context("plot_cv") #################### # plot_cv testthat # #################### # Generate testing data ## Environmental Covariates library(envi) library(spatstat.data) library(spatstat.geom) library(spatstat.random) library(terra) set.seed(1234) # -------------- # # Prepare inputs # # -------------- # # Using the `bei` and `bei.extra` data from {spatstat.data} elev <- spatstat.data::bei.extra$elev grad <- spatstat.data::bei.extra$grad elev$v <- scale(elev) grad$v <- scale(grad) elev_raster <- terra::rast(elev) grad_raster <- terra::rast(grad) ## Presence Locations presence <- spatstat.data::bei spatstat.geom::marks(presence) <- data.frame("presence" = rep(1, presence$n), "lon" = presence$x, "lat" = presence$y) spatstat.geom::marks(presence)$elev <- elev[presence] spatstat.geom::marks(presence)$grad <- grad[presence] # (Pseudo-)Absence Locations set.seed(1234) # for reproducibility absence <- spatstat.random::rpoispp(0.008, win = elev) spatstat.geom::marks(absence) <- data.frame("presence" = rep(0, absence$n), "lon" = absence$x, "lat" = absence$y) spatstat.geom::marks(absence)$elev <- elev[absence] spatstat.geom::marks(absence)$grad <- grad[absence] # Combine obs_locs <- spatstat.geom::superimpose(presence, absence, check = FALSE) obs_locs <- spatstat.geom::marks(obs_locs) obs_locs$id <- seq(1, nrow(obs_locs), 1) obs_locs <- obs_locs[ , c(6, 2, 3, 1, 4, 5)] # Prediction Data predict_xy <- terra::crds(elev_raster) predict_locs <- as.data.frame(predict_xy) colnames(predict_locs) <- c("lon", "lat") predict_locs$elev <- terra::extract(elev_raster, predict_xy)[ , 1] predict_locs$grad <- terra::extract(grad_raster, predict_xy)[ , 1] # Run lrren test_lrren <- envi::lrren(obs_locs = obs_locs, predict = FALSE, predict_locs = NULL, conserve = TRUE, cv = TRUE, kfold = 10, balance = TRUE, parallel = FALSE, n_core = NULL, poly_buffer = NULL, obs_window = NULL, verbose = FALSE) test_lrren1 <- envi::lrren(obs_locs = obs_locs, predict = FALSE, predict_locs = NULL, conserve = TRUE, cv = FALSE, kfold = 10, balance = TRUE, parallel = FALSE, n_core = NULL, poly_buffer = NULL, obs_window = NULL, verbose = FALSE) test_lrren2 <- envi::lrren(obs_locs = obs_locs, predict = FALSE, predict_locs = NULL, conserve = TRUE, cv = TRUE, kfold = 10, balance = FALSE, parallel = FALSE, n_core = NULL, poly_buffer = NULL, obs_window = NULL, verbose = FALSE) test_that("plot_cv throws error with invalid arguments", { # plot_cv without lrren output expect_error( plot_cv(input = NULL, alpha = 0.05) ) dev.off() # reset graphics # plot_cv with lrren output where cv = FALSE expect_error( plot_cv(input = test_lrren1, alpha = 0.05) ) # incorrect alpha expect_error( plot_cv(input = test_lrren, alpha = 0) ) } ) dev.off() # reset graphics test_that("plot_cv works", { skip_on_cran() # Balanced sampling expect_silent( plot_cv(input = test_lrren, alpha = 0.05) ) # Unbalanced sampling expect_silent( plot_cv(input = test_lrren2, alpha = 0.05) ) } )