skip_on_cran() if (!requireNamespace("cmdstanr", quietly = TRUE)) { backend <- "rstan" ## if using rstan backend, models can crash on Windows ## so skip if on windows and cannot use cmdstanr skip_on_os("windows") } else { if (isFALSE(is.null(cmdstanr::cmdstan_version(error_on_NA = FALSE)))) { backend <- "cmdstanr" } } # Packages and data library(testthat) library(data.table) library(multilevelcoda) library(extraoperators) library(brms) library(lme4) data(mcompd) data(sbp) data(psub) cilr <- complr(data = mcompd[ID %in% 1:10, .SD[1:3], by = ID], sbp = sbp, parts = c("TST", "WAKE", "MVPA", "LPA", "SB"), idvar = "ID") test_that("bsub errors for invalid input", { # missing complr expect_error(m <- brmcoda(formula = Stress ~ bilr1 + bilr2 + bilr3 + bilr4 + wilr1 + wilr2 + wilr3 + wilr4 + Female + (1 | ID), chain = 1, iter = 500, seed = 123, backend = backend)) expect_error(m <- brmcoda(complr = psub, formula = Stress ~ bilr1 + bilr2 + bilr3 + bilr4 + wilr1 + wilr2 + wilr3 + wilr4 + Female + (1 | ID), chain = 1, iter = 500, seed = 123, backend = backend)) }) test_that("wilr from brmcoda gives expected predictions", { ## Check prediction using a simulated dataset nGrps <- 100 k <- 3 set.seed(1234) u <- rnorm(nGrps, mean = 0, sd = 1) day1.pa <- 2 + u + rnorm(nGrps, mean = 0, sd = .1) day2.pa <- 3 + u + rnorm(nGrps, mean = 0, sd = .1) day3.pa <- 4 + u + rnorm(nGrps, mean = 0, sd = .1) day1 <- data.table( TST = 479, Wake = 961, Day = 1, PA = day1.pa, ID = seq_len(nGrps)) day2 <- data.table( TST = 480, Wake = 960, Day = 2, PA = day2.pa, ID = seq_len(nGrps)) day3 <- data.table( TST = 481, Wake = 959, Day = 3, PA = day3.pa, ID = seq_len(nGrps)) daydata <- rbind(day1, day2, day3) sbp <- as.matrix(data.table(1, -1)) cilr <- complr(data = daydata, sbp = sbp, parts = c("TST", "Wake"), idvar = "ID") psub <- build.basesub(c("TST", "Wake")) suppressWarnings( m <- brmcoda(complr = cilr, formula = PA ~ wilr1 + (1 | ID), chain = 1, iter = 500, seed = 123, backend = backend)) daydata2 <- cbind(daydata, fitted(m$model)) expect_true(all.equal(daydata2[, PA[Day == 2] - PA[Day == 1]], daydata2[, Estimate[Day == 2] - Estimate[Day == 1]], tolerance = 0.2)) expect_true(all.equal(daydata2[, PA[Day == 2] - PA[Day == 3]], daydata2[, Estimate[Day == 2] - Estimate[Day == 3]], tolerance = 0.2)) })