context("ggplot.ts") test_that("ggplot.ts works as expected with the yearly time series.", { data <- lynx expect_silent(p <- ggplot.ts(data) + geom_line()) res <- layer_data(p) expect_equal(res$x, as.numeric(time(data))) expect_equal(res$y, as.numeric(data)) }) test_that("ggplot.ts works as expected with the monthly time series.", { data <- sunspots expect_silent(p <- ggplot.ts(data) + geom_line()) res <- layer_data(p) expect_equal(res$x, as.numeric(time(data))) expect_equal(res$y, as.numeric(data)) }) test_that("ggplot.ts works as expected with the quaterly time series.", { data <- presidents expect_silent(p <- ggplot.ts(data) + geom_line()) res <- layer_data(p) expect_equal(res$x, as.numeric(time(data)), tolerance = 0.001) expect_equal(res$y, as.numeric(data)) }) test_that("ggplot.ts time resolution works as expected.", { data <- sunspot.month expected <- zoo::as.Date(time(data)) expected <- lubridate::round_date(expected, unit = "year") expected_pos <- as.numeric(as.POSIXct(expected)) expect_silent( p <- ggplot.ts(data, as.numeric = FALSE, time.resolution = "year") + geom_point() ) res <- layer_data(p, 1) expect_equal(res$x, expected_pos) expect_equal(res$y, as.numeric(data)) }) test_that("ggplot.ts mapping works as expected.", { data <- sunspot.month data <- sunspot.month expected <- zoo::as.Date(time(data)) expected <- lubridate::round_date(expected, unit = "10 year") expected_med <- as.numeric(tapply(as.numeric(data), expected, median)) expected_q1 <- as.numeric(tapply(as.numeric(data), expected, quantile, probs = 0.25)) expected_q3 <- as.numeric(tapply(as.numeric(data), expected, quantile, probs = 0.75)) expect_silent( p <- ggplot.ts( data, mapping = aes(x = data, y = time, group = time), as.numeric = FALSE, time.resolution = "10 year" ) + geom_boxplot() ) res <- layer_data(p) expect_equal(res$y, unique(as.numeric(as.POSIXct(expected)))) expect_equal(res$xmiddle, expected_med) expect_equal(res$xlower, expected_q1) expect_equal(res$xupper, expected_q3) })