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For applications using autoconf
the standard macro
AC_CHECK_LIB
can be used to link with the library automatically
from a configure
script. The library itself depends on the
presence of a CBLAS and math library as well, so these must also be
located before linking with the main libgsl
file. The following
commands should be placed in the 'configure.in' file to perform
these tests,
AC_CHECK_LIB(m,main) AC_CHECK_LIB(gslcblas,main) AC_CHECK_LIB(gsl,main)
It is important to check for libm
and libgslcblas
before
libgsl
, otherwise the tests will fail. Assuming the libraries
are found the output during the configure stage looks like this,
checking for main in -lm... yes checking for main in -lgslcblas... yes checking for main in -lgsl... yes
If the library is found then the tests will define the macros
HAVE_LIBGSL
, HAVE_LIBGSLCBLAS
, HAVE_LIBM
and add
the options -lgsl -lgslcblas -lm
to the variable LIBS
.
The tests above will find any version of the library. They are suitable for general use, where the versions of the functions are not important. An alternative macro is available in the file 'gsl.m4' to test for a specific version of the library. To use this macro simply add the following line to your 'configure.in' file instead of the tests above:
AM_PATH_GSL(GSL_VERSION, [action-if-found], [action-if-not-found])
The argument GSL_VERSION
should be the two or three digit
MAJOR.MINOR or MAJOR.MINOR.MICRO version number of the release
you require. A suitable choice for action-if-not-found
is,
AC_MSG_ERROR(could not find required version of GSL)
Then you can add the variables GSL_LIBS
and GSL_CFLAGS
to
your Makefile.am files to obtain the correct compiler flags.
GSL_LIBS
is equal to the output of the gsl-config --libs
command and GSL_CFLAGS
is equal to gsl-config --cflags
command. For example,
libgsdv_la_LDFLAGS = \ $(GTK_LIBDIR) \ $(GTK_LIBS) -lgsdvgsl $(GSL_LIBS) -lgslcblas
Note that the macro AM_PATH_GSL
needs to use the C compiler so it
should appear in the 'configure.in' file before the macro
AC_LANG_CPLUSPLUS
for programs that use C++.
To test for inline
the following test should be placed in your
'configure.in' file,
AC_C_INLINE if test "$ac_cv_c_inline" != no ; then AC_DEFINE(HAVE_INLINE,1) AC_SUBST(HAVE_INLINE) fi
and the macro will then be defined in the compilation flags or by including the file 'config.h' before any library headers.
The following autoconf test will check for extern inline
,
dnl Check for "extern inline", using a modified version dnl of the test for AC_C_INLINE from acspecific.mt dnl AC_CACHE_CHECK([for extern inline], ac_cv_c_extern_inline, [ac_cv_c_extern_inline=no AC_TRY_COMPILE([extern $ac_cv_c_inline double foo(double x); extern $ac_cv_c_inline double foo(double x) { return x+1.0; }; double foo (double x) { return x + 1.0; };], [ foo(1.0) ], [ac_cv_c_extern_inline="yes"]) ]) if test "$ac_cv_c_extern_inline" != no ; then AC_DEFINE(HAVE_INLINE,1) AC_SUBST(HAVE_INLINE) fi
The substitution of portability functions can be made automatically if
you use autoconf
. For example, to test whether the BSD function
hypot
is available you can include the following line in the
configure file 'configure.in' for your application,
AC_CHECK_FUNCS(hypot)
and place the following macro definitions in the file 'config.h.in',
/* Substitute gsl_hypot for missing system hypot */ #ifndef HAVE_HYPOT #define hypot gsl_hypot #endif
The application source files can then use the include command
#include <config.h>
to substitute gsl_hypot
for each
occurrence of hypot
when hypot
is not available.
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