## Test qq_plot() methods ## simulate binomial data... n.samp <- 200 dat <- data_sim("eg1", n = n.samp, dist = "binary", scale = .33, seed = 0) p <- binomial()$linkinv(dat$f) # binomial p n <- withr::with_seed(0, sample(c(1, 3), n.samp, replace = TRUE)) # binomial n dat <- withr::with_seed(0, transform(dat, y = rbinom(n, n, p), n = n)) m <- gam(y / n ~ s(x0) + s(x1) + s(x2) + s(x3), family = binomial, data = dat, weights = n, method = "REML" ) types <- c("deviance", "response", "pearson") methods <- c("uniform", "simulate", "normal") test_that("qq_plot() uniform method works", { skip_if(packageVersion("mgcv") < "1.8.36") plt <- withr::with_seed(42, qq_plot(m)) # randomisation of uniform quantiles # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot uniform randomisation", plt) }) test_that("qq_plot() uniform method works with response residuals", { skip_if(packageVersion("mgcv") < "1.8.36") plt <- withr::with_seed(42, qq_plot(m, type = "response")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot uniform randomisation response residuals", plt) }) test_that("qq_plot() uniform method works with pearson residuals", { skip_if(packageVersion("mgcv") < "1.8.36") plt <- withr::with_seed(42, qq_plot(m, type = "pearson")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot uniform randomisation pearson residuals", plt) }) test_that("qq_plot() normal method works", { # normality assumption plt <- withr::with_seed(42, qq_plot(m, method = "normal")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot normality assumption", plt) }) test_that("qq_plot() normal method works", { plt <- withr::with_seed(42, qq_plot(m, method = "normal", type = "response" )) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot normality assumption response residuals", plt) }) test_that("qq_plot() normal method works", { plt <- withr::with_seed(42, qq_plot(m, method = "normal", type = "pearson")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot normality assumption pearson residuals", plt) }) test_that("qq_plot() simulate method works", { # simulate data to get quantiles plt <- withr::with_seed(42, qq_plot(m, method = "simulate")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot data simulation", plt) }) test_that("qq_plot() simulate method works", { plt <- withr::with_seed(42, qq_plot(m, method = "simulate", type = "response" )) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot data simulation response residuals", plt) }) test_that("qq_plot() simulate method works", { plt <- withr::with_seed(42, qq_plot(m, method = "simulate", type = "pearson" )) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("qq_plot data simulation pearson residuals", plt) }) test_that("qq_plot() fails if unsupported residuals requested", { expect_error(qq_plot(m, type = "scaled.pearson"), paste( "'arg' should be one of", paste(dQuote(types), collapse = ", ") ), fixed = TRUE ) }) test_that("qq_plot() fails if unsupported method requested", { expect_error(qq_plot(m, method = "foo"), paste( "'arg' should be one of", paste(dQuote(methods), collapse = ", ") ), fixed = TRUE ) }) test_that("qq_plot() prints message if direct method requested", { expect_message(qq_plot(m, method = "direct"), "`method = \"direct\"` is deprecated, use `\"uniform\"`", fixed = TRUE ) }) test_that("qq_plot.default fails with error", { expect_error( qq_plot(dat), "Unable to produce a Q-Q plot for " ) }) test_that("pearson_residuals fails if no var_fun available", { expect_error(pearson_residuals(var_fun = NULL), "Pearson residuals are not available for this family.", fixed = TRUE ) })