library("TreeTools") test_that("VisualizeMatching() works", { tree1 <- PectinateTree(1:11) tree2 <- tree1 tree2$tip.label[c(11, 1)] <- tree1$tip.label[c(1, 11)] tree2r <- CollapseNode(tree2, 20:21) Minus <- function(...) { x <- MutualClusteringInfo(...) attr(x, "pairScores") <- -attr(x, "pairScores") x } expect_error(VisualizeMatching(Minus, PectinateTree(8), BalancedTree(8), setPar = FALSE)) skip_if_not_installed("vdiffr") skip_if(packageVersion("graphics") < "4.3") skip_if(packageVersion("vdiffr") < "1.0") TestVM <- function() { VisualizeMatching(MutualClusteringInfo, tree1, tree2, setPar = TRUE, precision = 3, matchZeros = FALSE, Plot = plot.phylo) } vdiffr::expect_doppelganger("Test VM", TestVM) TestVMr <- function() { VisualizeMatching(MutualClusteringInfo, tree1, tree2r, setPar = TRUE, precision = 3, matchZeros = TRUE, Plot = plot.phylo, cex = 1.5) } vdiffr::expect_doppelganger("Test VMr", TestVMr) vdiffr::expect_doppelganger("Visualize MCI matching", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- ape::read.tree(text="((1, 2), ((3, (4, 5)), (6, (7, (8, 9)))));") tree2 <- ape::read.tree(text="((1, 2), ((3, 4, (5, 9)), (6, (7, 8))));") VisualizeMatching(MutualClusteringInfo, tree1, tree2, setPar = FALSE, precision = 3L, Plot = TreeDistPlot, matchZeros = FALSE, leaveRoom = FALSE) VisualizeMatching(MutualClusteringInfo, tree2, tree1, setPar = FALSE, precision = 3, Plot = TreeDistPlot, matchZeros = FALSE, leaveRoom = FALSE) }) vdiffr::expect_doppelganger("RF: Collapse a node", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- ape::read.tree(text="((1, 2), ((6, (7, 8)), (3, 4, (5, 9))));") tree2 <- ape::read.tree(text="((1, 2), ((3, (4, (5, 9))), (6, (7, 8))));") VisualizeMatching(RobinsonFouldsMatching, tree1, tree2, setPar = FALSE, precision = 3, Plot = TreeDistPlot, matchZeros = TRUE, leaveRoom = FALSE) VisualizeMatching(RobinsonFouldsMatching, tree2, tree1, setPar = FALSE, precision = 3, Plot = TreeDistPlot, matchZeros = FALSE, leaveRoom = FALSE) }) vdiffr::expect_doppelganger("RF: Collapse and change", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- ape::read.tree(text="((1, 2), ((6, (7, 8)), (3, 4, (5, 9))));") tree2 <- ape::read.tree(text="((1, 2), ((3, (4, (5, 9))), ((6, 7), 8)));") VisualizeMatching(RobinsonFouldsMatching, tree1, tree2, setPar = FALSE, precision = 3L, Plot = TreeDistPlot, matchZeros = TRUE, leaveRoom = FALSE) VisualizeMatching(RobinsonFouldsMatching, tree2, tree1, setPar = FALSE, precision = 3L, Plot = TreeDistPlot, matchZeros = FALSE, leaveRoom = FALSE) }) vdiffr::expect_doppelganger("RF VM Single splits; plainEdges", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- ape::read.tree(text = "((1, 2), (3, 4, 5, 6, 7, 8));") tree2 <- ape::read.tree(text = "((1, 2, 3), (4, 5, 6, 7, 8));") VisualizeMatching(RobinsonFouldsMatching, tree1, tree2, setPar = FALSE, Plot = TreeDistPlot, matchZeros = TRUE, plainEdges = TRUE, edge.width = NULL, leaveRoom = FALSE) VisualizeMatching(RobinsonFouldsMatching, tree2, tree1, setPar = FALSE, Plot = TreeDistPlot, matchZeros = FALSE, plainEdges = FALSE, leaveRoom = FALSE) }) vdiffr::expect_doppelganger("JRF VM matchZeros FALSE", function() { JRF2 <- function(tree1, tree2, ...) JaccardRobinsonFoulds(tree1, tree2, k = 2, allowConflict = FALSE, ...) tree1 <- RootTree(as.phylo(704564, 10), paste0("t", c(1, 4, 5, 8, 9))) tree2 <- RootTree(as.phylo(20165 , 10), paste0("t", c(1, 4))) VisualizeMatching(JRF2, tree1, tree2, matchZeros = FALSE) }) }) test_that("VisualizeMatching() handles unrooted trees", { skip_if_not_installed("graphics", "4.3") skip_if_not_installed("vdiffr", "1.0") vdiffr::expect_doppelganger("VM unrooted", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- UnrootTree(BalancedTree(1:5)) tree2 <- UnrootTree(PectinateTree(1:5)) VisualizeMatching(RobinsonFouldsMatching, tree1, tree2, setPar = FALSE, Plot = TreeDistPlot) }) vdiffr::expect_doppelganger("VM one rooted", function() { par(mfrow = c(2, 2), mar = rep(0.1, 4), cex = 1.5) tree1 <- UnrootTree(BalancedTree(1:5)) tree2 <- PectinateTree(1:5) VisualizeMatching(RobinsonFouldsMatching, tree1, tree2, setPar = FALSE, Plot = TreeDistPlot) }) })