test_that("Consensus() errors", { expect_error(Consensus(trees), " a list") bal8 <- BalancedTree(8) oneLeaf <- Consensus(list(DropTip(bal8, 1:7))[c(1, 1, 1)]) expect_equal(class(oneLeaf), "phylo") expect_equal(oneLeaf$Nnode, 0) expect_identical(Consensus(list(DropTip(bal8, 1:8))[c(1, 1, 1)]), DropTip(bal8, 1:8)) expect_warning(expect_true(all.equal( Consensus(list(PectinateTree(6), PectinateTree(8))), PectinateTree(6) )), regexp = "Tree sizes") halfTree <- CollapseNode(bal8, 10:12) expect_equal(Consensus(halfTree), halfTree) expect_equal(Consensus(c(halfTree)), halfTree) expect_equal(Consensus(list(halfTree)), halfTree) expect_error( Consensus(c(BalancedTree(33333), PectinateTree(33333))), "too many leaves" ) }) test_that("Consensus()", { ApeTest <- function(tr, p = 1) { if (!expect_true(all.equal(RootTree(Consensus(tr, p = p), 1), RootTree(ape::consensus(tr, p = p), 1)))) { dput(RootTree(Consensus(tr, p = p), 1)$edge) dput(RootTree(ape::consensus(tr, p = p), 1)$edge) } } trees <- list(BalancedTree(8), PectinateTree(8))[c(1, 1, 1, 1, 2, 2, 2)] trees <- RenumberTips(trees, trees[[1]]) expect_error(Consensus(trees, 2), regexp = "`p`") # p too high expect_error(Consensus(trees, 0.2), regexp = "`p`") # p too low ApeTest(trees) ApeTest(trees, 0.5) expect_equal(Consensus(trees, 0.999), Consensus(trees, 1)) ApeTest(as.phylo(0:2, 8)) ApeTest(as.phylo(0:250, 8)) ApeTest(as.phylo(0:250, 80)) trees <- list(ape::read.tree(text = "((a, b), (c, d));"), ape::read.tree(text = "((a, c), (b, d));")) expect_equal(Consensus(trees), Preorder(StarTree(letters[1:4]))) }) test_that("Consensus() handles large sets of trees", { oneTree <- as.phylo(0, 13) expect_equal( Consensus(lapply(1:33000, function(x) oneTree)), oneTree ) manyTrees <- lapply(1:33000, as.phylo, 13) # More than int16_max expect_equal( Consensus(c(manyTrees[1:16500], lapply(1:16500, function(x) oneTree)), p = 0.5), oneTree ) expect_true(all.equal( Consensus(manyTrees), read.tree(text = "((((((t2,t13),t12),t11),t10),t3,t4,t5,t6,t7,t8,t9),t1);") # i.e. write.tree(ape::consensus(manyTrees)) )) }) test_that("ConsensusWithout() is robust", { tr <- as.phylo(0:6, 16) expect_identical(ConsensusWithout(tr, paste0("t", 1:16)), DropTip(tr[[1]], 1:16)) expect_identical(ConsensusWithout(tr, paste0("t", 1:4)), Consensus(DropTip(tr, 1:4))) expect_true(all.equal(BalancedTree(8), ConsensusWithout(BalancedTree(8)))) expect_true(all.equal(BalancedTree(4), ConsensusWithout(BalancedTree(8), paste0("t", 5:8)))) balAndPec <- list(BalancedTree(8), PectinateTree(8)) t25 <- paste0("t", c(2:5)) expect_true(all.equal(PectinateTree(paste0("t", c("1", 6:8))), ConsensusWithout(balAndPec, t25))) expect_true(all.equal( ConsensusWithout(structure(balAndPec, class = "multiPhylo"), t25), ConsensusWithout(balAndPec, t25)) ) nasty <- structure(list(edge = structure( c(9, 12, 10, 13, 11, 10, 11, 13, 10, 13, 12, 9, 5, 10, 1, 2, 3, 13, 9, 4, 11, 7, 8, 6), .Dim = c(12, 2)), Nnode = 5L, tip.label = letters[1:8]), class = "phylo") # Danger: Do not plot! expect_true(all.equal(Preorder(nasty), ConsensusWithout(nasty))) expect_true(all.equal(DropTip(nasty, 2), ConsensusWithout(nasty, "b"))) })