_import * : MLton.Pointer.t -> real * char -> int;
This expression denotes a function of type
MLton.Pointer.t -> real * char -> intwhose behavior is implemented by calling the C function at the address denoted by the MLton.Pointer.t argument, and supplying the C function two arguments, a double and an int. The C function pointer may be obtained, for example, by the dynamic linking loader (dlopen, dlsym, ...).
The general form of an indirect _import expression is:
_import * attr... : cPtrTy -> cFuncTy;
The type and the semicolon are not optional.
Example
This example uses dlopen and friends (imported using normal _import) to dynamically load the math library (libm) and call the cos function. Suppose iimport.sml contains the following.
signature DYN_LINK =
sig
type hndl
type mode
type fptr
val dlopen : string * mode -> hndl
val dlsym : hndl * string -> fptr
val dlclose : hndl -> unit
val RTLD_LAZY : mode
val RTLD_NOW : mode
end
structure DynLink :> DYN_LINK =
struct
type hndl = MLton.Pointer.t
type mode = Word32.word
type fptr = MLton.Pointer.t
val dlopen =
_import "dlopen" : string * mode -> hndl;
val dlerror =
_import "dlerror": unit -> MLton.Pointer.t;
val dlsym =
_import "dlsym" : hndl * string -> fptr;
val dlclose =
_import "dlclose" : hndl -> Int32.int;
val RTLD_LAZY = 0wx00001 (* Lazy function call binding. *)
val RTLD_NOW = 0wx00002 (* Immediate function call binding. *)
val dlerror = fn () =>
let
val addr = dlerror ()
in
if addr = MLton.Pointer.null
then NONE
else let
fun loop (index, cs) =
let
val w = MLton.Pointer.getWord8 (addr, index)
val c = Byte.byteToChar w
in
if c = #"\000"
then SOME (implode (rev cs))
else loop (index + 1, c::cs)
end
in
loop (0, [])
end
end
val dlopen = fn (filename, mode) =>
let
val filename = filename ^ "\000"
val hndl = dlopen (filename, mode)
in
if hndl = MLton.Pointer.null
then raise Fail (case dlerror () of
NONE => "???"
| SOME s => s)
else hndl
end
val dlsym = fn (hndl, symbol) =>
let
val symbol = symbol ^ "\000"
val fptr = dlsym (hndl, symbol)
in
case dlerror () of
NONE => fptr
| SOME s => raise Fail s
end
val dlclose = fn hndl =>
if MLton.Platform.OS.host = MLton.Platform.OS.Darwin
then () (* Darwin reports the following error message if you
* try to close a dynamic library.
* "dynamic libraries cannot be closed"
* So, we disable dlclose on Darwin.
*)
else
let
val res = dlclose hndl
in
if res = 0
then ()
else raise Fail (case dlerror () of
NONE => "???"
| SOME s => s)
end
end
val dll =
let
open MLton.Platform.OS
in
case host of
Cygwin => "cygwin1.dll"
| Darwin => "libm.dylib"
| _ => "libm.so"
end
val hndl = DynLink.dlopen (dll, DynLink.RTLD_LAZY)
local
val double_to_double =
_import * : DynLink.fptr -> real -> real;
val cos_fptr = DynLink.dlsym (hndl, "cos")
in
val cos = double_to_double cos_fptr
end
val _ = print (concat [" Math.cos(2.0) = ", Real.toString (Math.cos 2.0), "\n",
"libm.so::cos(2.0) = ", Real.toString (cos 2.0), "\n"])
val _ = DynLink.dlclose hndl
Compile and run iimport.sml.
% mlton -default-ann 'allowFFI true' \
-target-link-opt linux -ldl \
-target-link-opt solaris -ldl \
iimport.sml
% iimport
Math.cos(2.0) = ~0.416146836547
libm.so::cos(2.0) = ~0.416146836547
This example also shows the -target-link-opt option, which uses the switch when linking only when on the specified platform. Compile with -verbose 1 to see in more detail what's being passed to gcc.
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iimport.sml