skip_if(!is_slendr_env_present()) init_env(quiet = TRUE) set.seed(42) script_file <- tempfile() ts_file <- normalizePath(tempfile(), winslash = "/", mustWork = FALSE) loc_file <- normalizePath(tempfile(), winslash = "/", mustWork = FALSE) writeLines(sprintf(' initialize() { initializeSLiMOptions(keepPedigrees = T, dimensionality = "xy"); initializeTreeSeq(); initializeMutationRate(0); initializeMutationType("m1", 0.5, "f", 0.0); initializeGenomicElementType("g1", m1, 1.0); initializeGenomicElement(g1, 0, 1e6); initializeRecombinationRate(1e-8); } 1 late() { sim.addSubpop("p1", 100); p1.individuals.x = runif(p1.individualCount); p1.individuals.y = runif(p1.individualCount); } modifyChild() { do child.x = parent1.x + rnorm(1, 0, 0.02); while ((child.x < 0.0) | (child.x > 1.0)); do child.y = parent1.y + rnorm(1, 0, 0.02); while ((child.y < 0.0) | (child.y > 1.0)); return T; } 5000 late() { sim.treeSeqOutput("%s"); for (ind in sim.subpopulations.individuals) { writeFile("%s", paste(ind.spatialPosition, ind.pedigreeID, sep = "\t"), append = T); } } ', ts_file, loc_file), script_file) system2("slim", script_file, stdout = FALSE) suppressMessages( ts <- ts_load(ts_file) %>% ts_recapitate(Ne = 100, recombination_rate = 1e-8) %>% ts_simplify() ) test_that("non-slendr SLiM tree sequence locations are correctly loaded", { data <- ts_nodes(ts, sf = FALSE) %>% dplyr::arrange(pedigree_id) %>% dplyr::select(x, y, pedigree_id) %>% dplyr::distinct() %>% dplyr::filter(!is.na(pedigree_id)) %>% as.data.frame() locations <- readr::read_tsv( loc_file, col_types = "ddi", col_names = c("x", "y", "pedigree_id") ) %>% dplyr::arrange(pedigree_id) expect_true(all.equal(data$x, locations$x, tolerance = 0.00001)) expect_true(all.equal(data$y, locations$y, tolerance = 0.00001)) expect_true(all(data$pedigree_id == locations$pedigree_id)) }) test_that("ts_ibd() on spatial SLiM tree sequences works with coordinates = (T|F)", { suppressWarnings(ibd_totals <- ts_ibd(ts, coordinates = FALSE, sf = FALSE)) suppressWarnings(ibd_fragments <- ts_ibd(ts, coordinates = TRUE, sf = FALSE)) # compute IBD totals from individual fragments manually ibd_totals2 <- dplyr::group_by(ibd_fragments, node1, node2, node1_time, node2_time) %>% dplyr::summarise(count = dplyr::n(), total = sum(length), .groups = "keep") %>% dplyr::select(count, total, dplyr::everything()) %>% dplyr::select(node1, node2, count, total, node1_time, node2_time) %>% dplyr::ungroup() expect_equal(ibd_totals, ibd_totals2) }) test_that("ts_ibd() on spatial SLiM tree sequences gives a correct sf object", { ibd_sf <- ts_ibd(ts, coordinates = FALSE, minimum_length = 1e6) ibd_nosf <- ts_ibd(ts, coordinates = FALSE, minimum_length = 1e6, sf = FALSE) # returned object is of a sf class (or not), as requested by the user expect_s3_class(ibd_sf, "sf") expect_true(!inherits(ibd_nosf, "sf")) # except for the spatial columns, the IBD results are the same expect_equal(as.data.frame(ibd_sf)[, c("node1", "node2", "count", "total", "node1_time", "node2_time")], as.data.frame(ibd_nosf)) })