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

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

 \name{Control}
 \alias{Control}
 \alias{if}
 \alias{else}
 \alias{for}
 \alias{in}
 \alias{while}
 \alias{repeat}
 \alias{break}
 \alias{next}
 \title{Control Flow}
 \description{
   These are the basic control-flow constructs of the \R language.  They
   function in much the same way as control statements in any Algol-like
   language.  They are all \link{reserved} words.
 }
 \usage{
 if(cond) expr
 if(cond) cons.expr  else  alt.expr

 for(var in seq) expr
 while(cond) expr
 repeat expr
 break
 next
 }
 \arguments{
   \item{cond}{A length-one logical vector that is not \code{NA}.
     Conditions of length greater than one are currently accepted with a
     warning, but only the first element is used.  An error is signalled
     instead when the environment variable \env{_R_CHECK_LENGTH_1_CONDITION_}
     is set to true.  Other types are coerced to logical
     if possible, ignoring any class.
   }
   \item{var}{A syntactical name for a variable.}
   \item{seq}{An expression evaluating to a vector (including a list and
     an \link{expression}) or to a \link{pairlist} or \code{NULL}.  A
     factor value will be coerced to a character vector.}
   \item{expr, cons.expr, alt.expr}{
     An \emph{expression} in a formal sense.  This is either a
     simple expression or a so called \emph{compound expression}, usually
     of the form \code{\{ expr1 ; expr2 \}}.
   }
 }
 \details{
   \code{break} breaks out of a \code{for}, \code{while} or \code{repeat}
   loop; control is transferred to the first statement outside the
   inner-most loop. \code{next} halts the processing of the current
   iteration and advances the looping index.  Both \code{break} and
   \code{next} apply only to the innermost of nested loops.

   Note that it is a common mistake to forget to put braces (\code{\{ .. \}})
   around your statements, e.g., after \code{if(..)} or \code{for(....)}.
   In particular, you should not have a newline between \code{\}} and
   \code{else} to avoid a syntax error in entering a \code{if ... else}
   construct at the keyboard or via \code{source}.
   For that reason, one (somewhat extreme) attitude of defensive programming
   is to always use braces, e.g., for \code{if} clauses.

   The \code{seq} in a \code{for} loop is evaluated at the start of
   the loop; changing it subsequently does not affect the loop.  If
   \code{seq} has length zero the body of the loop is skipped. Otherwise the
   variable \code{var} is assigned in turn the value of each element of
   \code{seq}. You can assign to \code{var} within the body of the loop,
   but this will not affect the next iteration.  When the loop terminates,
   \code{var} remains as a variable containing its latest value.

 }
 \value{
   \code{if} returns the value of the expression evaluated, or
   \code{NULL} invisibly if none was (which may happen if there is no
   \code{else}).

   \code{for}, \code{while} and \code{repeat} return \code{NULL} invisibly.
   \code{for} sets \code{var} to the last used element of \code{seq},
   or to \code{NULL} if it was of length zero.

   \code{break} and \code{next} do not return a value as they transfer
   control within the loop.
 }

 \references{
   Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
   \emph{The New S Language}.
   Wadsworth & Brooks/Cole.
 }
 \seealso{
   \code{\link{Syntax}} for the basic \R syntax and operators,
   \code{\link{Paren}} for parentheses and braces.

   \code{\link{ifelse}}, \code{\link{switch}} for other ways to control flow.
 }
 \examples{
 for(i in 1:5) print(1:i)
 for(n in c(2,5,10,20,50)) {
    x <- stats::rnorm(n)
    cat(n, ": ", sum(x^2), "\n", sep = "")
 }
 f <- factor(sample(letters[1:5], 10, replace = TRUE))
 for(i in unique(f)) print(i)
 }
 \keyword{programming}
 \keyword{iteration}
 \keyword{logic}
	% File src/library/base/man/Control.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2017 R Core Team
	% Distributed under GPL 2 or later

	\name{Control}
	\alias{Control}
	\alias{if}
	\alias{else}
	\alias{for}
	\alias{in}
	\alias{while}
	\alias{repeat}
	\alias{break}
	\alias{next}
	\title{Control Flow}
	\description{
	These are the basic control-flow constructs of the \R language. They
	function in much the same way as control statements in any Algol-like
	language. They are all \link{reserved} words.
	}
	\usage{
	if(cond) expr
	if(cond) cons.expr else alt.expr

	for(var in seq) expr
	while(cond) expr
	repeat expr
	break
	next
	}
	\arguments{
	\item{cond}{A length-one logical vector that is not \code{NA}.
	Conditions of length greater than one are currently accepted with a
	warning, but only the first element is used. An error is signalled
	instead when the environment variable \env{_R_CHECK_LENGTH_1_CONDITION_}
	is set to true. Other types are coerced to logical
	if possible, ignoring any class.
	}
	\item{var}{A syntactical name for a variable.}
	\item{seq}{An expression evaluating to a vector (including a list and
	an \link{expression}) or to a \link{pairlist} or \code{NULL}. A
	factor value will be coerced to a character vector.}
	\item{expr, cons.expr, alt.expr}{
	An \emph{expression} in a formal sense. This is either a
	simple expression or a so called \emph{compound expression}, usually
	of the form \code{\{ expr1 ; expr2 \}}.
	}
	}
	\details{
	\code{break} breaks out of a \code{for}, \code{while} or \code{repeat}
	loop; control is transferred to the first statement outside the
	inner-most loop. \code{next} halts the processing of the current
	iteration and advances the looping index. Both \code{break} and
	\code{next} apply only to the innermost of nested loops.

	Note that it is a common mistake to forget to put braces (\code{\{ .. \}})
	around your statements, e.g., after \code{if(..)} or \code{for(....)}.
	In particular, you should not have a newline between \code{\}} and
	\code{else} to avoid a syntax error in entering a \code{if ... else}
	construct at the keyboard or via \code{source}.
	For that reason, one (somewhat extreme) attitude of defensive programming
	is to always use braces, e.g., for \code{if} clauses.

	The \code{seq} in a \code{for} loop is evaluated at the start of
	the loop; changing it subsequently does not affect the loop. If
	\code{seq} has length zero the body of the loop is skipped. Otherwise the
	variable \code{var} is assigned in turn the value of each element of
	\code{seq}. You can assign to \code{var} within the body of the loop,
	but this will not affect the next iteration. When the loop terminates,
	\code{var} remains as a variable containing its latest value.

	}
	\value{
	\code{if} returns the value of the expression evaluated, or
	\code{NULL} invisibly if none was (which may happen if there is no
	\code{else}).

	\code{for}, \code{while} and \code{repeat} return \code{NULL} invisibly.
	\code{for} sets \code{var} to the last used element of \code{seq},
	or to \code{NULL} if it was of length zero.

	\code{break} and \code{next} do not return a value as they transfer
	control within the loop.
	}

	\references{
	Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
	\emph{The New S Language}.
	Wadsworth & Brooks/Cole.
	}
	\seealso{
	\code{\link{Syntax}} for the basic \R syntax and operators,
	\code{\link{Paren}} for parentheses and braces.

	\code{\link{ifelse}}, \code{\link{switch}} for other ways to control flow.
	}
	\examples{
	for(i in 1:5) print(1:i)
	for(n in c(2,5,10,20,50)) {
	x <- stats::rnorm(n)
	cat(n, ": ", sum(x^2), "\n", sep = "")
	}
	f <- factor(sample(letters[1:5], 10, replace = TRUE))
	for(i in unique(f)) print(i)
	}
	\keyword{programming}
	\keyword{iteration}
	\keyword{logic}