% File src/library/base/man/which.Rd % Part of the R package, http://www.R-project.org % Copyright 1995-2013 R Core Team % Distributed under GPL 2 or later \name{which} \alias{which} \alias{arrayInd} \title{Which indices are TRUE?} \description{ Give the \code{TRUE} indices of a logical object, allowing for array indices. } \usage{ which(x, arr.ind = FALSE, useNames = TRUE) arrayInd(ind, .dim, .dimnames = NULL, useNames = FALSE) } \arguments{ \item{x}{a \code{\link{logical}} vector or array. \code{\link{NA}}s are allowed and omitted (treated as if \code{FALSE}).} \item{arr.ind}{logical; should \bold{arr}ay \bold{ind}ices be returned when \code{x} is an array?} \item{ind}{integer-valued index vector, as resulting from \code{which(x)}.} \item{.dim}{\code{\link{dim}(.)} integer vector} \item{.dimnames}{optional list of character \code{\link{dimnames}(.)}. If \code{useNames} is true, to be used for constructing dimnames for \code{arrayInd()} (and hence, \code{which(*, arr.ind=TRUE)}). If \code{\link{names}(.dimnames)} is not empty, these are used as column names. \code{.dimnames[[1]]} is used as row names.} \item{useNames}{logical indicating if the value of \code{arrayInd()} should have (non-null) dimnames at all.} } \value{ If \code{arr.ind == FALSE} (the default), an integer vector with \code{length} equal to \code{sum(x)}, i.e., to the number of \code{TRUE}s in \code{x}; Basically, the result is \code{(1:length(x))[x]}. If \code{arr.ind == TRUE} and \code{x} is an \code{\link{array}} (has a \code{\link{dim}} attribute), the result is \code{arrayInd(which(x), dim(x), dimnames(x))}, namely a matrix whose rows each are the indices of one element of \code{x}; see Examples below. } \author{Werner Stahel and Peter Holzer (ETH Zurich) proposed the \code{arr.ind} option.} \seealso{\code{\link{Logic}}, \code{\link{which.min}} for the index of the minimum or maximum, and \code{\link{match}} for the first index of an element in a vector, i.e., for a scalar \code{a}, \code{match(a, x)} is equivalent to \code{min(which(x == a))} but much more efficient.} \examples{ which(LETTERS == "R") which(ll <- c(TRUE, FALSE, TRUE, NA, FALSE, FALSE, TRUE)) #> 1 3 7 names(ll) <- letters[seq(ll)] which(ll) which((1:12)\%\%2 == 0) # which are even? which(1:10 > 3, arr.ind = TRUE) ( m <- matrix(1:12, 3, 4) ) div.3 <- m \%\% 3 == 0 which(div.3) which(div.3, arr.ind = TRUE) rownames(m) <- paste("Case", 1:3, sep = "_") which(m \%\% 5 == 0, arr.ind = TRUE) dim(m) <- c(2, 2, 3); m which(div.3, arr.ind = FALSE) which(div.3, arr.ind = TRUE) vm <- c(m) dim(vm) <- length(vm) #-- funny thing with length(dim(...)) == 1 which(div.3, arr.ind = TRUE) \dontshow{ dimnames(m) <- list(X = c("U", "V"), Z = c("y","z"), three = LETTERS[1:3]) wm <- which(m \%\% 3 == 0, arr.ind = TRUE) vn <- vm; dimnames(vn) <- list(LETTERS[1:12]) wv <- which(vn \%\% 3 == 0, arr.ind = TRUE) stopifnot(identical(wv, array(3L*(1:4), dim = c(4, 1), dimnames = list(c("C", "F", "I", "L"), "dim1"))), identical(wm, array(c(1:2, 1:2, 2:1, 1:2, 1:3, 3L), dim = 4:3, dimnames = list(rep(c("U","V"),2), c("X", "Z", "three")))) ) }%dont } \keyword{logic} \keyword{attribute}