# test_that("Simulated residuals work", { # skip_on_cran() # skip_if_not_installed("INLA") # fit <- sdmTMB(density ~ as.factor(year) + poly(depth, 2), # data = pcod_2011, time = "year", mesh = pcod_mesh_2011, # family = tweedie(link = "log"), spatial = "off", # spatiotemporal = "off" # ) # s <- simulate(fit, nsim = 50) # dharma_residuals(s, fit) # r <- dharma_residuals(s, fit, plot = FALSE) # expect_equal(class(r), "data.frame") # expect_error(dharma_residuals(c(1, 2, 3), fit)) # expect_error(dharma_residuals(matrix(c(1, 2, 3)), fit)) # expect_error(dharma_residuals(s, fit, plot = "test")) # expect_error(dharma_residuals(s, 99)) # }) test_that("randomized quantile residuals work,", { skip_on_cran() set.seed(1) predictor_dat <- data.frame(X = runif(2000), Y = runif(2000)) mesh <- make_mesh(predictor_dat, xy_cols = c("X", "Y"), cutoff = 0.2) sim_dat <- function(family, phi = 0.2, sigma_O = 0.2) { set.seed(1) sdmTMB_simulate( formula = ~1, data = predictor_dat, mesh = mesh, family = family, range = 0.5, phi = phi, sigma_O = sigma_O, seed = 1, B = 0 ) } check_resids <- function(fit) { set.seed(123) r <- residuals(fit, type = "mle-mvn") qqnorm(r) abline(0, 1) p <- stats::shapiro.test(r) expect_gt(p$p.value, 0.01) invisible(r) } check_resids_dharma <- function(fit) { set.seed(1) dharma_residuals(simulate(fit, nsim = 100, type = "mle-mvn"), fit) } d <- sim_dat(gaussian()) fit <- sdmTMB( observed ~ 1, family = gaussian(), data = d, mesh = mesh ) check_resids(fit) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(lognormal()) fit <- sdmTMB( observed ~ 1, family = lognormal(), data = d, mesh = mesh ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(Gamma(link = "log"), phi = 0.3, sigma_O = 0.001) fit <- sdmTMB( observed ~ 0, family = Gamma(link = "log"), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(binomial(), sigma_O = 0.0001) fit <- sdmTMB( observed ~ 1, family = binomial(), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(nbinom2(), sigma_O = 0.0001) fit <- sdmTMB( observed ~ 0, family = nbinom2(), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(nbinom1(), sigma_O = 0.001) fit <- sdmTMB( observed ~ 0, family = nbinom1(), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(Beta(), phi = 5, sigma_O = 0.001) fit <- sdmTMB( observed ~ 1, family = Beta(), data = d, mesh = mesh, spatial = 'off', spatiotemporal = 'off' ) check_resids(fit) check_resids_dharma(fit) set.seed(1) d <- sim_dat(poisson()) fit <- sdmTMB( observed ~ 1, family = poisson(), data = d, mesh = mesh ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(student(df = 2)) fit <- sdmTMB( observed ~ 1, family = student(df = 2), data = d, mesh = mesh ) check_resids(fit) check_resids_dharma(fit) # wrong df: fit <- sdmTMB( observed ~ 1, family = student(df = 10), data = d, mesh = mesh ) expect_message(r <- residuals(fit), "mle") set.seed(1) r <- residuals(fit, type = "mle-mvn") qqnorm(r) qqline(r) p <- stats::shapiro.test(r) expect_lt(p$p.value, 0.05) # less than 0.05! check_resids_dharma(fit) d <- sim_dat(tweedie()) fit <- sdmTMB( observed ~ 1, family = tweedie(), data = d, mesh = mesh ) check_resids(fit) check_resids_dharma(fit) d <- sim_dat(truncated_nbinom2()) fit <- sdmTMB( observed ~ 1, family = truncated_nbinom2(), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) expect_error(residuals(fit, type = "mle-mvn"), regexp = "truncated_nbinom2") check_resids_dharma(fit) d <- sim_dat(truncated_nbinom1()) fit <- sdmTMB( observed ~ 1, family = truncated_nbinom1(), data = d, mesh = mesh, spatial = "off", spatiotemporal = "off" ) expect_error(residuals(fit, type = "mle-mvn"), regexp = "truncated_nbinom1") check_resids_dharma(fit) }) test_that("residuals() works", { skip_on_cran() pcod_spde <- make_mesh(pcod, c("X", "Y"), cutoff = 15) # fit <- sdmTMB(density ~ 1, spatial = "off", # data = pcod, mesh = pcod_spde, # family = tweedie() # ) # NaNs on some systems!? # r <- residuals(fit) # expect_true(length(r) == nrow(pcod)) # expect_true(sum(is.na(r)) == 0L) fit <- sdmTMB(present ~ 1, spatial = "off", data = pcod, mesh = pcod_spde, family = binomial() ) r <- residuals(fit, type = "mle-eb") expect_true(length(r) == nrow(pcod)) expect_true(sum(is.na(r)) == 0L) fit <- sdmTMB(density ~ 1, data = pcod, mesh = pcod_spde, family = delta_gamma(), spatial = "on", control = sdmTMBcontrol(newton_loops = 1) ) r <- residuals(fit) r <- residuals(fit, model = 1, type = "mle-eb") qqnorm(r) set.seed(1) r <- residuals(fit, model = 2, type = "mle-eb") qqnorm(r[!is.na(r)]) # matches the Gamma positive-only model: pos <- subset(pcod, density > 0) mesh <- make_mesh(pos, c("X", "Y"), mesh = pcod_spde$mesh) fit2 <- sdmTMB(density ~ 1, data = pos, mesh = mesh, family = Gamma(link = "log"), spatial = "on", control = sdmTMBcontrol(newton_loops = 1) ) set.seed(1) rpos <- residuals(fit2, type = "mle-eb") expect_equal(as.double(r[!is.na(r)]), rpos) rpos <- residuals(fit2, type = "mle-mvn") }) test_that("Pearson residuals work", { # binomial proportion set.seed(1) w <- sample(1:9, size = 300, replace = TRUE) dat <- data.frame(y = stats::rbinom(300, size = w, 0.5)) dat$prop <- dat$y / w m <- sdmTMB(prop ~ 1, data = dat, weights = w, family = binomial(), spatial = "off") m1 <- glmmTMB::glmmTMB(prop ~ 1, data = dat, weights = w, family = binomial()) r <- residuals(m, type = "pearson") r1 <- residuals(m1, type = "pearson") expect_equal(as.numeric(r), as.numeric(r1)) # binomial cbind dat$y0 <- w - dat$y m <- sdmTMB(cbind(y, y0) ~ 1, data = dat, family = binomial(), spatial = "off") m1 <- glmmTMB::glmmTMB(cbind(y, y0) ~ 1, data = dat, family = binomial()) r <- residuals(m, type = "pearson") r1 <- residuals(m1, type = "pearson") expect_equal(as.numeric(r), as.numeric(r1)) # gaussian m <- sdmTMB(prop ~ 1, data = dat, family = gaussian(), spatial = "off") m1 <- glmmTMB::glmmTMB(prop ~ 1, data = dat, family = gaussian()) r <- residuals(m, type = "pearson") r1 <- residuals(m1, type = "pearson") expect_equal(as.numeric(r), as.numeric(r1), tolerance = 1e-6) # gamma set.seed(1) dat$y <- rlnorm(300, 0.4, 0.3) m <- sdmTMB(y ~ 1, data = dat, family = Gamma(link = "log"), spatial = "off") m1 <- glmmTMB::glmmTMB(y ~ 1, data = dat, family = Gamma(link = "log")) r <- residuals(m, type = "pearson") r1 <- residuals(m1, type = "pearson") expect_equal(as.numeric(r), as.numeric(r1)) # poisson set.seed(1) dat$y <- rpois(300, 0.4) m <- sdmTMB(y ~ 1, data = dat, family = poisson(link = "log"), spatial = "off") m1 <- glmmTMB::glmmTMB(y ~ 1, data = dat, family = poisson(link = "log")) r <- residuals(m, type = "pearson") r1 <- residuals(m1, type = "pearson") expect_equal(as.numeric(r), as.numeric(r1)) # FIXME: add variance functions; requires fancy environment Theta passing set.seed(1) dat$y <- rnbinom(300, 0.4, 0.3) m <- sdmTMB(y ~ 1, data = dat, family = nbinom2(), spatial = "off") # m1 <- glmmTMB::glmmTMB(y ~ 1, data = dat, family = glmmTMB::nbinom2()) expect_error(r <- residuals(m, type = "pearson"), regexp = "Variance") # r1 <- residuals(m1, type = "pearson") # expect_equal(as.numeric(r), as.numeric(r1)) }) test_that("MCMC residuals throw error as needed", { skip_on_cran() fit_dg <- sdmTMB( density ~ 1, data = pcod_2011, mesh = pcod_mesh_2011, family = delta_gamma() ) expect_error({ r <- residuals(fit_dg, type = "mle-mcmc", mcmc_iter = 101, mcmc_warmup = 100) }, regexp = "mcmc") }) test_that("MCMC residuals work with sdmTMBextra", { skip_on_cran() skip_if_not_installed("sdmTMBextra") skip_if_not_installed("rstan") d <- pcod_2011 set.seed(1) d$offset <- rnorm(nrow(d)) fit_dg <- sdmTMB( density ~ 1, data = d, mesh = pcod_mesh_2011, offset = d$offset, family = delta_gamma() ) set.seed(1) p0 <- sdmTMBextra::predict_mle_mcmc(fit_dg, mcmc_iter = 11, mcmc_warmup = 10) set.seed(1) p1 <- sdmTMBextra::predict_mle_mcmc(fit_dg, mcmc_iter = 11, mcmc_warmup = 10, model = 1 ) set.seed(1) p2 <- sdmTMBextra::predict_mle_mcmc(fit_dg, mcmc_iter = 11, mcmc_warmup = 10, model = 2 ) expect_equal(p0, p1) set.seed(1) r1 <- residuals(fit_dg, type = "mle-mcmc", mcmc_samples = p1) set.seed(1) r2 <- residuals(fit_dg, type = "mle-mcmc", mcmc_samples = p2) qqnorm(r1) qqnorm(r2) expect_false(identical(r1, r2)) expect_true(max(r1) < 5) expect_true(min(r1) > -5) expect_true(max(r2) < 5) expect_true(min(r2) > -5) }) test_that("predict_mle_mcmc() works with extra_time #297", { skip_on_cran() skip_if_not_installed("sdmTMBextra") skip_if_not_installed("rstan") fit <- sdmTMB( density ~ 1, time = "year", spatiotemporal = "rw", spatial = "on", mesh = pcod_mesh_2011, data = pcod_2011, family = tweedie(link = "log"), extra_time = c(2012, 2014, 2016) ) set.seed(123) samps <- sdmTMBextra::predict_mle_mcmc(fit, mcmc_iter = 11, mcmc_warmup = 10) expect_true(nrow(samps) == 969L) }) test_that("all residuals work with extra time and offsets #326", { skip_on_cran() skip_if_not_installed("sdmTMBextra") mesh <- make_mesh(pcod, c("X", "Y"), cutoff = 30) pcod$os <- rep(log(0.01), nrow(pcod)) # offset m <- sdmTMB( data = pcod, formula = density ~ 1, mesh = mesh, offset = pcod$os, family = tweedie(link = "log"), spatial = "on", time = "year", extra_time = c(2006, 2008, 2010, 2012, 2014, 2016), spatiotemporal = "off" ) set.seed(1) r <- residuals(m, type = "mle-eb") expect_true(is.vector(r)) expect_equal(round(r, 3)[1:10], c(1.182, 0.671, -1.095, 0.511, -0.874, -0.521, 0.018, -1.19, 0.069, 0.973)) set.seed(1) expect_equal(length(r), 2143L) r <- residuals(m, type = "mle-eb") expect_equal(length(r), 2143L) r <- residuals(m, type = "response") expect_equal(length(r), 2143L) set.seed(1) p1 <- sdmTMBextra::predict_mle_mcmc(m, mcmc_iter = 11, mcmc_warmup = 10 ) r <- residuals(m, type = "mle-mcmc", mcmc_samples = p1) expect_equal(length(r), 2143L) }) test_that("old residual types get flagged with a message", { fit <- sdmTMB( present ~ 1, data = pcod_2011, spatial = "off", family = binomial() ) expect_message(r <- residuals(fit), regexp = "'mle-eb'") expect_message(r <- residuals(fit, type = "mle-laplace"), regexp = "'mle-eb'") r <- residuals(fit, type = "mle-mvn") expect_length(r, 969L) })