link
dynamic linker
Syntax
x = link(files [, sub-names,flag]); link(x , sub-names [, flag]); lstID = link("show") lst = link()
Arguments
- files
a character string or a vector of character strings, the files names used to define the new entry point (compiled routines, user libraries, system libraries,..)
- sub-names
a character string or a vector of character strings . Name of the entry points in
files
to be linked.- x
an integer which gives the id of a shared library linked into Scilab with a previous call to
link
.- flag
character string
'f'
or'c'
for Fortran (default) or C code.- listID
returns the current linked ID routines.
- list
returns names of functions linked.
Description
link
is a incremental/dynamic link facility: this
command allows to add new compiled Fortran or C routines to Scilab
executable code. Linked routines can be called interactively by the
function call
. Linked routines can also be used as
"external" for e.g. non linear problem solvers (ode
,
optim
, intg
,
dassl
...).
link()
returns a string matrix with linked
functions.
a call to link
returns an integer which gives the
id of the shared library which is loaded into Scilab. This number can then
be used as the first argument of the link function in order to link
additional function from the linked shared library. The shared library is
removed with the ulink command.
A routine can be unlinked with ulink. If the linked function has been modified between two links, it is required to ulink the previous instance before the new link.
link('show')
returns the current linked
routines.
To be able to link routines in a system independent way, it is
convenient to use the ilib_for_link
utility function
instead of link
.
(Experienced) users may also link
a new Scilab
interface routine to add a set of new functions. See ilib_build and addinter functions.
Number of 'link' in a scilab session can be limited by the operating system. On Windows, you cannot load more than 80 dynamic libraries at the same time.
Examples
//Example of the use of ilib_for_link with a simple C code cd TMPDIR f1=['#include <math.h>' 'void fooc(double c[],double a[],double *b,int *m,int *n)' '{' ' int i;' ' for ( i =0 ; i < (*m)*(*n) ; i++) ' ' c[i] = sin(a[i]) + *b; ' '}']; mputl(f1,'fooc.c'); //creating the shared library: a Makefile and a loader are //generated, the code is compiled and a shared library built. ilib_for_link('fooc','fooc.c',[],"c") // display the loader.sce file which calls link mprintf('%s\n',mgetl('loader.sce')) // load the shared library exec loader.sce; link('show') // call the new linked entry point a=linspace(0,%pi,10);b=5; y1=call('fooc',a,2,'d',b,3,'d',size(a,1),4,'i',size(a,2),5,'i','out',size(a),1,'d') // check y1-(sin(a)+b) exec cleaner.sce;
See also
- ulink — unlink/unload a dynamically linked shared object
- call — Fortran or C user routines call
- external — объект Scilab'а, внешняя функция или подпрограмма
- c_link — check if symbol loaded with dynamic link
- addinter — new functions interface dynamic link at run time.
- ilib_for_link — utility for shared library management with link
- ilib_build — utility for shared library management
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