-## pic.R (2009-05-10)
+## pic.R (2011-03-01)
## Phylogenetically Independent Contrasts
-## Copyright 2002-2009 Emmanuel Paradis
+## Copyright 2002-2011 Emmanuel Paradis
## This file is part of the R-package `ape'.
## See the file ../COPYING for licensing issues.
if (!inherits(phy, "phylo"))
stop("object 'phy' is not of class \"phylo\"")
if (is.null(phy$edge.length))
- stop("your tree has no branch lengths: you may consider setting them equal to one, or using the function `compute.brlen'.")
+ stop("your tree has no branch lengths")
nb.tip <- length(phy$tip.label)
nb.node <- phy$Nnode
if (nb.node != nb.tip - 1)
if (length(x) != nb.tip)
stop("length of phenotypic and of phylogenetic data do not match")
if (any(is.na(x)))
- stop("the present method cannot (yet) be used directly with missing data: you may consider removing the species with missing data from your tree with the function `drop.tip'.")
+ stop("missing data in 'x': you may consider removing the species with missing data from your tree with the function 'drop.tip'.")
phy <- reorder(phy, "pruningwise")
phenotype <- numeric(nb.tip + nb.node)
phenotype[1:nb.tip] <- x[phy$tip.label]
else {
phenotype[1:nb.tip] <- x
- warning('the names of argument "x" and the tip labels of the tree did not match: the former were ignored in the analysis.')
+ warning("the names of argument 'x' and the tip labels of the tree did not match: the former were ignored in the analysis.")
}
}
## No need to copy the branch lengths: they are rescaled
## in the C code, so it's important to leave the default
## `DUP = TRUE' of .C.
- contr <- var.con <- numeric(nb.node)
ans <- .C("pic", as.integer(nb.tip), as.integer(nb.node),
as.integer(phy$edge[, 1]), as.integer(phy$edge[, 2]),
as.double(phy$edge.length), as.double(phenotype),
- as.double(contr), as.double(var.con),
+ double(nb.node), double(nb.node),
as.integer(var.contrasts), as.integer(scaled),
PACKAGE = "ape")
##
##}
contr <- ans[[7]]
+ lbls <-
+ if (is.null(phy$node.label)) as.character(1:nb.node + nb.tip)
+ else phy$node.label
if (var.contrasts) {
contr <- cbind(contr, ans[[8]])
- dimnames(contr) <- list(1:nb.node + nb.tip, c("contrasts", "variance"))
- } else names(contr) <- 1:nb.node + nb.tip
+ dimnames(contr) <- list(lbls, c("contrasts", "variance"))
+ } else names(contr) <- lbls
contr
}
+
+pic.ortho <- function(x, phy, var.contrasts = FALSE, intra = FALSE)
+{
+ n <- length(x)
+ m <- n - 1L # number of nodes
+ phy <- reorder(phy, "pruningwise")
+ xx <- unlist(lapply(x, mean)) # 'x' in Felsenstein's paper
+ xx <- c(xx, numeric(m))
+ delta.v <- numeric(n + m)
+ s <- 1/unlist(lapply(x, length))
+ s <- c(s, numeric(m))
+ contrast <- var.cont <- numeric(m)
+
+ i <- 1L
+ while (i < m + n) {
+ d1 <- phy$edge[i, 2]
+ d2 <- phy$edge[i + 1L, 2]
+ a <- phy$edge[i, 1]
+ tmp1 <- 1/(phy$edge.length[i] + delta.v[d1])
+ tmp2 <- 1/(phy$edge.length[i + 1L] + delta.v[d2])
+ xx[a] <- (tmp1 * xx[d1] + tmp2 * xx[d2])/(tmp1 + tmp2)
+ delta.v[a] <- 1/(tmp1 + tmp2)
+ f1 <- tmp1/(tmp1 + tmp2)
+ f2 <- tmp2/(tmp1 + tmp2)
+ s[a] <- f1*f1 * s[d1] + f2*f2 * s[d2]
+ tmp <- 1/(s[d1] + s[d2])
+ contrast[a - n] <- (xx[d1] - xx[d2]) * sqrt(tmp)
+ var.cont[a - n] <- (1/tmp1 + 1/tmp2) * tmp
+ i <- i + 2L
+ }
+
+ lbls <-
+ if (is.null(phy$node.label)) as.character(1:m + n)
+ else phy$node.label
+
+ if (var.contrasts) {
+ contrast <- cbind(contrast, var.cont)
+ dimnames(contrast) <- list(lbls, c("contrasts", "variance"))
+ } else names(contrast) <- lbls
+
+ if (intra) {
+ intraspe.ctr <- function(x) {
+ k <- length(x) - 1L
+ if (!k) return(NULL)
+ ctr <- numeric(k)
+ ctr[1L] <- x[1L] - x[2L]
+ if (k > 1)
+ for (i in 2:k)
+ ctr[i] <- x[i + 1L] - mean(x[1:i])
+ sqrt((1:k)/(1:k + 1)) * ctr
+ }
+ tmp <- lapply(x, intraspe.ctr)
+ names(tmp) <- phy$tip.label
+ attr(contrast, "intra") <- tmp
+ }
+
+ contrast
+}
+
+varCompPhylip <- function(x, phy, exec = NULL)
+{
+ n <- Ntip(phy)
+ if (is.vector(x)) x <- as.list(x)
+ if (is.matrix(x) || is.data.frame(x)) {
+ tmpx <- vector("list", n)
+ for (i in 1:n) tmpx[[i]] <- x[i, , drop = FALSE]
+ names(tmpx) <- rownames(x)
+ x <- tmpx
+ }
+ p <- if (is.vector(x[[1]])) 1L else ncol(x[[1]])
+ if (!is.null(names(x))) x <- x[phy$tip.label]
+
+ phy <- makeLabel(phy, len = 10)
+ lbs <- phy$tip.label
+
+ ni <- sapply(x, function(xx) if (is.vector(xx)) 1L else nrow(xx))
+
+ pfx <- tempdir()
+ write.tree(phy, file = paste(pfx, "intree", sep = "/"))
+ infile <- paste(pfx, "infile", sep = "/")
+ file.create(infile)
+ cat(n, " ", p, "\n", sep = "", file = infile, append = TRUE)
+ for (i in 1:n) {
+ cat(lbs[i], file = infile, append = TRUE)
+ ## can surely be better but OK for the moment:
+ cat(paste(rep(" ", 11 - nchar(lbs[i])), collapse = ""),
+ file = infile, append = TRUE)
+ cat(ni[i], "\n", sep = "", file = infile, append = TRUE)
+ if (ni[i] == 1) {
+ cat(x[[i]], sep = " ", file = infile, append = TRUE)
+ cat("\n", file = infile, append = TRUE)
+ } else write(t(x[[i]]), file = infile, ncolumns = p, append = TRUE)
+ }
+
+ if (is.null(exec))
+ exec <-
+ if (.Platform$OS.type == "unix") "phylip contrast"
+ else "contrast"
+
+ odir <- setwd(pfx)
+ on.exit(setwd(odir))
+ if (file.exists("outfile")) unlink("outfile")
+ system(exec, intern = TRUE, input = c("W", "A", "Y"))
+ varA <- scan("outfile", skip = 7, nlines = p, quiet = TRUE)
+ varE <- scan("outfile", skip = 11 + p, nlines = p, quiet = TRUE)
+ if (p > 1) {
+ varA <- matrix(varA, p, p, byrow = TRUE)
+ varE <- matrix(varE, p, p, byrow = TRUE)
+ }
+ list(varA = varA, varE = varE)
+}