## Test draw() methods test_that("draw.gam works with numeric select", { plt1 <- draw(su_m_quick_eg1, select = 2, rug = FALSE) plt2 <- draw(su_m_quick_eg1, select = c(1, 2), rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam smooth for selected smooth numeric", plt1) expect_doppelganger("draw gam smooth for two selected smooths numeric", plt2) }) test_that("draw.gam fails with bad select", { expect_error(draw(su_m_univar_4, select = 8), "One or more indices in 'select' > than the number of smooths in the model.", fixed = TRUE ) expect_error(draw(su_m_univar_4, select = c(1, 3, 5, 6)), "One or more indices in 'select' > than the number of smooths in the model.", fixed = TRUE ) expect_error(draw(su_m_univar_4, select = c(1, 2, 3, 4, 5)), "Trying to select more smooths than are in the model.", fixed = TRUE ) expect_error(draw(su_m_univar_4, select = TRUE), "When 'select' is a logical vector, 'length(select)' must equal the number of smooths in the model.", fixed = TRUE ) }) test_that("draw.gam works with character select", { plt1 <- draw(su_m_quick_eg1, select = "s(x1)", rug = FALSE) plt2 <- draw(su_m_quick_eg1, select = c("s(x0)", "s(x1)"), rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam smooth for selected smooth character", plt1) expect_doppelganger( "draw gam smooth for two selected smooths character", plt2 ) }) test_that("draw.gam works with logical select single smooth", { plt <- draw(su_m_quick_eg1, select = c(TRUE, rep(FALSE, 3)), rug = FALSE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam smooth for selected smooth logical", plt) }) test_that("draw.gam works with logical select two smooths", { plt <- draw(su_m_quick_eg1, select = rep(c(TRUE, FALSE), each = 2), rug = FALSE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam smooth for two selected smooths logical", plt) }) test_that("draw.gam works with partial_match", { plt <- draw(su_m_factor_by, select = "x2", partial_match = TRUE, rug = FALSE, n = 50 ) expect_error(draw(su_m_factor_by, select = "s(x2)", partial_match = FALSE), "Failed to match any smooths in model `su_m_factor_by`.\nTry with 'partial_match = TRUE'?", fixed = TRUE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam with partial match TRUE", plt) }) test_that("draw.gam works with select and parametric", { plt1 <- draw(su_m_factor_by, select = "s(x2)", partial_match = TRUE, rug = FALSE ) plt2 <- draw(su_m_factor_by, select = "s(x2)", partial_match = TRUE, parametric = FALSE, data = su_eg4, envir = teardown_env(), rug = FALSE ) plt3 <- draw(su_m_factor_by, select = "s(x2)", partial_match = TRUE, parametric = TRUE, data = su_eg4, envir = teardown_env(), rug = FALSE ) plt4 <- draw(su_m_factor_by, parametric = TRUE, rug = FALSE, data = su_eg4, envir = teardown_env() ) plt5 <- draw(su_m_factor_by, parametric = FALSE, rug = FALSE, data = su_eg4, envir = teardown_env() ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam with select and parametric is NULL", plt1) expect_doppelganger("draw gam with select and parametric is FALSE", plt2) expect_doppelganger("draw gam with select and parametric is TRUE", plt3) expect_doppelganger("draw gam without select and parametric is TRUE", plt4) expect_doppelganger("draw gam without select and parametric is FALSE", plt5) }) test_that("draw.gam() plots a simple multi-smooth AM", { plt1 <- draw(su_m_quick_eg1, rug = FALSE) plt2 <- draw(su_m_quick_eg1, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw simple multi-smooth AM", plt1) expect_doppelganger("draw simple multi-smooth AM with fixed scales", plt2) }) test_that("draw.gam() can draw partial residuals", { plt1 <- draw(m_tiny_eg1, residuals = TRUE, rug = FALSE) plt2 <- draw(m_tiny_eg1, residuals = TRUE, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw simple partial residuals", plt1) expect_doppelganger("draw simple partial residuals with fixed scales", plt2) }) test_that("draw.gam() plots an AM with a single 2d smooth", { skip_on_os("windows") plt <- draw(su_m_bivar, n = 50, rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw AM with 2d smooth", plt) }) test_that("draw.gam() plots an AM with a single factor by-variable smooth", { plt1 <- draw(su_m_factor_by, rug = FALSE) plt2 <- draw(su_m_factor_by, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw AM with factor by-variable smooth", plt1) expect_doppelganger("draw factor by-variable smooth with fixed scales", plt2) }) test_that("draw() works with continuous by", { plt <- draw(su_m_cont_by, rug = FALSE, n = 50) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw with continuous by-variable smooth", plt) }) test_that("draw() works with continuous by and fixed scales", { plt <- draw(su_m_cont_by, scales = "fixed", rug = FALSE, n = 50) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw with continuous by-var fixed scale", plt) }) test_that("draw() works with random effect smooths (bs = 're')", { p2 <- draw(rm1, ncol = 3, rug = FALSE) p3 <- draw(rm1, ncol = 3, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw.gam model with ranef smooth", p2) expect_doppelganger("draw model with ranef smooth fixed scales", p3) }) test_that("draw() with random effect smooths (bs = 're') & factor by variable ", { p2 <- draw(rm2, ncol = 3, rug = FALSE) p3 <- draw(rm2, ncol = 3, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw.gam model with ranef smooth factor by", p2) expect_doppelganger("draw with ranef smooth factor by fixed scales", p3) }) test_that("draw() can handle non-standard names -- a function call as a name", { df <- data.frame( y = c( 0.15, 0.17, 0.07, 0.17, 0.01, 0.15, 0.18, 0.04, -0.06, -0.08, 0, 0.03, -0.27, -0.93, 0.04, 0.12, 0.08, 0.15, 0.04, 0.15, 0.03, 0.09, 0.11, 0.13, -0.11, -0.32, -0.7, -0.78, 0.07, 0.04, 0.06, 0.12, -0.15, 0.05, -0.08, 0.14, -0.02, -0.14, -0.24, -0.32, -0.78, -0.81, -0.04, -0.25, -0.09, 0.02, -0.13, -0.2, -0.04, 0, 0.02, -0.05, -0.19, -0.37, -0.57, -0.81 ), time = rep(2^c( -1, 0, 1, 1.58, 2, 2.58, 3, 3.32, 3.58, 4.17, 4.58, 5.58, 6.17, 7.39 ), 4) ) ## the smooth is of `log2(time)` but this needs special handling ## in the `ggplot()` to avoid `ggplot()` looking incorrectly for `time` and ## not the correct `log2(time)` fit <- gam(y ~ s(log2(time)), data = df, method = "REML") p1 <- draw(fit) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw.gam model with non-standard names", p1) }) test_that("draw() works with factor-smooth interactions (bs = 'fs')", { # skip_on_ci() # testing without as moved to mac os x skip_if(packageVersion("mgcv") < "1.8.36") p2 <- draw(mod_fs, ncol = 2, rug = FALSE) p3 <- draw(mod_fs, ncol = 2, scales = "fixed", rug = FALSE) skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw.gam model with fs smooth", p2) expect_doppelganger("draw model with fs smooth fixed scales", p3) }) test_that("draw() works with parametric terms", { ## fake some data... df <- withr::with_seed(0, { f1 <- function(x) { exp(2 * x) } f2 <- function(x) { 0.2 * x^11 * (10 * (1 - x))^6 + 10 * (10 * x)^3 * (1 - x)^10 } f3 <- function(x) { x * 0 } n <- 200 sig2 <- 4 x0 <- rep(1:4, 50) x1 <- runif(n, 0, 1) x2 <- runif(n, 0, 1) x3 <- runif(n, 0, 1) e <- rnorm(n, 0, sqrt(sig2)) y <- 2 * x0 + f1(x1) + f2(x2) + f3(x3) + e data.frame(x0 = x0, x1 = x1, x2 = x2, x3 = x3, y = y) }) ## fit mod <- gam(y ~ x0 + s(x1) + s(x2) + s(x3), data = df) skip_if_not_installed("withr") withr::local_options(lifecycle_verbosity = "quiet") ## evaluate parametric terms directly e1 <- evaluate_parametric_term(mod, term = "x0") expect_s3_class(e1, "evaluated_parametric_term") expect_equal(ncol(e1), 5L) expect_named(e1, c("term", "type", "value", "partial", "se")) p1 <- draw(e1, rug = FALSE) ## check evaluate_parametric_term works p2 <- draw(mod, rug = FALSE) ## factor parametric terms x0 <- factor(x0) df <- data.frame(x0 = x0, x1 = x1, x2 = x2, x3 = x3, y = y) ## fit mod <- gam(y ~ x0 + s(x1) + s(x2) + s(x3), data = df) ## check evaluate_parametric_term works p3 <- draw(mod, rug = FALSE) ## evaluate parametric terms directly e2 <- evaluate_parametric_term(mod, term = "x0") expect_s3_class(e2, "evaluated_parametric_term") expect_error(evaluate_parametric_term(mod, term = "x1"), "Term is not in the parametric part of model: ", fixed = TRUE ) expect_warning(evaluate_parametric_term(mod, term = c("x0", "x1")), "More than one `term` requested; using the first ", fixed = TRUE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw with linear parametric term", p1) expect_doppelganger("draw.gam with linear parametric term", p2) expect_doppelganger("draw.gam with factor parametric term", p3) }) test_that("component-wise CIs work without seWithMean", { plt <- draw(su_m_univar_4, overall_uncertainty = FALSE, rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw gam with overall_uncertainty false", plt) }) test_that("draw.derivates() plots derivatives for a GAM", { # skip_on_ci() # testing without as moved to mac os x d1 <- derivatives(su_m_univar_4, type = "central", n = 200) plt1 <- draw(d1) plt2 <- draw(d1, scales = "fixed") # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw derivatives for a GAM", plt1) expect_doppelganger("draw derivatives for a GAM with fixed scales", plt2) }) test_that("draw.derivates plots derivatives with change indicators", { # not on CRAN skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # causing trivial failures on GH d1 <- derivatives(m_gam, type = "central", n = 200) expect_silent(plt1 <- draw(d1, add_change = TRUE)) expect_silent(plt2 <- draw(d1, add_change = TRUE, change_type = "sizer")) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw derivatives for a GAM with default change", plt1) expect_doppelganger("draw derivatives for a GAM with sizer change", plt2) }) test_that("draw.derivates() plots derivatives for a GAM rotated labels", { skip_on_cran() d1 <- derivatives(su_m_univar_4, type = "central", n = 100) plt1 <- draw(d1, angle = 45) plt2 <- draw(d1, scales = "fixed", angle = 45) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw derivatives for a GAM rotated labels", plt1) expect_doppelganger( "draw derivatives for a GAM with fixed scales rotated", plt2 ) }) test_that("draw plots partial derivatives for a GAM", { d1 <- partial_derivatives(su_m_bivar_te, select = "te(x,z)", focal = "z", type = "central", n = 100 ) plt1 <- draw(d1) plt2 <- draw(d1, scales = "fixed") # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw partial derivatives for a GAM", plt1) expect_doppelganger( "draw partial derivatives for a GAM with fixed scales", plt2 ) }) test_that("draw plots partial derivs for GAM rotated labels", { skip_on_cran() d1 <- partial_derivatives(su_m_bivar_te, select = "te(x,z)", focal = "z", type = "central", n = 100 ) plt1 <- draw(d1, angle = 45) plt2 <- draw(d1, scales = "fixed", angle = 45) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger( "draw partial derivatives for GAM rotated labels", plt1 ) expect_doppelganger( "draw partial derivatives for GAM fixed scales rotated", plt2 ) }) ## test that issue 39 stays fixed test_that("draw.gam doesn't create empty plots with multiple parametric terms", { plt <- draw(m_2_fac, rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw issue 39 empty plots", plt) }) test_that("draw.mgcv_smooth() can plot basic smooth bases", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # sign differences due to eigendecomposition in TPRS bs <- basis(s(x0), data = quick_eg1) plt <- draw(bs) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw basic tprs basis", plt) }) test_that("draw.mgcv_smooth() can plot basic smooth bases with rotated labels", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # sign differences due to eigendecomposition in TPRS bs <- basis(s(x0), data = quick_eg1) plt <- draw(bs, angle = 45) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw basic tprs basis rotated", plt) }) test_that("draw.mgcv_smooth() can plot by factor basis smooth bases", { bs <- basis(s(x2, by = fac), data = su_eg4) plt <- draw(bs) # skip_on_ci() # testing without as moved to mac os x skip_on_cran() expect_doppelganger("draw by factor basis", plt) }) test_that("draw() works with a ziplss models; issue #45", { plt <- draw(m_ziplss, rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw ziplss parametric terms issue 45", plt) }) test_that("draw works for sample_smooths objects", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # minor statistical differences sm1 <- smooth_samples(su_m_univar_4, n = 5, seed = 23478, n_vals = 50) plt1 <- draw(sm1, alpha = 0.7, n_samples = 5, seed = 2635, rug = FALSE) sm2 <- smooth_samples(su_m_bivar, n = 4, seed = 23478, n_vals = 50) plt2 <- draw(sm2, alpha = 0.7, n_samples = 4, seed = 2635) sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt3 <- draw(sm3, alpha = 0.7, n_samples = 5, seed = 2635, rug = FALSE) sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt4 <- draw(sm3, alpha = 0.7, scales = "fixed", n_samples = 10, seed = 2635, rug = FALSE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw smooth_samples for GAM m1", plt1) expect_doppelganger("draw smooth_samples for GAM m2", plt2) expect_doppelganger("draw smooth_samples for GAM m3", plt3) expect_doppelganger("draw smooth_samples for GAM m3 fixed scales", plt4) }) test_that("draw works for sample_smooths objects rotated labels", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # minor statistical differences sm1 <- smooth_samples(su_m_univar_4, n = 5, seed = 23478, n_vals = 50) plt1 <- draw(sm1, alpha = 0.7, n_samples = 5, seed = 2635, angle = 45, rug = FALSE ) sm2 <- smooth_samples(su_m_bivar, n = 4, seed = 23478, n_vals = 50) plt2 <- draw(sm2, alpha = 0.7, n_samples = 4, seed = 2635, angle = 45, rug = FALSE ) sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt3 <- draw(sm3, alpha = 0.7, n_samples = 5, seed = 2635, angle = 45, rug = FALSE ) sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt4 <- draw(sm3, alpha = 0.7, scales = "fixed", n_samples = 5, seed = 2635, angle = 45, rug = FALSE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw smooth_samples for GAM m1 rotated", plt1) expect_doppelganger("draw smooth_samples for GAM m2 rotated", plt2) expect_doppelganger("draw smooth_samples for GAM m3 rotated", plt3) expect_doppelganger( "draw smooth_samples for GAM m3 fixed scales rotated", plt4 ) }) test_that("draw works for smooth_samples objects", { skip_on_os("win") sm2 <- smooth_samples(su_m_bivar, n = 2, seed = 23478, n_vals = 50) plt <- draw(sm2, alpha = 0.7, contour = TRUE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw smooth_samples for bivariate GAM contours", plt) }) test_that("draw works for sample_smooths objects with n_samples", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # minor statistical differences sm1 <- smooth_samples(su_m_univar_4, n = 5, seed = 23478, n_vals = 50) plt1 <- draw(sm1, alpha = 0.7, n_samples = 3, rug = FALSE, seed = 1) sm2 <- smooth_samples(su_m_bivar, n = 4, seed = 23478, n_vals = 50) plt2 <- draw(sm2, alpha = 0.7, n_samples = 2, rug = FALSE, seed = 14) sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt3 <- draw(sm3, alpha = 0.7, n_samples = 3, rug = FALSE, seed = 19) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw smooth_samples for m1 n_samples", plt1) expect_doppelganger("draw smooth_samples for m2 n_samples", plt2) expect_doppelganger("draw smooth_samples for GAM n_samples", plt3) }) test_that("draw works for sample_smooths objects with user specified smooth", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x # minor statistical differences sm3 <- smooth_samples(su_m_factor_by, n = 5, seed = 23478, n_vals = 50) plt1 <- draw(sm3, select = "s(x0)", alpha = 0.7, rug = FALSE) plt2 <- draw(sm3, select = "s(x2)", alpha = 0.7, partial_match = TRUE, rug = FALSE ) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger( "draw selected factor by smooth_samples for GAM m3", plt2 ) expect_doppelganger("draw selected smooth_samples for GAM m3", plt1) }) ## Issue #22 test_that("draw() can handle a mixture of numeric and factor random effects", { df <- data_sim("eg4", seed = 42) m <- gam(y ~ s(x2, fac, bs = "re"), data = df, method = "REML") plt <- draw(m) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("issue 22 draw with mixed random effects", plt) }) test_that("draw.gam uses fixed scales if asked for them: #73", { skip_on_cran() # skip_on_ci() # testing without as moved to mac os x df <- data_sim("eg1", n = 1000, seed = 1) m <- gam(y ~ s(x1) + s(x2) + ti(x1, x2), data = su_eg1, method = "REML") plt <- draw(m, scales = "fixed", rug = FALSE) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger( "issue 73 draw uses fixed scales if asked for them", plt ) }) test_that("draw.gam can take user specified scales", { skip_on_os(os = "win") # skip_on_os(os = "mac") # trivial diffs in contours plt1 <- draw(su_m_bivar, rug = FALSE, continuous_fill = scale_fill_distiller( palette = "Spectral", type = "div" ) ) skip_if(packageVersion("mgcv") < "1.8.36") plt2 <- draw(mod_fs, rug = FALSE, discrete_colour = ggplot2::scale_colour_viridis_d(option = "plasma") ) skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw 2d smooth with spectral palette", plt1) skip_if(packageVersion("mgcv") < "1.8.36") expect_doppelganger( "draw fs smooth with discrete plasma palette", plt2 ) }) test_that("plotting sos smooths works", { skip_on_cran() skip_if_not_installed("sf") expect_silent(plt <- draw(m_sos, n = 20)) # skip_on_ci() # testing without as moved to mac os x expect_doppelganger("draw works for sos smooths", plt) })