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Linking Foreign Modules |
Foreign modules may be linked to Prolog in two ways. Using
static linking, the extensions, a (short) file defining main()
which attaches the extension calls to Prolog, and the SWI-Prolog kernel
distributed as a C library, are linked together to form a new
executable. Using dynamic linking, the extensions are linked to
a shared library (.so
file on most Unix systems) or dynamic
link library (.DLL
file on Microsoft platforms) and loaded
into the running Prolog process.212The
system also contains code to load .o
files directly for
some operating systems, notably Unix systems using the BSD a.out
executable format. As the number of Unix platforms supporting this
quickly gets smaller and this interface is difficult to port and slow,
it is no longer described in this manual. The best alternative would be
to use the dld package on machines that do not
have shared libraries.
The static linking schema can be used on all versions of
SWI-Prolog. Whether or not dynamic linking is supported can be deduced
from the Prolog flag open_shared_object
(see
current_prolog_flag/2).
If this Prolog flag yields true
,
open_shared_object/2
and related predicates are defined. See
section 12.2.3 for
a suitable high-level interface to these predicates.
All described approaches have their advantages and disadvantages. Static linking is portable and allows for debugging on all platforms. It is relatively cumbersome and the libraries you need to pass to the linker may vary from system to system, though the utility program swipl-ld described in section 12.5 often hides these problems from the user.
Loading shared objects (DLL files on Windows) provides sharing and protection and is generally the best choice. If a saved state is created using qsave_program/[1,2], an initialization/1 directive may be used to load the appropriate library at startup.
Note that the definition of the foreign predicates is the same, regardless of the linking type used.
This section discusses the functionality of the (autoload)
library(shlib)
, providing an interface to manage shared
libraries. We describe the procedure for using a foreign resource (DLL
in Windows and shared object in Unix) called mylib
.
First, one must assemble the resource and make it compatible to
SWI-Prolog. The details for this vary between platforms. The swipl-ld(1)
utility can be used to deal with this in a portable manner. The typical
commandline is:
swipl-ld -o mylib file.{c,o,cc,C} ...
Make sure that one of the files provides a global function
install_mylib()
that initialises the module using calls to
PL_register_foreign(). Here is a simple example file mylib.c, which
creates a Windows MessageBox:
#include <windows.h> #include <SWI-Prolog.h> static foreign_t pl_say_hello(term_t to) { char *a; if ( PL_get_atom_chars(to, &a) ) { MessageBox(NULL, a, "DLL test", MB_OK|MB_TASKMODAL); PL_succeed; } PL_fail; } install_t install_mylib() { PL_register_foreign("say_hello", 1, pl_say_hello, 0); }
Now write a file mylib.pl
:
:- module(mylib, [ say_hello/1 ]). :- use_foreign_library(foreign(mylib)).
The file mylib.pl
can be loaded as a normal Prolog file
and provides the predicate defined in C.
now
. This is similar to using:
:- initialization(load_foreign_library(foreign(mylib))).
but using the initialization/1 wrapper causes the library to be loaded after loading of the file in which it appears is completed, while use_foreign_library/1 loads the library immediately. I.e. the difference is only relevant if the remainder of the file uses functionality of the C-library.
As of SWI-Prolog 8.1.22, use_foreign_library/1,2
is in provided as a built-in predicate that, if necessary, loads library(shlib)
.
This implies that these directives can be used without explicitly
loading
library(shlib)
or relying on demand loading.
foreign
option in qsave_program/2
for more information.install_mylib()
. If the
platform prefixes extern functions with =_=, this prefix is added before
calling. Options provided are below. Other options are passed
to
open_shared_object/3.
default(install)
,
which derives the function from FileSpec.... load_foreign_library(foreign(mylib)), ...
FileSpec | is a specification for absolute_file_name/3. If searching the file fails, the plain name is passed to the OS to try the default method of the OS for locating foreign objects. The default definition of file_search_path/2 searches <prolog home>/lib/<arch> on Unix and <prolog home>/bin on Windows. |
The interface defined in this section allows the user to load shared
libraries (.so
files on most Unix systems, .dll
files on Windows). This interface is portable to Windows as well as to
Unix machines providing dlopen(2) (Solaris, Linux,
FreeBSD, Irix and many more) or shl_open(2) (HP/UX). It
is advised to use the predicates from section
12.2.3 in your application.
open_shared_object(File, Handle, [])
. See also
open_shared_object/3, load_foreign_library/1
and use_foreign_library/1.
On errors, an exception shared_object(Action, Message)
is raised. Message is the return value from dlerror().
RTLD_NOW
,
RTLD_LAZY
, RTLD_GLOBAL
, RTLD_NODELETE
,
RTLD_NOLOAD
and RTLD_DEEPBIND
on systems where
this predicate is implemented using dlopen() and these flags are
supported. If the flag is not supported on the target OS, the
corresponding option is silently ignored.
lazy
(default) or
now
.local
(default) or global
, making the new symbols available to
all subsequently loaded shared objects.now(true)
is the same as resolve(now)
.
Provided for backward compatibility.global(true)
is the same as visibility(global)
.
Provided for backward compatibility.false
, include RTLD_NODELETE
.false
, include RTLD_NOLOAD
. This returns a
handle to the object if it is already loaded and NULL
otherwise. It causes this predicate to fail silently if the
object is not loaded.true
, include RTLD_DEEPBIND
.Note that these flags may not be supported by your operating system. Check the documentation of dlopen() or equivalent on your operating system. Unsupported flags are silently ignored.
Older versions of SWI-Prolog were shipped by default with a
static library. In recent versions we no longer ship a static
library because practically every OS properly supports dynamic linking
without serious drawbacks and dynamic linking has several advantages. It
is on many platforms required to be able to load SWI-Prolog foreign
libraries (see use_foreign_library/1).
Only on ELF based systems such as Linux we can load foreign libraries if
the main executable is linked to export its global symbols (gcc -rdynamic
option). Another advantage of dynamic libraries is that the user does
not have to worry about libraries that this particular build of
SWI-Prolog requires such as libgmp
as well as OS specific
libraries.
If one really wants a static library, use the CMake flag
-DSWIPL_STATIC_LIB=ON
while configuring a build from
source. This causes building and installing libswipl_static.a
.
Note the
_static
postfix to avoid a name conflict on Windows between
the
import library and the static library.213As
is, the Windows build is cross-compiled using MinGW which produces libswipl_static.a
.
This file can, as far as we know, not be used by MSVC..
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