Mercurial > pub > dyncall > bindings
view R/rdyncall/man/packing.Rd @ 54:918dab7a6606
- added callback support (comes with some bigger refactoring)
- allow CPython's Py{CObject,Capsule} to be used as 'p'ointers
author | Tassilo Philipp |
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date | Tue, 02 Feb 2021 20:42:02 +0100 |
parents | 0cfcc391201f |
children |
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\name{packing} \alias{.pack} \alias{packing} \alias{.unpack} \title{Handling of foreign C fundamental data types} \description{Functions to unpack/pack (read/write) foreign C data types from/to R atomic vectors and C data objects such as arrays and pointers to structures.} \usage{ .pack(x, offset, sigchar, value) .unpack(x, offset, sigchar) } \arguments{ \item{x}{atomic vector (logical, raw, integer or double) or external pointer.} \item{offset}{integer specifying \emph{byte offset} starting at 0.} \item{sigchar}{character string specifying the C data type by a \link{type signature}.} \item{value}{R object value to be coerced and packed to a foreign C data type.} } \details{ The function \code{.pack} converts an R \code{value} into a C data type specified by the \link{signature} \code{sigchar} and it writes the raw C foreign data value at byte position \code{offset} into the object \code{x}. The function \code{.unpack} extracts a C data type according to the \link{signature} \code{sigchar} at byte position \code{offset} from the object \code{x} and converts the C value to an R value and returns it. Byte \code{offset} calculations start at 0 relative to the first byte in an atomic vectors data area. If \code{x} is an atomic vector, a bound check is carried out before read/write access. Otherwise, if \code{x} is an external pointer, there is only a C NULL pointer check. } \value{ \code{.unpack} returns a read C data type coerced to an R value. } \seealso{ \code{\link{.dyncall}} for details on type signatures. } \examples{ # transfer double to array of floats and back, compare precision: n <- 6 input <- rnorm(n) buf <- raw(n*4) for (i in 1:n) { .pack(buf, 4*(i-1), "f", input[i]) } output <- numeric(n) for (i in 1:n) { output[i] <- .unpack(buf, 4*(i-1), "f") } # difference between double and float difference <- output-input print( cbind(input,output,difference) ) }