test_that("timestamp string parsing to offsets and deparsing of offsets to timestamps", { # This test tests: global CFt* constants, CFtime(), CFparse(), CFtimestamp(): # decomposing offsets into timestamp elements, generating timestamp strings, # parsing timestamp strings back into timestamp elements. for (c in CFt$calendars$name) { for (u in 1:4) { offsets <- 1:10000 def <- paste(CFt$units$name[u], "since 1953-08-20") cf <- CFtime(def, c, offsets) time <- .offsets2time(cf@offsets, cf@datum) ts <- CFtimestamp(cf, "timestamp") cf2 <- CFtime(def, c) tp <- CFparse(cf2, ts) expect_equal(tp, time) } } }) test_that("testing calendars with leap years", { # This test tests that for standard and julian calendars datums in leap # years before/on/after the leap day function as needed. Also testing year # 2000 and 2100 offsets. for (c in c("standard", "julian")) { for (d in c("1996-01-15", "1996-02-29", "1996-04-01")) { def <- paste("days since", d) cf <- CFtime(def, c, c(1:2500, 36501:39000)) time <- .offsets2time(cf@offsets, cf@datum) ts <- CFtimestamp(cf, "timestamp") cf2 <- CFtime(def, c) tp <- CFparse(cf2, ts) expect_equal(tp, time) } } }) test_that("Testing milli-second timestamp string parsing to offsets and deparsing of offsets to timestamps", { # This test tests: global CFt* constants, CFtime(), CFparse(), CFtimestamp(): # decomposing offsets into milli-second timestamp elements, generating timestamp strings, # parsing timestamp strings back into timestamp elements. for (c in CFt$calendars$name) { for (u in 1:2) { offsets <- runif(10000, max = 10000) def <- paste(CFt$units$name[u], "since 1953-08-20 07:34:12.2") cf <- CFtime(def, c, offsets) time <- .offsets2time(cf@offsets, cf@datum) ts <- CFtimestamp(cf, "timestamp") cf2 <- CFtime(def, c) tp <- CFparse(cf2, ts) expect_equal(tp[1:6], time[1:6]) } } }) test_that("Disallow parsing of timestamps on month and year datums", { for (c in CFt$calendars$name) { for (u in 5:6) { def <- paste(CFt$units$name[u], "since 2020-01-01") cf <- CFtime(def, c, 0:23) ts <- CFtimestamp(cf, "timestamp") expect_error(CFparse(cf, ts)) } } }) test_that("Things can go wrong too", { expect_false(.is_valid_calendar_date(0, 0, 0, 1)) # Bad year expect_false(.is_valid_calendar_date(5, 13, 0, 1)) # Bad month expect_true(.is_valid_calendar_date(5, 10, NA, 1)) # No day so ok expect_false(.is_valid_calendar_date(5, 10, 0, 1)) # Bad day expect_false(.is_valid_calendar_date(5, 2, 31, 1)) # No Feb 31 expect_false(.is_valid_calendar_date(5, 2, 29, 4)) # noleap years <- c(1900, 2000, 2001, 2002, 2003, 2004, 2100) expect_equal(.is_leap_year(years, 1), c(F, T, F, F, F, T, F)) expect_equal(.is_leap_year(years, 2), c(T, T, F, F, F, T, T)) expect_equal(.is_leap_year(years, 3), c(F, F, F, F, F, F, F)) expect_equal(.is_leap_year(years, 4), c(F, F, F, F, F, F, F)) expect_equal(.is_leap_year(years, 5), c(T, T, T, T, T, T, T)) cf <- CFtime("days since 0001-01-01", "proleptic_gregorian") suppressWarnings(expect_warning(CFparse(cf, c("12-1-23", "today")))) # Suppress timezone warning expect_warning(CFparse(cf, c("2022-08-16T11:07:34.45-10", "2022-08-16 10.5+04"))) })