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

 % File src/library/base/man/getNativeSymbolInfo.Rd
 % Part of the R package, https://www.R-project.org
 % Copyright 1995-2012 R Core Team
 % Distributed under GPL 2 or later

 \name{getNativeSymbolInfo}
 \alias{getNativeSymbolInfo}
 \alias{NativeSymbolInfo} % the class
 \alias{NativeSymbol} % the class
 \alias{RegisteredNativeSymbol} % the class
 \title{
   Obtain a Description of one or more Native (C/Fortran) Symbols
 }
 \description{
   This finds and returns a description of one or more dynamically loaded
   or \sQuote{exported} built-in native symbols.  For each name, it
   returns information about the name of the symbol, the library in which
   it is located and, if available, the number of arguments it expects
   and by which interface it should be called (i.e \code{\link{.Call}},
   \code{\link{.C}}, \code{\link{.Fortran}}, or
   \code{\link{.External}}). Additionally, it returns the address of the
   symbol and this can be passed to other C routines.  Specifically, this
   provides a way to explicitly share symbols between different
   dynamically loaded package libraries.  Also, it provides a way to
   query where symbols were resolved, and aids diagnosing strange
   behavior associated with dynamic resolution.
 }
 \usage{
 getNativeSymbolInfo(name, PACKAGE, unlist = TRUE,
                     withRegistrationInfo = FALSE)
 }
 \arguments{
   \item{name}{the name(s) of the native symbol(s).}

   \item{PACKAGE}{an optional argument that specifies to which
     DLL to restrict the search for this symbol.  If this is
     \code{"base"}, we search in the \R executable itself.}

   \item{unlist}{a logical value which controls how the result is
     returned if the function is called with the name of a single symbol.
     If \code{unlist} is \code{TRUE} and the number of symbol names in
     \code{name} is one, then the \code{NativeSymbolInfo} object
     is returned.  If it is \code{FALSE}, then a list
     of \code{NativeSymbolInfo} objects is returned.
     This is ignored if the number of symbols passed in \code{name} is
     more than one.
     To be compatible with earlier versions of this function, this
     defaults to \code{TRUE}.
   }
   \item{withRegistrationInfo}{a logical value indicating whether, if
     \code{TRUE}, to return information that was registered with \R about
     the symbol and its parameter types if such information is available,
     or if \code{FALSE} to return just the address of the symbol.
   }
 }
 \details{
   This uses the same mechanism for resolving symbols as is used
   in all the native interfaces (\code{\link{.Call}}, etc.).
   If the symbol has been explicitly registered by the DLL
   in which it is contained, information about the number of arguments
   and the interface by which it should be called will be returned.
   Otherwise, a generic native symbol object is returned.
 }
 \value{
   Generally, a list of \code{NativeSymbolInfo} elements whose elements
   can be indexed by the elements of \code{name}  in the call.  Each
   \code{NativeSymbolInfo} object is a list containing the following
   elements:
   \item{name}{the name of the symbol, as given by the
     \code{name} argument.}
   \item{address}{if \code{withRegistrationInfo} is \code{FALSE},
     this is the native memory address of the symbol which can
     be used to invoke the routine, and also to
     compare with other symbol addresses.  This is an external pointer
     object and of class \code{NativeSymbol}.
     If \code{withRegistrationInfo} is \code{TRUE} and registration
     information is available for the symbol, then this is
     an object of class \code{RegisteredNativeSymbol} and is a reference
     to an internal data type that has access to the routine pointer and
     registration information.  This too can be used in calls to
     \code{\link{.Call}}, \code{\link{.C}}, \code{\link{.Fortran}} and
     \code{\link{.External}}.
   }
   \item{dll}{a list containing 3 elements:
     \describe{
       \item{name}{the short form of the library name which can be used
         as the value of the \code{PACKAGE} argument in
         the different native interface functions.}
       \item{path}{the fully qualified name of the DLL.}
       \item{dynamicLookup}{a logical value indicating whether dynamic
         resolution is used when looking for symbols in this library,
         or only registered routines can be located.}
     }
   }
   If the routine was explicitly registered by the dynamically loaded
   library, the list contains a fourth field
   \item{numParameters}{the number of arguments that should be passed in
     a call to this routine.}
   Additionally, the list will have an additional class,
   being \code{CRoutine}, \code{CallRoutine}, \code{FortranRoutine} or
   \code{ExternalRoutine} corresponding to the R interface by which it
   should be invoked.

   If any of the symbols is not found, an error is raised.

   If \code{name} contains only one symbol name and \code{unlist} is
   \code{TRUE}, then the single \code{NativeSymbolInfo} is returned
   rather than the list containing that one element.
 }
 \note{
   The third element of the \code{NativeSymbolInfo} objects was renamed
   from \code{package} to \code{dll} in \R version 3.6.0, for consistency
   with the names of the \code{NativeSymbolInfo} objects returned by
   \code{\link{getDLLRegisteredRoutines}()}.
 }
 \references{
   For information about registering native routines,
   see \dQuote{In Search of C/C++ & FORTRAN Routines},
   R-News, volume 1, number 3, 2001, p20--23
   (\url{https://www.r-project.org/doc/Rnews/Rnews_2001-3.pdf}).
 }
 \author{Duncan Temple Lang}
 \note{
   One motivation for accessing this reflectance information is to be
   able to pass native routines to C routines as function pointers in C.
   This allows us to treat native routines and \R functions in a similar
   manner, such as when passing an \R function to C code that makes
   callbacks to that function at different points in its computation
   (e.g., \code{\link{nls}}).  Additionally, we can resolve the symbol
   just once and avoid resolving it repeatedly or using the internal
   cache.
 }
 \seealso{
   \code{\link{getDLLRegisteredRoutines}},
   \code{\link{is.loaded}},
   \code{\link{.C}},
   \code{\link{.Fortran}},
   \code{\link{.External}},
   \code{\link{.Call}},
   \code{\link{dyn.load}}.
 }

 % \examples{
 % library(stats) # normally loaded
 % getNativeSymbolInfo("dansari")

 % getNativeSymbolInfo("hcass2")  # a Fortran symbol
 % }
 \keyword{interface}
	% File src/library/base/man/getNativeSymbolInfo.Rd
	% Part of the R package, https://www.R-project.org
	% Copyright 1995-2012 R Core Team
	% Distributed under GPL 2 or later

	\name{getNativeSymbolInfo}
	\alias{getNativeSymbolInfo}
	\alias{NativeSymbolInfo} % the class
	\alias{NativeSymbol} % the class
	\alias{RegisteredNativeSymbol} % the class
	\title{
	Obtain a Description of one or more Native (C/Fortran) Symbols
	}
	\description{
	This finds and returns a description of one or more dynamically loaded
	or \sQuote{exported} built-in native symbols. For each name, it
	returns information about the name of the symbol, the library in which
	it is located and, if available, the number of arguments it expects
	and by which interface it should be called (i.e \code{\link{.Call}},
	\code{\link{.C}}, \code{\link{.Fortran}}, or
	\code{\link{.External}}). Additionally, it returns the address of the
	symbol and this can be passed to other C routines. Specifically, this
	provides a way to explicitly share symbols between different
	dynamically loaded package libraries. Also, it provides a way to
	query where symbols were resolved, and aids diagnosing strange
	behavior associated with dynamic resolution.
	}
	\usage{
	getNativeSymbolInfo(name, PACKAGE, unlist = TRUE,
	withRegistrationInfo = FALSE)
	}
	\arguments{
	\item{name}{the name(s) of the native symbol(s).}

	\item{PACKAGE}{an optional argument that specifies to which
	DLL to restrict the search for this symbol. If this is
	\code{"base"}, we search in the \R executable itself.}

	\item{unlist}{a logical value which controls how the result is
	returned if the function is called with the name of a single symbol.
	If \code{unlist} is \code{TRUE} and the number of symbol names in
	\code{name} is one, then the \code{NativeSymbolInfo} object
	is returned. If it is \code{FALSE}, then a list
	of \code{NativeSymbolInfo} objects is returned.
	This is ignored if the number of symbols passed in \code{name} is
	more than one.
	To be compatible with earlier versions of this function, this
	defaults to \code{TRUE}.
	}
	\item{withRegistrationInfo}{a logical value indicating whether, if
	\code{TRUE}, to return information that was registered with \R about
	the symbol and its parameter types if such information is available,
	or if \code{FALSE} to return just the address of the symbol.
	}
	}
	\details{
	This uses the same mechanism for resolving symbols as is used
	in all the native interfaces (\code{\link{.Call}}, etc.).
	If the symbol has been explicitly registered by the DLL
	in which it is contained, information about the number of arguments
	and the interface by which it should be called will be returned.
	Otherwise, a generic native symbol object is returned.
	}
	\value{
	Generally, a list of \code{NativeSymbolInfo} elements whose elements
	can be indexed by the elements of \code{name} in the call. Each
	\code{NativeSymbolInfo} object is a list containing the following
	elements:
	\item{name}{the name of the symbol, as given by the
	\code{name} argument.}
	\item{address}{if \code{withRegistrationInfo} is \code{FALSE},
	this is the native memory address of the symbol which can
	be used to invoke the routine, and also to
	compare with other symbol addresses. This is an external pointer
	object and of class \code{NativeSymbol}.
	If \code{withRegistrationInfo} is \code{TRUE} and registration
	information is available for the symbol, then this is
	an object of class \code{RegisteredNativeSymbol} and is a reference
	to an internal data type that has access to the routine pointer and
	registration information. This too can be used in calls to
	\code{\link{.Call}}, \code{\link{.C}}, \code{\link{.Fortran}} and
	\code{\link{.External}}.
	}
	\item{dll}{a list containing 3 elements:
	\describe{
	\item{name}{the short form of the library name which can be used
	as the value of the \code{PACKAGE} argument in
	the different native interface functions.}
	\item{path}{the fully qualified name of the DLL.}
	\item{dynamicLookup}{a logical value indicating whether dynamic
	resolution is used when looking for symbols in this library,
	or only registered routines can be located.}
	}
	}
	If the routine was explicitly registered by the dynamically loaded
	library, the list contains a fourth field
	\item{numParameters}{the number of arguments that should be passed in
	a call to this routine.}
	Additionally, the list will have an additional class,
	being \code{CRoutine}, \code{CallRoutine}, \code{FortranRoutine} or
	\code{ExternalRoutine} corresponding to the R interface by which it
	should be invoked.

	If any of the symbols is not found, an error is raised.

	If \code{name} contains only one symbol name and \code{unlist} is
	\code{TRUE}, then the single \code{NativeSymbolInfo} is returned
	rather than the list containing that one element.
	}
	\note{
	The third element of the \code{NativeSymbolInfo} objects was renamed
	from \code{package} to \code{dll} in \R version 3.6.0, for consistency
	with the names of the \code{NativeSymbolInfo} objects returned by
	\code{\link{getDLLRegisteredRoutines}()}.
	}
	\references{
	For information about registering native routines,
	see \dQuote{In Search of C/C++ & FORTRAN Routines},
	R-News, volume 1, number 3, 2001, p20--23
	(\url{https://www.r-project.org/doc/Rnews/Rnews_2001-3.pdf}).
	}
	\author{Duncan Temple Lang}
	\note{
	One motivation for accessing this reflectance information is to be
	able to pass native routines to C routines as function pointers in C.
	This allows us to treat native routines and \R functions in a similar
	manner, such as when passing an \R function to C code that makes
	callbacks to that function at different points in its computation
	(e.g., \code{\link{nls}}). Additionally, we can resolve the symbol
	just once and avoid resolving it repeatedly or using the internal
	cache.
	}
	\seealso{
	\code{\link{getDLLRegisteredRoutines}},
	\code{\link{is.loaded}},
	\code{\link{.C}},
	\code{\link{.Fortran}},
	\code{\link{.External}},
	\code{\link{.Call}},
	\code{\link{dyn.load}}.
	}

	% \examples{
	% library(stats) # normally loaded
	% getNativeSymbolInfo("dansari")

	% getNativeSymbolInfo("hcass2") # a Fortran symbol
	% }
	\keyword{interface}