lsm_padded <- pad_raster(landscape)[[1]] stack_padded <- c(pad_raster(landscape_stack)) matrix_padded <- pad_raster(landscape_matrix, return_raster = FALSE)[[1]] list_padded <- list(lsm_padded, matrix_padded) lsm_padded_large <- pad_raster(landscape, pad_raster_cells = 5)[[1]] test_that("unpad_raster can handle all raster inputs", { expect_type(object = unpad_raster(lsm_padded), type = "list") expect_type(object = unpad_raster(stack_padded), type = "list") expect_type(object = unpad_raster(list_padded, return_raster = FALSE), type = "list") expect_type(object = unpad_raster(matrix_padded, return_raster = FALSE), type = "list") }) test_that("unpad_raster removes correct number of rows/cols", { result_a <- unpad_raster(lsm_padded, unpad_raster_cells = 1)[[1]] result_b <- unpad_raster(lsm_padded_large, unpad_raster_cells = 5)[[1]] # original landscape is 30 x 30 and removing 5 rows/cols in each direction expect_equal(object = terra::nrow(result_a), expected = 30) expect_equal(object = terra::nrow(result_a), expected = 30) # original landscape is 30 x 30 and removing 5 rows/cols in each direction expect_equal(object = terra::nrow(result_b), expected = 30) expect_equal(object = terra::nrow(result_b), expected = 30) }) test_that("unpad_raster can return RasterLayer and matrix", { expect_s4_class(object = unpad_raster(lsm_padded)[[1]], class = "SpatRaster") res_mat <- unpad_raster(matrix_padded, return_raster = FALSE)[[1]] expect_true(is.matrix(res_mat)) }) test_that("unpad_raster can return write to disk", { result <- unpad_raster(lsm_padded, to_disk = TRUE) expect_false(object = terra::inMemory(result[[1]])) }) test_that("unpad_raster returns warning for matrix and return_raster = TRUE", { expect_warning(object = unpad_raster(matrix_padded, return_raster = TRUE), regexp = "'return_raster = TRUE' or 'to_disk = TRUE' not able for matrix input.") expect_warning(object = unpad_raster(matrix_padded, to_disk = TRUE), regexp = "'return_raster = TRUE' or 'to_disk = TRUE' not able for matrix input.") })