skip_on_cran() skip_on_os(c("mac", "solaris")) skip_if_not_installed("lme4") skip_if_not_installed("datawizard") skip_if_not_installed("marginaleffects") # lmer ---- data(efc, package = "ggeffects") efc$grp <- datawizard::to_factor(efc$e15relat) fit <- lme4::lmer(neg_c_7 ~ c12hour + e42dep + c161sex + c172code + (1 | grp), data = efc) test_that("validate ggpredict lmer against predict", { nd <- data_grid(fit, "e42dep") pr <- predict(fit, newdata = nd, re.form = NA) predicted <- ggpredict(fit, "e42dep") expect_equal(predicted$predicted, pr, tolerance = 1e-3, ignore_attr = TRUE) }) test_that("validate ggpredict lmer against marginaleffects", { out1 <- marginaleffects::predictions( fit, variables = "e42dep", newdata = marginaleffects::datagrid(fit) ) out1 <- out1[order(out1$e42dep), ] out2 <- ggpredict( fit, "e42dep", condition = c(grp = "child"), type = "random", interval = "confidence" ) expect_equal( out1$estimate, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE ) expect_equal( out1$estimate - stats::qt(0.975, df = 826) * out1$std.error, out2$conf.low, tolerance = 1e-4, ignore_attr = TRUE ) }) test_that("ggpredict, lmer", { expect_s3_class(ggpredict(fit, "c12hour"), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex")), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex", "c172code")), "data.frame") expect_s3_class(ggpredict(fit, "c12hour", type = "re"), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex"), type = "re"), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex", "c172code"), type = "re"), "data.frame") }) test_that("ggpredict, lmer", { pr <- ggpredict(fit, "c12hour") expect_equal(pr$std.error[1:5], c(0.2911, 0.2852, 0.2799, 0.2752, 0.2713), tolerance = 1e-3) pr <- ggpredict(fit, c("c12hour", "c161sex", "c172code"), type = "re") expect_equal(pr$std.error[1:5], c(3.5882, 3.58185, 3.58652, 3.58162, 3.57608), tolerance = 1e-3) # validate against predict pr <- ggpredict(fit, "c12hour") nd <- data_grid(fit, "c12hour") pr2 <- suppressWarnings(predict( fit, newdata = nd, se.fit = TRUE, re.form = NA, allow.new.levels = TRUE )) expect_equal(pr$std.error[1:5], pr2$se.fit[1:5], tolerance = 1e-3, ignore_attr = TRUE) expect_equal( pr$conf.low, pr2$fit - qt(0.975, ggeffects:::.get_df(fit)) * pr2$se.fit, tolerance = 1e-3, ignore_attr = TRUE ) pr <- ggpredict(fit, "c12hour", type = "random") expect_equal(pr$conf.low[1:5], c(4.26939, 4.3036, 4.3377, 4.37168, 4.40554), tolerance = 1e-3) }) test_that("ggpredict, lmer-simulate", { expect_s3_class(ggpredict(fit, "c12hour", type = "simulate"), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex"), type = "simulate"), "data.frame") expect_s3_class(ggpredict(fit, c("c12hour", "c161sex", "c172code"), type = "simulate"), "data.frame") }) test_that("ggeffect, lmer", { skip_if_not_installed("effects") expect_s3_class(ggeffect(fit, "c12hour"), "data.frame") expect_s3_class(ggeffect(fit, c("c12hour", "c161sex")), "data.frame") expect_s3_class(ggeffect(fit, c("c12hour", "c161sex", "c172code")), "data.frame") }) test_that("ggeffect, lmer", { skip_if_not_installed("emmeans") data(efc, package = "ggeffects") efc$cluster <- as.factor(efc$e15relat) efc <- datawizard::standardise(efc, c("c160age", "e42dep"), append = "_z") m <- lme4::lmer( neg_c_7 ~ c160age_z * e42dep_z + c161sex + (1 | cluster), data = efc ) p1 <- ggpredict(m, terms = c("c160age_z", "e42dep_z [-1.17,2.03]")) p2 <- ggemmeans(m, terms = c("c160age_z", "e42dep_z [-1.17,2.03]")) expect_equal(p1$predicted[1], p2$predicted[1], tolerance = 1e-3) }) test_that("ggeffect, lmer", { skip_if_not_installed("emmeans") data(efc, package = "ggeffects") efc$cluster <- as.factor(efc$e15relat) efc <- datawizard::to_factor(efc, c("e42dep", "c172code", "c161sex")) efc$c172code[efc$c172code == "intermediate level of education"] <- NA m <- suppressMessages(lme4::lmer( neg_c_7 ~ c172code + e42dep + c161sex + (1 | cluster), data = efc )) expect_s3_class(ggpredict(m, terms = "e42dep"), "data.frame") expect_s3_class(ggemmeans(m, terms = "e42dep"), "data.frame") p1 <- ggpredict(m, terms = "e42dep") p2 <- ggemmeans(m, terms = "e42dep") p3 <- ggemmeans(m, terms = "e42dep", condition = c(c161sex = "Male", c172code = "low level of education")) expect_equal(p1$predicted[1], 8.902934, tolerance = 1e-3) expect_equal(p2$predicted[1], 9.742945, tolerance = 1e-3) expect_equal(p1$predicted[1], p3$predicted[1], tolerance = 1e-3) }) test_that("ggeffect, lmer", { skip_if_not_installed("effects") skip_if_not_installed("emmeans") data(sleepstudy, package = "lme4") m <- suppressWarnings(lme4::lmer( log(Reaction) ~ Days + I(Days^2) + (1 + Days + exp(Days) | Subject), data = sleepstudy )) p1 <- ggpredict(m, terms = "Days", verbose = FALSE) p2 <- ggemmeans(m, terms = "Days", verbose = FALSE) p3 <- ggeffect(m, terms = "Days") expect_message(expect_message(ggemmeans(m, terms = "Days"), "polynomial"), "log-transformed") expect_equal(p1$predicted[1], 253.5178, tolerance = 1e-3) expect_equal(p2$predicted[1], 253.5178, tolerance = 1e-3) expect_equal(p3$predicted[1], 5.535434, tolerance = 1e-3) expect_s3_class( ggpredict(m, terms = c("Days", "Subject [sample=5]"), type = "re", verbose = FALSE), "data.frame" ) }) test_that("ggpredict, sample random effects levels", { N <- 18 # Number of people Nt <- 9 # Number of trials set.seed(123) d <- data.frame( Subject = factor(sprintf("%03d", 1:N)), # create subject numbers subj_b0 = rnorm(n = N, mean = 250, sd = 20), # create random intercepts subj_b1 = rnorm(n = N, mean = 10, sd = 6) # create random slopes ) d <- do.call(rbind, replicate(10, d, simplify = FALSE)) d$Days <- rep(0:Nt, 18) d$Y <- d$subj_b0 + d$Days * d$subj_b1 + rnorm(n = N * (Nt + 1), sd = 15) fit <- lme4::lmer(Y ~ 1 + Days + (1 + Days | Subject), data = d) set.seed(123) p <- ggpredict(fit, terms = c("Days", "Subject [sample=8]"), type = "random") expect_identical( p$group, structure( c( 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L ), levels = c("015", "014", "003", "010", "002", "006", "011", "005"), class = "factor" ) ) d$Subject <- rep(factor(1:N), 10) fit <- lme4::lmer(Y ~ 1 + Days + (1 + Days | Subject), data = d) set.seed(123) p <- ggpredict(fit, terms = c("Days", "Subject [sample=8]"), type = "random") expect_identical( p$group, structure( c( 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L, 1L, 2L, 3L, 4L, 5L, 6L, 7L, 8L ), levels = c("2", "3", "5", "6", "10", "11", "14", "15"), class = "factor" ) ) }) test_that("ggpredict, smooth plot message", { data("sleepstudy", package = "lme4") # mixed model with lme4 m_lmer <- lme4::lmer(Reaction ~ poly(Days, 2) + (1 | Subject), data = sleepstudy ) expect_message(ggpredict(m_lmer, terms = "Days"), regex = "Model contains") expect_silent(ggpredict(m_lmer, terms = "Days", verbose = FALSE)) })