarter_day(NA)) expect_identical(range(x), year_quarter_day(c(NA, NA))) expect_identical(min(x, na.rm = TRUE), year_quarter_day(0)) expect_identical(max(x, na.rm = TRUE), year_quarter_day(2)) expect_identical(range(x, na.rm = TRUE), year_quarter_day(c(0, 2))) }) test_that("min() / max() / range() works when empty", { x <- year_quarter_day(integer()) expect_identical(min(x), clock_maximum(x)) expect_identical(max(x), clock_minimum(x)) expect_identical(range(x), c(clock_maximum(x), clock_minimum(x))) x <- year_quarter_day(c(NA, NA)) expect_identical(min(x, na.rm = TRUE), clock_maximum(x)) expect_identical(max(x, na.rm = TRUE), clock_minimum(x)) expect_identical(range(x, na.rm = TRUE), c(clock_maximum(x), clock_minimum(x))) }) # ------------------------------------------------------------------------------ # add_*() test_that("add_years() works", { x <- year_quarter_day(2019, 1, 2, 3:4) expect_identical( add_years(x, 1:2), year_quarter_day(c(2020, 2021), 1, 2, 3:4) ) expect_identical( add_years(x, NA), vec_init(x, 2L) ) }) test_that("add_quarters() works", { x <- year_quarter_day(2019, 1, 2, 3:4) expect_identical( add_quarters(x, 1:2), year_quarter_day(2019, c(2, 3), 2, 3:4) ) expect_identical( add_quarters(x, NA), vec_init(x, 2L) ) }) test_that("add_*() respect recycling rules", { expect_length(add_years(year_quarter_day(1), 1:2), 2L) expect_length(add_years(year_quarter_day(1:2), 1), 2L) expect_length(add_years(year_quarter_day(1), integer()), 0L) expect_length(add_years(year_quarter_day(integer()), 1), 0L) expect_snapshot(error = TRUE, { add_years(year_quarter_day(1:2), 1:3) }) }) test_that("add_*() retains names", { x <- set_names(year_quarter_day(1), "x") y <- year_quarter_day(1) n <- set_names(1, "n") expect_named(add_years(x, n), "x") expect_named(add_years(y, n), "n") }) test_that("`start` value is retained", { expect_identical(year_quarter_day(2019, 1, 1) + duration_quarters(1), year_quarter_day(2019, 2, 1)) expect_identical(year_quarter_day(2019, 1, 1) + duration_quarters(5), year_quarter_day(2020, 2, 1)) # Ensure that the `start` is retained expect_identical( year_quarter_day(2019, 1, 1, start = 2) + duration_quarters(5), year_quarter_day(2020, 2, 1, start = 2) ) })