test_that("2D modelling on the globe", { skip_on_cran() local_bru_safe_inla() set.seed(123L) options <- list( control.inla = list( int.strategy = "eb" ) ) mesh <- fm_rcdt_2d_inla(globe = 2) data <- data.frame( Long = seq(-179, 179, length.out = 100), Lat = seq(-89, 89, length.out = 100) ) data <- within( data, expr = { y <- rpois(nrow(data), exp(1 + sin(Lat / 180 * pi) * 2)) } ) coordinates(data) <- c("Long", "Lat") proj4string(data) <- fm_CRS("longlat_globe") data <- fm_transform(data, crs = fm_CRS("sphere")) matern <- INLA::inla.spde2.pcmatern( mesh, prior.range = c(0.1, 0.01), prior.sigma = c(0.1, 0.01) ) cmp <- y ~ mySmooth(main = coordinates, model = matern) - 1 fit <- bru( cmp, data = data, family = "poisson", options = options ) expect_s3_class(fit, "bru") expect_equal( fit$summary.hyperpar["Range for mySmooth", "mean"], 2.5367148, tolerance = hitol ) expect_equal( fit$summary.hyperpar["Stdev for mySmooth", "mean"], 0.5494477, tolerance = hitol ) }) test_that("2D LGCP modelling on the globe", { skip_on_cran() local_bru_safe_inla() set.seed(123L) options <- list( control.inla = list( int.strategy = "eb" ) ) mesh <- fm_rcdt_2d_inla(globe = 2, crs = fm_CRS("sphere")) data <- data.frame( Long = seq(-179, 179, length.out = 100), Lat = seq(-89, 89, length.out = 100) ) coordinates(data) <- c("Long", "Lat") proj4string(data) <- fm_CRS("longlat_globe") data <- fm_transform(data, crs = fm_CRS("sphere")) data <- sf::st_as_sf(data) matern <- INLA::inla.spde2.pcmatern( mesh, prior.range = c(0.1, 0.01), prior.sigma = c(0.1, 0.01) ) cmp <- geometry ~ mySmooth(main = geometry, model = matern) - 1 expect_equal( sum(fm_int(mesh)$weight), 4 * pi ) fit <- bru( cmp, data = data, family = "cp", domain = list(geometry = mesh), options = options ) expect_s3_class(fit, "bru") expect_equal( fit$summary.hyperpar["Range for mySmooth", "mean"], 1.5192092, tolerance = hitol ) expect_equal( fit$summary.hyperpar["Stdev for mySmooth", "mean"], 0.8297119, tolerance = hitol ) })