skip_on_cran() skip_on_os(c("mac", "solaris")) skip_if_not_installed("glmmTMB") skip_if_not_installed("marginaleffects") skip_if_not_installed("lme4") skip_if_not_installed("emmeans") test_that("validate ggpredict against predict, nbinom", { data(Owls, package = "glmmTMB") data(Salamanders, package = "glmmTMB") m1 <- suppressWarnings(glmmTMB::glmmTMB( SiblingNegotiation ~ SexParent + ArrivalTime + (1 | Nest), data = Owls, family = glmmTMB::nbinom1() )) m2 <- glmmTMB::glmmTMB( SiblingNegotiation ~ SexParent + ArrivalTime + (1 | Nest), data = Owls, family = glmmTMB::nbinom2() ) m4 <- glmmTMB::glmmTMB( SiblingNegotiation ~ FoodTreatment + ArrivalTime + SexParent + (1 | Nest), data = Owls, ziformula = ~1, family = glmmTMB::truncated_poisson(link = "log") ) nd <- data_grid(m1, "SexParent") pr <- predict(m1, newdata = nd, type = "link", se.fit = TRUE) linv <- insight::link_inverse(m1) dof <- insight::get_df(m1, type = "wald", verbose = FALSE) tcrit <- stats::qt(0.975, df = dof) out1 <- data.frame( predicted = linv(pr$fit), conf.low = linv(pr$fit - tcrit * pr$se.fit), conf.high = linv(pr$fit + tcrit * pr$se.fit) ) out2 <- ggpredict(m1, "SexParent") expect_equal(out1$predicted, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.low, out2$conf.low, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.high, out2$conf.high, tolerance = 1e-4, ignore_attr = TRUE) expect_s3_class(ggpredict(m1, c("ArrivalTime", "SexParent")), "data.frame") expect_s3_class(ggpredict(m2, c("ArrivalTime", "SexParent")), "data.frame") expect_s3_class(ggpredict(m4, c("FoodTreatment", "ArrivalTime [21,24,30]", "SexParent")), "data.frame") expect_s3_class(ggpredict(m1, c("ArrivalTime", "SexParent"), type = "random"), "data.frame") expect_s3_class(ggpredict(m2, c("ArrivalTime", "SexParent"), type = "random"), "data.frame") expect_s3_class(ggpredict(m4, c("FoodTreatment", "ArrivalTime [21,24,30]", "SexParent"), type = "random"), "data.frame") expect_message(ggpredict(m1, c("ArrivalTime", "SexParent"), type = "zero_inflated")) p1 <- ggpredict(m1, c("ArrivalTime", "SexParent")) p2 <- ggpredict(m2, c("ArrivalTime", "SexParent")) p3 <- ggemmeans(m1, c("ArrivalTime", "SexParent")) p4 <- ggemmeans(m2, c("ArrivalTime", "SexParent")) expect_equal(p1$predicted[1], p3$predicted[1], tolerance = 1e-3) expect_equal(p2$predicted[1], p4$predicted[1], tolerance = 1e-3) }) test_that("validate ggpredict lmer against marginaleffects", { data(Owls, package = "glmmTMB") m1 <- suppressWarnings(glmmTMB::glmmTMB( SiblingNegotiation ~ SexParent + ArrivalTime + (1 | Nest), data = Owls, family = glmmTMB::nbinom1() )) out1 <- suppressWarnings(marginaleffects::predictions( m1, variables = "SexParent", newdata = marginaleffects::datagrid(m1), vcov = FALSE, re.form = NULL )) out1 <- out1[order(out1$SexParent), ] out2 <- ggpredict( m1, "SexParent", condition = c(Nest = "Oleyes"), type = "random" ) expect_equal( out1$estimate, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE ) }) data(Salamanders, package = "glmmTMB") m3 <- glmmTMB::glmmTMB( count ~ spp + mined + (1 | site), ziformula = ~ spp + mined, family = glmmTMB::truncated_poisson(), data = Salamanders ) m4 <- glmmTMB::glmmTMB( count ~ spp + mined + (1 | site), ziformula = ~ spp + mined + (1 | site), family = glmmTMB::truncated_poisson(), data = Salamanders ) m5 <- glmmTMB::glmmTMB( count ~ spp + mined + cover + (1 | site), ziformula = ~ spp + mined, family = glmmTMB::truncated_poisson(), data = Salamanders ) test_that("ggpredict, glmmTMB", { p1 <- ggpredict(m3, "mined", type = "fixed") p2 <- ggpredict(m3, "mined", type = "zero_inflated") p3 <- ggpredict(m3, "mined", type = "random") p4 <- ggpredict(m3, "mined", type = "zero_inflated_random") expect_gt(p3$conf.high[1], p1$conf.high[1]) expect_gt(p4$conf.high[1], p2$conf.high[1]) expect_s3_class(ggpredict(m3, "mined", type = "zero_inflated"), "data.frame") }) test_that("ggpredict, glmmTMB", { p1 <- ggpredict(m5, c("mined", "spp", "cover"), type = "fixed") p3 <- ggemmeans(m5, c("mined", "spp", "cover"), type = "fixed") expect_equal(p1$predicted[1], p3$predicted[1], tolerance = 1e-3) }) test_that("ggpredict, glmmTMB", { p1 <- ggpredict(m3, "mined", type = "fixed") p2 <- ggpredict(m3, c("mined", "spp"), type = "zero_inflated") p3 <- ggemmeans(m3, "mined", type = "fixed", condition = c(spp = "GP")) p4 <- ggemmeans(m3, c("mined", "spp"), type = "zero_inflated") p5 <- ggpredict(m3, c("mined", "spp"), type = "fixed") p6 <- ggemmeans(m3, c("mined", "spp"), type = "fixed") expect_equal(p1$predicted[1], p3$predicted[1], tolerance = 1e-3) # expect_equal(p2$predicted[1], p4$predicted[1], tolerance = 1e-3) expect_equal(p5$predicted[1], p6$predicted[1], tolerance = 1e-3) }) test_that("ggpredict, glmmTMB", { skip_on_os("linux") set.seed(123) out <- ggemmeans(m3, "mined", type = "zero_inflated") expect_equal(out$conf.low, c(0.04904, 1.31134), tolerance = 1e-1) set.seed(123) out1 <- ggpredict(m3, "mined", type = "simulate") out2 <- ggaverage(m3, "mined") expect_equal(out1$predicted, out2$predicted, tolerance = 1e-2) }) test_that("ggpredict, glmmTMB", { p1 <- ggpredict(m4, "mined", type = "fixed") p2 <- ggpredict(m4, "mined", type = "zero_inflated") p3 <- ggpredict(m4, "mined", type = "random") p4 <- ggpredict(m4, "mined", type = "zero_inflated_random") expect_gt(p3$conf.high[1], p1$conf.high[1]) expect_gt(p4$conf.high[1], p2$conf.high[1]) p1 <- ggpredict(m4, c("spp", "mined"), type = "fixed") p2 <- ggpredict(m4, c("spp", "mined"), type = "zero_inflated") p3 <- ggpredict(m4, c("spp", "mined"), type = "random") p4 <- ggpredict(m4, c("spp", "mined"), type = "zero_inflated_random") expect_gt(p3$conf.high[1], p1$conf.high[1]) expect_gt(p4$conf.high[1], p2$conf.high[1]) }) test_that("ggpredict, glmmTMB", { p <- ggpredict(m3, "spp", type = "zero_inflated") expect_true(all(p$conf.low > 0)) set.seed(100) p <- ggpredict(m3, "spp", type = "zero_inflated") expect_true(all(p$conf.low > 0)) }) test_that("ggpredict, glmmTMB-simulate", { expect_s3_class(ggpredict(m3, "mined", type = "simulate"), "data.frame") expect_s3_class(ggpredict(m3, c("spp", "mined"), type = "simulate"), "data.frame") expect_s3_class(ggpredict(m4, "mined", type = "simulate"), "data.frame") expect_s3_class(ggpredict(m4, c("spp", "mined"), type = "simulate"), "data.frame") }) test_that("ggpredict, glmmTMB", { data(Salamanders, package = "glmmTMB") md <- glmmTMB::glmmTMB( count ~ spp + mined + (1 | site), ziformula = ~ spp + mined, dispformula = ~DOY, family = glmmTMB::truncated_poisson(), data = Salamanders ) p1 <- ggpredict(md, c("spp", "mined"), type = "fixed") p2 <- ggpredict(md, c("spp", "mined"), type = "zero_inflated") p3 <- suppressWarnings(ggpredict(md, c("spp", "mined"), type = "random")) p4 <- suppressWarnings(ggpredict(md, c("spp", "mined"), type = "zero_inflated_random")) expect_gt(p3$conf.high[1], p1$conf.high[1]) expect_gt(p4$conf.high[1], p2$conf.high[1]) }) test_that("ggpredict, glmmTMB", { data(efc_test) m5 <- glmmTMB::glmmTMB( negc7d ~ c12hour + e42dep + c161sex + c172code + (1 | grp), data = efc_test, ziformula = ~c172code, family = binomial(link = "logit") ) expect_s3_class(ggpredict(m5, "c161sex", type = "fixed"), "data.frame") expect_s3_class(ggpredict(m5, "c161sex", type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m5, "c161sex", type = "random"), "data.frame") expect_s3_class(ggpredict(m5, "c161sex", type = "zero_inflated_random"), "data.frame") }) test_that("validate ggpredict against predict, binomial", { data(efc_test) m6 <- glmmTMB::glmmTMB( negc7d ~ c12hour + e42dep + c161sex + c172code + (1 | grp), data = efc_test, family = binomial(link = "logit") ) expect_s3_class(ggpredict(m6, "c161sex", type = "fixed"), "data.frame") expect_s3_class(ggpredict(m6, "c161sex", type = "random"), "data.frame") nd <- data_grid(m6, "e42dep") pr <- predict(m6, newdata = nd, type = "link", se.fit = TRUE) linv <- insight::link_inverse(m6) dof <- insight::get_df(m6, type = "wald", verbose = FALSE) tcrit <- stats::qt(0.975, df = dof) out1 <- data.frame( predicted = linv(pr$fit), conf.low = linv(pr$fit - tcrit * pr$se.fit), conf.high = linv(pr$fit + tcrit * pr$se.fit) ) out2 <- ggpredict(m6, "e42dep") expect_equal(out1$predicted, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.low, out2$conf.low, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.high, out2$conf.high, tolerance = 1e-4, ignore_attr = TRUE) }) test_that("ggpredict, glmmTMB", { data(efc_test) efc_test$tot_sc_e <- as.numeric(efc_test$tot_sc_e) efc_test$c172code <- as.factor(efc_test$c172code) m7 <- glmmTMB::glmmTMB( tot_sc_e ~ neg_c_7 * c172code + c161sex + (1 | grp), data = efc_test, ziformula = ~c172code, family = glmmTMB::nbinom1() ) expect_s3_class(ggpredict(m7, "neg_c_7"), "data.frame") expect_s3_class(ggpredict(m7, "neg_c_7 [all]"), "data.frame") expect_s3_class(ggpredict(m7, "neg_c_7", type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m7, "neg_c_7 [all]", type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m7, c("neg_c_7", "c172code")), "data.frame") expect_s3_class(ggpredict(m7, c("neg_c_7 [all]", "c172code")), "data.frame") expect_s3_class(ggpredict(m7, c("neg_c_7", "c172code"), type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m7, c("neg_c_7 [all]", "c172code"), type = "zero_inflated"), "data.frame") }) test_that("ggpredict, glmmTMB", { data(efc_test) efc_test$tot_sc_e <- as.numeric(efc_test$tot_sc_e) efc_test$c172code <- as.factor(efc_test$c172code) m8 <- glmmTMB::glmmTMB( tot_sc_e ~ neg_c_7 * c172code + (1 | grp), data = efc_test, ziformula = ~c172code, family = glmmTMB::nbinom1() ) expect_s3_class(ggpredict(m8, "neg_c_7"), "data.frame") expect_s3_class(ggpredict(m8, "neg_c_7 [all]"), "data.frame") expect_s3_class(ggpredict(m8, "neg_c_7", type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m8, "neg_c_7 [all]", type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m8, c("neg_c_7", "c172code")), "data.frame") expect_s3_class(ggpredict(m8, c("neg_c_7 [all]", "c172code")), "data.frame") expect_s3_class(ggpredict(m8, c("neg_c_7", "c172code"), type = "zero_inflated"), "data.frame") expect_s3_class(ggpredict(m8, c("neg_c_7 [all]", "c172code"), type = "zero_inflated"), "data.frame") }) test_that("ggpredict, glmmTMB", { data(Salamanders, package = "glmmTMB") m9 <- glmmTMB::glmmTMB( count ~ spp + cover + mined + (1 | site), ziformula = ~DOY, dispformula = ~spp, data = Salamanders, family = glmmTMB::nbinom2() ) expect_s3_class(ggpredict(m9, c("cover", "mined", "spp"), type = "fixed"), "data.frame") expect_s3_class(ggpredict(m9, c("cover", "mined", "spp"), type = "zero_inflated"), "data.frame") expect_s3_class(suppressWarnings(ggpredict(m9, c("cover", "mined", "spp"), type = "random")), "data.frame") expect_s3_class(suppressWarnings(ggpredict(m9, c("cover", "mined", "spp"), type = "zero_inflated_random")), "data.frame") }) test_that("validate ggpredict against predict, linear, REML-fit", { data(sleepstudy, package = "lme4") # REML-fit m10 <- glmmTMB::glmmTMB( Reaction ~ Days + (1 + Days | Subject), data = sleepstudy, REML = TRUE ) nd <- data_grid(m10, "Days") pr <- predict(m10, newdata = nd, type = "link", se.fit = TRUE) dof <- insight::get_df(m10, type = "wald", verbose = FALSE) tcrit <- stats::qt(0.975, df = dof) out1 <- data.frame( predicted = pr$fit, conf.low = pr$fit - tcrit * pr$se.fit, conf.high = pr$fit + tcrit * pr$se.fit ) out2 <- ggpredict(m10, "Days", type = "random", interval = "confidence") expect_equal(out1$predicted, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.low, out2$conf.low, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.high, out2$conf.high, tolerance = 1e-4, ignore_attr = TRUE) # ML-fit m11 <- glmmTMB::glmmTMB( Reaction ~ Days + (1 + Days | Subject), data = sleepstudy, REML = FALSE ) nd <- data_grid(m11, "Days") pr <- predict(m11, newdata = nd, type = "link", se.fit = TRUE) dof <- insight::get_df(m11, type = "wald", verbose = FALSE) tcrit <- stats::qt(0.975, df = dof) out1 <- data.frame( predicted = pr$fit, conf.low = pr$fit - tcrit * pr$se.fit, conf.high = pr$fit + tcrit * pr$se.fit ) out2 <- ggpredict(m11, "Days") out3 <- ggpredict(m11, "Days", type = "random", interval = "confidence") expect_equal(out1$predicted, out2$predicted, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$predicted, out3$predicted, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.low, out2$conf.low, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.low, out3$conf.low, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.high, out2$conf.high, tolerance = 1e-4, ignore_attr = TRUE) expect_equal(out1$conf.high, out3$conf.high, tolerance = 1e-4, ignore_attr = TRUE) }) test_that("glmmTMB, validate all functions against predict", { data(Salamanders, package = "glmmTMB") m <- glmmTMB::glmmTMB( count ~ spp + (1 | site), ziformula = ~spp, family = glmmTMB::truncated_poisson(), data = Salamanders ) nd <- new_data(m, "spp") out1 <- exp(predict(m, newdata = nd, type = "link")) out2 <- ggpredict(m, "spp", type = "fixed") out3 <- ggaverage(m, "spp", type = "conditional") out4 <- suppressWarnings(marginaleffects::avg_predictions( m, variables = "spp", type = "conditional", re.form = NULL )) expect_equal(out1, out2$predicted, tolerance = 1e-3, ignore_attr = TRUE) expect_equal(out3$predicted, out4$estimate, tolerance = 1e-3, ignore_attr = TRUE) expect_equal( out3$predicted, c(2.36678, 1.70466, 2.7653, 2.05614, 3.94502, 3.74413, 2.38322), tolerance = 1e-3, ignore_attr = TRUE ) out1 <- predict(m, newdata = nd, type = "response") out2 <- ggpredict(m, "spp", type = "zero_inflated") out3 <- ggaverage(m, "spp") out4 <- suppressWarnings(marginaleffects::avg_predictions(m, variables = "spp", re.form = NULL)) expect_equal(out1, out2$predicted, tolerance = 1e-3, ignore_attr = TRUE) expect_equal(out3$predicted, out4$estimate, tolerance = 1e-3, ignore_attr = TRUE) }) test_that("glmmTMB, orderedbeta", { skip_if_not_installed("datawizard") data(mtcars) mtcars$ord <- datawizard::normalize(mtcars$mpg) m <- glmmTMB::glmmTMB( ord ~ wt + hp + as.factor(gear) + (1 | cyl), data = mtcars, family = glmmTMB::ordbeta() ) out1 <- ggpredict(m, "hp [50,80,120,150,250,330]") out2 <- ggaverage(m, "hp [50,80,120,150,250,330]") expect_snapshot(print(out1)) expect_snapshot(print(out2)) })