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

 % File src/library/base/man/rep.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2015, 2017 R Core Team
 % Distributed under GPL 2 or later

 \name{rep}
 \alias{rep}
 \alias{rep.factor}
 \alias{rep.int}
 \alias{rep.POSIXct}
 \alias{rep.POSIXlt}
 \alias{rep.Date}
 \alias{rep_len}

 \title{Replicate Elements of Vectors and Lists}
 \description{
   \code{rep} replicates the values in \code{x}.  It is a generic
   function, and the (internal) default method is described here.

   \code{rep.int} and \code{rep_len} are faster simplified versions for
   two common cases.  Internally, they are generic, so methods can be
   defined for them.
 }
 \usage{
 rep(x, \dots)

 rep.int(x, times)

 rep_len(x, length.out)
 }
 \arguments{
   \item{x}{a vector (of any mode including a \code{\link{list}}) or a factor or (for
     \code{rep} only) a \code{POSIXct} or \code{POSIXlt} or \code{Date}
     object; or an S4 object containing such an object.}
   \item{\dots}{further arguments to be passed to or from other methods.
     For the internal default method these can include:
     \describe{
       \item{\code{times}}{an integer-valued vector giving the
 	(non-negative) number of times to repeat each element if of
 	length \code{length(x)}, or to repeat the whole vector if of
 	length 1.  Negative or \code{NA} values are an error.  A
 	\code{double} vector is accepted, other inputs being coerced to
 	an integer or double vector.}
       \item{\code{length.out}}{non-negative integer.  The desired length of the
         output vector.  Other inputs will be coerced to a double
 	vector and the first element taken.  Ignored if \code{NA} or invalid.}
       \item{\code{each}}{non-negative integer.  Each element of \code{x}
 	is repeated \code{each} times.  Other inputs will be coerced to
 	an integer or double vector and the first element taken.  Treated as
 	\code{1} if \code{NA} or invalid.}
     }
   }
   \item{times, length.out}{see \code{\dots} above.}
 }

 \details{
   The default behaviour is as if the call was
 \preformatted{  rep(x, times = 1, length.out = NA, each = 1)
 }.  Normally just one of the additional
   arguments is specified, but if \code{each} is specified with either
   of the other two, its replication is performed first, and then that
   implied by \code{times} or \code{length.out}.

   If \code{times} consists of a single integer, the result consists of
   the whole input repeated this many times.  If \code{times} is a
   vector of the same length as \code{x} (after replication by
   \code{each}), the result consists of \code{x[1]} repeated
   \code{times[1]} times, \code{x[2]} repeated \code{times[2]} times and
   so on.

   \code{length.out} may be given in place of \code{times},
   in which case \code{x} is repeated as many times as is
   necessary to create a vector of this length.  If both are given,
   \code{length.out} takes priority and \code{times} is ignored.

   Non-integer values of \code{times} will be truncated towards zero.
   If \code{times} is a computed quantity it is prudent to add a small
   fuzz or use \code{\link{round}}.  And analogously for \code{each}.

   If \code{x} has length zero and \code{length.out} is supplied and is
   positive, the values are filled in using the extraction rules, that is
   by an \code{NA} of the appropriate class for an atomic vector
   (\code{0} for raw vectors) and \code{NULL} for a list.
 }
 \value{
   An object of the same type as \code{x}.

   \code{rep.int} and \code{rep_len} return no attributes (except the
   class if returning a factor).

   The default method of \code{rep} gives the result names (which will
   almost always contain duplicates) if \code{x} had names, but retains
   no other attributes.
 }
 \note{
   Function \code{rep.int} is a simple case which was provided as a
   separate function partly for S compatibility and partly for speed
   (especially when names can be dropped).  The performance of \code{rep}
   has been improved since, but \code{rep.int} is still at least twice as
   fast when \code{x} has names.

   The name \code{rep.int} long precedes making \code{rep} generic.

   Function \code{rep} is a primitive, but (partial) matching of argument
   names is performed as for normal functions.

   For historical reasons \code{rep} (only) works on \code{NULL}: the
   result is always \code{NULL} even when \code{length.out} is positive.

   Although it has never been documented, these functions have always
   worked on \link{expression} vectors.
 }
 \references{
   Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
   \emph{The New S Language}.
   Wadsworth & Brooks/Cole.
 }
 \seealso{
   \code{\link{seq}}, \code{\link{sequence}}, \code{\link{replicate}}.
 }
 \examples{
 rep(1:4, 2)
 rep(1:4, each = 2)       # not the same.
 rep(1:4, c(2,2,2,2))     # same as second.
 rep(1:4, c(2,1,2,1))
 rep(1:4, each = 2, len = 4)    # first 4 only.
 rep(1:4, each = 2, len = 10)   # 8 integers plus two recycled 1's.
 rep(1:4, each = 2, times = 3)  # length 24, 3 complete replications

 rep(1, 40*(1-.8)) # length 7 on most platforms
 rep(1, 40*(1-.8)+1e-7) # better

 ## replicate a list
 fred <- list(happy = 1:10, name = "squash")
 rep(fred, 5)

 # date-time objects
 x <- .leap.seconds[1:3]
 rep(x, 2)
 rep(as.POSIXlt(x), rep(2, 3))

 ## named factor
 x <- factor(LETTERS[1:4]); names(x) <- letters[1:4]
 x
 rep(x, 2)
 rep(x, each = 2)
 rep.int(x, 2)  # no names
 rep_len(x, 10)
 }
 \keyword{manip}
 \keyword{chron}
	% File src/library/base/man/rep.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2015, 2017 R Core Team
	% Distributed under GPL 2 or later

	\name{rep}
	\alias{rep}
	\alias{rep.factor}
	\alias{rep.int}
	\alias{rep.POSIXct}
	\alias{rep.POSIXlt}
	\alias{rep.Date}
	\alias{rep_len}

	\title{Replicate Elements of Vectors and Lists}
	\description{
	\code{rep} replicates the values in \code{x}. It is a generic
	function, and the (internal) default method is described here.

	\code{rep.int} and \code{rep_len} are faster simplified versions for
	two common cases. Internally, they are generic, so methods can be
	defined for them.
	}
	\usage{
	rep(x, \dots)

	rep.int(x, times)

	rep_len(x, length.out)
	}
	\arguments{
	\item{x}{a vector (of any mode including a \code{\link{list}}) or a factor or (for
	\code{rep} only) a \code{POSIXct} or \code{POSIXlt} or \code{Date}
	object; or an S4 object containing such an object.}
	\item{\dots}{further arguments to be passed to or from other methods.
	For the internal default method these can include:
	\describe{
	\item{\code{times}}{an integer-valued vector giving the
	(non-negative) number of times to repeat each element if of
	length \code{length(x)}, or to repeat the whole vector if of
	length 1. Negative or \code{NA} values are an error. A
	\code{double} vector is accepted, other inputs being coerced to
	an integer or double vector.}
	\item{\code{length.out}}{non-negative integer. The desired length of the
	output vector. Other inputs will be coerced to a double
	vector and the first element taken. Ignored if \code{NA} or invalid.}
	\item{\code{each}}{non-negative integer. Each element of \code{x}
	is repeated \code{each} times. Other inputs will be coerced to
	an integer or double vector and the first element taken. Treated as
	\code{1} if \code{NA} or invalid.}
	}
	}
	\item{times, length.out}{see \code{\dots} above.}
	}

	\details{
	The default behaviour is as if the call was
	\preformatted{ rep(x, times = 1, length.out = NA, each = 1)
	}. Normally just one of the additional
	arguments is specified, but if \code{each} is specified with either
	of the other two, its replication is performed first, and then that
	implied by \code{times} or \code{length.out}.

	If \code{times} consists of a single integer, the result consists of
	the whole input repeated this many times. If \code{times} is a
	vector of the same length as \code{x} (after replication by
	\code{each}), the result consists of \code{x[1]} repeated
	\code{times[1]} times, \code{x[2]} repeated \code{times[2]} times and
	so on.

	\code{length.out} may be given in place of \code{times},
	in which case \code{x} is repeated as many times as is
	necessary to create a vector of this length. If both are given,
	\code{length.out} takes priority and \code{times} is ignored.

	Non-integer values of \code{times} will be truncated towards zero.
	If \code{times} is a computed quantity it is prudent to add a small
	fuzz or use \code{\link{round}}. And analogously for \code{each}.

	If \code{x} has length zero and \code{length.out} is supplied and is
	positive, the values are filled in using the extraction rules, that is
	by an \code{NA} of the appropriate class for an atomic vector
	(\code{0} for raw vectors) and \code{NULL} for a list.
	}
	\value{
	An object of the same type as \code{x}.

	\code{rep.int} and \code{rep_len} return no attributes (except the
	class if returning a factor).

	The default method of \code{rep} gives the result names (which will
	almost always contain duplicates) if \code{x} had names, but retains
	no other attributes.
	}
	\note{
	Function \code{rep.int} is a simple case which was provided as a
	separate function partly for S compatibility and partly for speed
	(especially when names can be dropped). The performance of \code{rep}
	has been improved since, but \code{rep.int} is still at least twice as
	fast when \code{x} has names.

	The name \code{rep.int} long precedes making \code{rep} generic.

	Function \code{rep} is a primitive, but (partial) matching of argument
	names is performed as for normal functions.

	For historical reasons \code{rep} (only) works on \code{NULL}: the
	result is always \code{NULL} even when \code{length.out} is positive.

	Although it has never been documented, these functions have always
	worked on \link{expression} vectors.
	}
	\references{
	Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
	\emph{The New S Language}.
	Wadsworth & Brooks/Cole.
	}
	\seealso{
	\code{\link{seq}}, \code{\link{sequence}}, \code{\link{replicate}}.
	}
	\examples{
	rep(1:4, 2)
	rep(1:4, each = 2) # not the same.
	rep(1:4, c(2,2,2,2)) # same as second.
	rep(1:4, c(2,1,2,1))
	rep(1:4, each = 2, len = 4) # first 4 only.
	rep(1:4, each = 2, len = 10) # 8 integers plus two recycled 1's.
	rep(1:4, each = 2, times = 3) # length 24, 3 complete replications

	rep(1, 40*(1-.8)) # length 7 on most platforms
	rep(1, 40*(1-.8)+1e-7) # better

	## replicate a list
	fred <- list(happy = 1:10, name = "squash")
	rep(fred, 5)

	# date-time objects
	x <- .leap.seconds[1:3]
	rep(x, 2)
	rep(as.POSIXlt(x), rep(2, 3))

	## named factor
	x <- factor(LETTERS[1:4]); names(x) <- letters[1:4]
	x
	rep(x, 2)
	rep(x, each = 2)
	rep.int(x, 2) # no names
	rep_len(x, 10)
	}
	\keyword{manip}
	\keyword{chron}