src/library/base/man/unlist.Rd - R - Git at Google

 % File src/library/base/man/unlist.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2018 R Core Team
 % Distributed under GPL 2 or later

 \name{unlist}
 \title{Flatten Lists}
 \alias{unlist}
 \description{
   Given a list structure \code{x}, \code{unlist} simplifies it to
   produce a vector which contains all the atomic components
   which occur in \code{x}.
 }
 \usage{
 unlist(x, recursive = TRUE, use.names = TRUE)
 }
 \arguments{
   \item{x}{an \R object, typically a list or vector.}
   \item{recursive}{logical.  Should unlisting be applied to list
     components of \code{x}?}
   \item{use.names}{logical.  Should names be preserved?}
 }
 \details{
   \code{unlist} is generic: you can write methods to handle
   specific classes of objects, see \link{InternalMethods},
   and note, e.g., \code{\link{relist}} with the \code{unlist} method
   for \code{relistable} objects.

   If \code{recursive = FALSE}, the function will not recurse beyond the
   first level items in \code{x}.

   Factors are treated specially.  If all non-list elements of \code{x}
   are \code{\link{factor}} (or ordered factor) objects then the result
   will be a factor with
   levels the union of the level sets of the elements, in the order the
   levels occur in the level sets of the elements (which means that if
   all the elements have the same level set, that is the level set of the
   result).

   \code{x} can be an atomic vector, but then \code{unlist} does nothing useful,
   not even drop names.

   By default, \code{unlist} tries to retain the naming
   information present in \code{x}.  If \code{use.names = FALSE} all
   naming information is dropped.

   Where possible the list elements are coerced to a common mode during
   the unlisting, and so the result often ends up as a character
   vector.  Vectors will be coerced to the highest type of the components
   in the hierarchy NULL < raw < logical < integer < double < complex < character
   < list < expression: pairlists are treated as lists.

   A list is a (generic) vector, and the simplified vector might still be
   a list (and might be unchanged).  Non-vector elements of the list
   (for example language elements such as names, formulas and calls)
   are not coerced, and so a list containing one or more of these remains a
   list.  (The effect of unlisting an \code{\link{lm}} fit is a list which
   has individual residuals as components.)
   Note that \code{unlist(x)} now returns \code{x} unchanged also for
   non-vector \code{x}, instead of signalling an error in that case.
 }
 \value{
   \code{NULL} or an expression or a vector of an appropriate mode to
   hold the list components.

   The output type is determined from the highest type
   of the components in the hierarchy NULL < raw < logical < integer < double <
   complex < character < list < expression, after coercion of pairlists
   to lists.
 }
 \references{
   Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
   \emph{The New S Language}.
   Wadsworth & Brooks/Cole.
 }
 \seealso{
   \code{\link{c}}, \code{\link{as.list}}, \code{\link{relist}}.
 }
 \examples{
 unlist(options())
 unlist(options(), use.names = FALSE)

 l.ex <- list(a = list(1:5, LETTERS[1:5]), b = "Z", c = NA)
 unlist(l.ex, recursive = FALSE)
 unlist(l.ex, recursive = TRUE)

 l1 <- list(a = "a", b = 2, c = pi+2i)
 unlist(l1) # a character vector
 l2 <- list(a = "a", b = as.name("b"), c = pi+2i)
 unlist(l2) # remains a list

 ll <- list(as.name("sinc"), quote( a + b ), 1:10, letters, expression(1+x))
 utils::str(ll)
 for(x in ll)
   stopifnot(identical(x, unlist(x)))
 }
 \keyword{list}
 \keyword{manip}
	% File src/library/base/man/unlist.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2018 R Core Team
	% Distributed under GPL 2 or later

	\name{unlist}
	\title{Flatten Lists}
	\alias{unlist}
	\description{
	Given a list structure \code{x}, \code{unlist} simplifies it to
	produce a vector which contains all the atomic components
	which occur in \code{x}.
	}
	\usage{
	unlist(x, recursive = TRUE, use.names = TRUE)
	}
	\arguments{
	\item{x}{an \R object, typically a list or vector.}
	\item{recursive}{logical. Should unlisting be applied to list
	components of \code{x}?}
	\item{use.names}{logical. Should names be preserved?}
	}
	\details{
	\code{unlist} is generic: you can write methods to handle
	specific classes of objects, see \link{InternalMethods},
	and note, e.g., \code{\link{relist}} with the \code{unlist} method
	for \code{relistable} objects.

	If \code{recursive = FALSE}, the function will not recurse beyond the
	first level items in \code{x}.

	Factors are treated specially. If all non-list elements of \code{x}
	are \code{\link{factor}} (or ordered factor) objects then the result
	will be a factor with
	levels the union of the level sets of the elements, in the order the
	levels occur in the level sets of the elements (which means that if
	all the elements have the same level set, that is the level set of the
	result).

	\code{x} can be an atomic vector, but then \code{unlist} does nothing useful,
	not even drop names.

	By default, \code{unlist} tries to retain the naming
	information present in \code{x}. If \code{use.names = FALSE} all
	naming information is dropped.

	Where possible the list elements are coerced to a common mode during
	the unlisting, and so the result often ends up as a character
	vector. Vectors will be coerced to the highest type of the components
	in the hierarchy NULL < raw < logical < integer < double < complex < character
	< list < expression: pairlists are treated as lists.

	A list is a (generic) vector, and the simplified vector might still be
	a list (and might be unchanged). Non-vector elements of the list
	(for example language elements such as names, formulas and calls)
	are not coerced, and so a list containing one or more of these remains a
	list. (The effect of unlisting an \code{\link{lm}} fit is a list which
	has individual residuals as components.)
	Note that \code{unlist(x)} now returns \code{x} unchanged also for
	non-vector \code{x}, instead of signalling an error in that case.
	}
	\value{
	\code{NULL} or an expression or a vector of an appropriate mode to
	hold the list components.

	The output type is determined from the highest type
	of the components in the hierarchy NULL < raw < logical < integer < double <
	complex < character < list < expression, after coercion of pairlists
	to lists.
	}
	\references{
	Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
	\emph{The New S Language}.
	Wadsworth & Brooks/Cole.
	}
	\seealso{
	\code{\link{c}}, \code{\link{as.list}}, \code{\link{relist}}.
	}
	\examples{
	unlist(options())
	unlist(options(), use.names = FALSE)

	l.ex <- list(a = list(1:5, LETTERS[1:5]), b = "Z", c = NA)
	unlist(l.ex, recursive = FALSE)
	unlist(l.ex, recursive = TRUE)

	l1 <- list(a = "a", b = 2, c = pi+2i)
	unlist(l1) # a character vector
	l2 <- list(a = "a", b = as.name("b"), c = pi+2i)
	unlist(l2) # remains a list

	ll <- list(as.name("sinc"), quote( a + b ), 1:10, letters, expression(1+x))
	utils::str(ll)
	for(x in ll)
	stopifnot(identical(x, unlist(x)))
	}
	\keyword{list}
	\keyword{manip}