test_that("neutralLandscapeMap produces consistent rasters", { testInit(c("NLMR")) skip_if_not_installed("NLMR", "1.1.1") rastDF <- needTerraAndRaster() data.table::setDTthreads(1) # inputs for x aOrig <- terra::rast(system.file("extdata", "a.tif", package = "SpaDES.tools")) bOrig <- terra::rast(aOrig) bSimple <- terra::rast(terra::ext(0, 10, 0, 10), res = 1) spRas <- terra::rast(system.file("extdata", "spRas.tif", package = "SpaDES.tools")) for (ii in seq(NROW(rastDF))) { pkg <- rastDF$pkg[ii] cls <- rastDF$class[ii] read <- eval(parse(text = rastDF$read[ii])) n <- 20 nx <- sample.int(300, n) ny <- sample.int(300, n) rlist <- list() crslist <- list( latlon = "+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs", lcc = paste("+proj=lcc +lat_1=49 +lat_2=77 +lat_0=0 +lon_0=-95 +x_0=0 +y_0=0", "+datum=NAD83 +units=m +no_defs +ellps=GRS80 +towgs84=0,0,0"), aea = paste("+proj=aea +lat_0=40 +lon_0=-96 +lat_1=50 +lat_2=70 +x_0=0 +y_0=0", "+datum=NAD83 +units=m +no_defs +type=crs") ) # for (i in seq(NROW(df))) { # pkg <- df$pkg[i] # read <- df$read[i] withr::local_package(pkg) for (i in seq_along(n)) { rastArgs <- list(xmn = -nx[i] / 2, xmx = nx[i] / 2, ymn = -ny[i] / 2, ymx = ny[i] / 2) if (pkg == "terra") { names(rastArgs) <-c("xmin", "xmax", "ymin", "ymax") } rastArgs <- append(rastArgs, list(nrows = ny[i], ncols = nx[i])) r <- do.call(read, rastArgs) ## give some a projection if (i %in% seq_along(length(crslist))) { crs(r) <- crslist[[i]] } rlist[[i]] <- suppressWarnings({ neutralLandscapeMap(r, roughness = 0.65, rand_dev = 100, rescale = FALSE, verbose = FALSE) }) expect_equal(ncol(rlist[[i]]), nx[i]) ## not identical (ncol/nrow can output numeric with terra) expect_equal(nrow(rlist[[i]]), ny[i]) expect_false(any(is.na(rlist[[i]][]))) compareFun <- function(x, y, pkg) { if (pkg == "terra") { terra::compareGeom(x, y, res = TRUE) } else { compareRaster(x, y, res = TRUE, orig = TRUE) } } expect_true(compareFun(r, rlist[[i]], pkg = pkg)) } } })