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date | Sat, 26 Mar 2016 15:47:53 +0100 |
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\name{callback} \alias{new.callback} \alias{callback} \alias{dyncallback} \title{Dynamic wrapping of R functions as C callbacks} \description{ Function to wrap R functions as C function pointers. } \usage{ new.callback( signature, fun, envir = new.env() ) } \arguments{ \item{signature}{character string specifying the \link[=signature]{call signature} of the C function callback type.} \item{fun}{R function to be wrapped as a C function pointer.} \item{envir}{the environment in which to evaluate the call to \code{fun}. } } \details{ Callbacks are user-defined functions that are registered in a foreign library and that are executed at a later time from within that library. Examples include user-interface event handlers that are registered in GUI toolkits, and, comparison functions for custom data types to be passed to generic sort algorithm. The function \code{new.callback} wraps an R function \code{fun} as a C function pointer and returns an external pointer. The foreign C function type of the wrapped R function is specified by a \link{call signature} given by \code{signature}. When the C function pointer is called, a global callback handler (implemented in C) is executed first, that dynamically creates an R call expression to \code{fun} using the arguments, passed from C and converted to R, according to the \emph{argument types signature} within the \link{call signature} specified. See \code{\link{.dyncall}} for details on the format. Finally, the handler evaluates the R call expression within the environment given by \code{envir}. On return, the R return value of \code{fun} is coerced to the C value, according to the return type signature specified in \code{signature}. If an error occurs during the evaluation, the callback will be disabled for further invocations. (This behaviour might change in the future.) } \value{ \code{new.callback} returns an external pointer to a synthetically generated C function. } \section{Portability}{ The implementation is based on the \emph{dyncallback} library (part of the DynCall project). The following processor architectures are supported: X86, X64, ARM (including Thumb) and partial stable support for PowerPC 32-bit; The library has been built and tested to work on various OSs: Linux, Mac OS X, Windows 32/64-bit, BSDs, Haiku, Nexenta/Open Solaris, Minix and Plan9, as well as embedded platforms such as Linux/ARM (OpenMoko, Beagleboard, Gumstix, Efika MX, Raspberry Pi), Nintendo DS (ARM), Sony Playstation Portable (MIPS 32-bit/eabi) and iOS (ARM - armv6 mode ok, armv7 unstable). Special notes for PowerPC 32-Bit: Callbacks for System V (Linux/BSD) are unstable in this release; MacOS X/Darwin works fine. In the context of R, dyncallback has currently no support for callbacks on MIPS, SPARC and PowerPC 64-Bit. Using dyncallback to implement non-default calling conventions is not supported yet. (e.g. Window Procedures on Win32/X86). } \note{ The call signature \strong{MUST} match the foreign C callback function type, otherwise an activated callback call from C can lead to a \strong{fatal R process crash}. A small amount of memory is allocated with each wrapper. A finalizer function that frees the allocated memory is registered at the external pointer. If the external callback function pointer is registered in a C library, a reference should also be held in R as long as the callback can be activated from a foreign C run-time context, otherwise the garbage collector might call the finalizer and the next invocation of the callback could lead to a \strong{fatal R process crash} as well. } \references{ Adler, D. (2012) \dQuote{Foreign Library Interface}, \emph{The R Journal}, \bold{4(1)}, 30--40, June 2012. \url{http://journal.r-project.org/archive/2012-1/RJournal_2012-1_Adler.pdf} Adler, D., Philipp, T. (2008) \emph{DynCall Project}. \url{http://dyncall.org} } \seealso{ See \code{\link{signature}} for details on call signatures, \code{\link{reg.finalizer}} for details on finalizers. } \examples{ \donttest{ # Create a function, wrap it to a callback and call it via .dyncall: f <- function(x,y) x+y cb <- new.callback("ii)i", f) r <- .dyncall(cb, "ii)i", 20, 3) # Sort vectors directly via 'qsort' C library function using an R callback: dynbind(c("msvcrt","c","c.so.6"), "qsort(piip)v;") cb <- new.callback("pp)i",function(px,py){ x <- .unpack(px, 0, "d") y <- .unpack(py, 0, "d") if (x > y) return(1) else if (x == y) return(0) else return(-1) }) x <- rnorm(100) qsort(x,length(x),8,cb) } } \keyword{programming} \keyword{interface}