test_data <- function() { data(Poisson2_1D, package = "inlabru", envir = environment()) x <- seq(0, 55, length = 50) mesh1D <- fm_mesh_1d(x, boundary = "free", degree = 2) matern <- INLA::inla.spde2.pcmatern( mesh1D, prior.range = c(150, 0.75), prior.sigma = c(0.1, 0.75), constr = TRUE ) mdl <- x ~ spde1D(main = x, model = matern) + Intercept(1) fit <- lgcp( mdl, pts2, domain = list(x = mesh1D), options = list( control.inla = list(int.strategy = "eb") ) ) list( mesh1D = mesh1D, fit = fit ) } test_that("1D LGCP fitting", { skip_on_cran() local_bru_safe_inla() result <- test_data() mesh1D <- result$mesh1D fit <- result$fit # Needed for reproducible predict set.seed(123L) expect_s3_class(fit, "bru") expect_equal( fit$summary.fixed["Intercept", "mean"], 0.60974, tolerance = midtol ) expect_equal( fit$summary.fixed["Intercept", "sd"], 0.10916, tolerance = midtol ) expect_snapshot_value( fit$summary.random$spde1D$mean[c(1, 27, 50)], tolerance = midtol, style = "deparse" ) expect_snapshot_value( fit$summary.random$spde1D$sd[c(2, 32, 29)], tolerance = midtol, style = "deparse" ) skip_if_not_installed("sn") # predicted intensity integral ips <- fm_int(mesh1D, name = "x") Lambda <- predict( fit, ips, ~ sum(weight * exp(spde1D + Intercept)), n.samples = 100, seed = 4354 ) expect_equal(Lambda$mean, 130.25, tolerance = hitol) expect_equal(Lambda$sd, 12.28, tolerance = 1) }) test_data_discrete <- function() { data(Poisson2_1D, package = "inlabru", envir = environment()) xx <- ceiling(pts2$x) data <- data.frame(x = xx) x <- seq(1, 55, length = 55) mesh1D <- fm_mesh_1d(x, boundary = "free") matern <- INLA::inla.spde2.pcmatern(mesh1D, prior.range = c(0.01, 0.01), prior.sigma = c(1, 0.01), constr = TRUE ) mdl <- x ~ spde1D(main = x, model = matern) + Intercept(1) fit <- lgcp(mdl, data = data, domain = list(x = x), options = list( control.inla = list(int.strategy = "eb") ) ) list( mesh1D = mesh1D, fit = fit ) } test_that("1D LGCP fitting, discrete point domain", { skip_on_cran() local_bru_safe_inla() result <- test_data_discrete() mesh1D <- result$mesh1D fit <- result$fit # Needed for reproducible predict set.seed(123L) expect_s3_class(fit, "bru") expect_equal( fit$summary.fixed["Intercept", "mean"], 0.605155, tolerance = hitol ) expect_equal( fit$summary.fixed["Intercept", "sd"], 0.11224, tolerance = hitol ) expect_snapshot_value( fit$summary.random$spde1D$mean[c(1, 27, 50)], tolerance = hitol, style = "deparse" ) expect_snapshot_value( fit$summary.random$spde1D$sd[c(2, 32, 29)], tolerance = hitol, style = "deparse" ) skip_if_not_installed("sn") # predicted intensity integral ips <- data.frame(x = 1:55, weight = 1) Lambda <- predict( fit, ips, ~ sum(weight * exp(spde1D + Intercept)), n.samples = 100, seed = 4354 ) expect_equal(Lambda$mean, 130.127, tolerance = hitol) expect_equal(Lambda$sd, 11.09, tolerance = 1) }) test_that("1D LGCP fitting, compressed format", { skip_on_cran() local_bru_safe_inla() local_bru_options_set( control.inla = list(int.strategy = "eb"), control.compute = list(dic = FALSE, waic = FALSE) ) data(Poisson2_1D, package = "inlabru", envir = environment()) x <- seq(0, 55, length = 50) mesh1D <- fm_mesh_1d(x, boundary = "free") matern <- INLA::inla.spde2.pcmatern( mesh1D, prior.range = c(1, 0.01), prior.sigma = c(0.1, 0.75), constr = TRUE ) mdl <- ~ spde1D(main = x, model = matern) + Intercept(1) fit1 <- bru( mdl, like( formula = x ~ ., family = "cp", data = pts2, domain = list(x = mesh1D), options = list(bru_compress_cp = FALSE) ) ) fit2 <- bru( mdl, like( formula = x ~ ., family = "cp", data = pts2, domain = list(x = mesh1D), options = list(bru_compress_cp = TRUE) ) ) expect_equal( fit1$summary.hyperpar, fit2$summary.hyperpar, tolerance = hitol ) expect_equal( fit1$summary.fixed, fit2$summary.fixed, tolerance = midtol ) expect_equal( fit1$summary.random, fit2$summary.random, tolerance = midtol ) fit3 <- bru( mdl, like( formula = x ~ spde1D + Intercept, family = "cp", data = pts2, domain = list(x = mesh1D), options = list(bru_compress_cp = FALSE) ) ) fit4 <- bru( mdl, like( formula = x ~ spde1D + Intercept, family = "cp", data = pts2, domain = list(x = mesh1D), options = list(bru_compress_cp = TRUE) ) ) expect_equal( fit3$summary.hyperpar, fit4$summary.hyperpar, tolerance = hitol ) expect_equal( fit3$summary.fixed, fit4$summary.fixed, tolerance = midtol ) expect_equal( fit3$summary.random, fit4$summary.random, tolerance = midtol ) })