@c -*-texinfo-*- @c This is part of the GNU Guile Reference Manual. @c Copyright (C) 1996, 1997, 2000, 2001, 2002, 2003, 2004, 2005, 2010, 2011 @c Free Software Foundation, Inc. @c See the file guile.texi for copying conditions. @node Linking Programs With Guile @section Linking Programs With Guile This section covers the mechanics of linking your program with Guile on a typical POSIX system. The header file @code{} provides declarations for all of Guile's functions and constants. You should @code{#include} it at the head of any C source file that uses identifiers described in this manual. Once you've compiled your source files, you need to link them against the Guile object code library, @code{libguile}. As noted in the previous section, @code{} is not in the default search path for headers. The following command lines give respectively the C compilation and link flags needed to build programs using Guile @value{EFFECTIVE-VERSION}: @example pkg-config guile-@value{EFFECTIVE-VERSION} --cflags pkg-config guile-@value{EFFECTIVE-VERSION} --libs @end example @menu * Guile Initialization Functions:: What to call first. * A Sample Guile Main Program:: Sources and makefiles. @end menu @node Guile Initialization Functions @subsection Guile Initialization Functions To initialize Guile, you can use one of several functions. The first, @code{scm_with_guile}, is the most portable way to initialize Guile. It will initialize Guile when necessary and then call a function that you can specify. Multiple threads can call @code{scm_with_guile} concurrently and it can also be called more than once in a given thread. The global state of Guile will survive from one call of @code{scm_with_guile} to the next. Your function is called from within @code{scm_with_guile} since the garbage collector of Guile needs to know where the stack of each thread is. A second function, @code{scm_init_guile}, initializes Guile for the current thread. When it returns, you can use the Guile API in the current thread. This function employs some non-portable magic to learn about stack bounds and might thus not be available on all platforms. One common way to use Guile is to write a set of C functions which perform some useful task, make them callable from Scheme, and then link the program with Guile. This yields a Scheme interpreter just like @code{guile}, but augmented with extra functions for some specific application --- a special-purpose scripting language. In this situation, the application should probably process its command-line arguments in the same manner as the stock Guile interpreter. To make that straightforward, Guile provides the @code{scm_boot_guile} and @code{scm_shell} function. For more about these functions, see @ref{Initialization}. @node A Sample Guile Main Program @subsection A Sample Guile Main Program Here is @file{simple-guile.c}, source code for a @code{main} and an @code{inner_main} function that will produce a complete Guile interpreter. @example /* simple-guile.c --- Start Guile from C. */ #include static void inner_main (void *closure, int argc, char **argv) @{ /* preparation */ scm_shell (argc, argv); /* after exit */ @} int main (int argc, char **argv) @{ scm_boot_guile (argc, argv, inner_main, 0); return 0; /* never reached, see inner_main */ @} @end example The @code{main} function calls @code{scm_boot_guile} to initialize Guile, passing it @code{inner_main}. Once @code{scm_boot_guile} is ready, it invokes @code{inner_main}, which calls @code{scm_shell} to process the command-line arguments in the usual way. @subsection Building the Example with Make Here is a Makefile which you can use to compile the example program. It uses @code{pkg-config} to learn about the necessary compiler and linker flags. @example # Use GCC, if you have it installed. CC=gcc # Tell the C compiler where to find CFLAGS=`pkg-config --cflags guile-@value{EFFECTIVE-VERSION}` # Tell the linker what libraries to use and where to find them. LIBS=`pkg-config --libs guile-@value{EFFECTIVE-VERSION}` simple-guile: simple-guile.o $@{CC@} simple-guile.o $@{LIBS@} -o simple-guile simple-guile.o: simple-guile.c $@{CC@} -c $@{CFLAGS@} simple-guile.c @end example @subsection Building the Example with Autoconf If you are using the GNU Autoconf package to make your application more portable, Autoconf will settle many of the details in the Makefile automatically, making it much simpler and more portable; we recommend using Autoconf with Guile. Here is a @file{configure.ac} file for @code{simple-guile} that uses the standard @code{PKG_CHECK_MODULES} macro to check for Guile. Autoconf will process this file into a @code{configure} script. We recommend invoking Autoconf via the @code{autoreconf} utility. @example AC_INIT(simple-guile.c) # Find a C compiler. AC_PROG_CC # Check for Guile PKG_CHECK_MODULES([GUILE], [guile-@value{EFFECTIVE-VERSION}]) # Generate a Makefile, based on the results. AC_OUTPUT(Makefile) @end example Run @code{autoreconf -vif} to generate @code{configure}. Here is a @code{Makefile.in} template, from which the @code{configure} script produces a Makefile customized for the host system: @example # The configure script fills in these values. CC=@@CC@@ CFLAGS=@@GUILE_CFLAGS@@ LIBS=@@GUILE_LIBS@@ simple-guile: simple-guile.o $@{CC@} simple-guile.o $@{LIBS@} -o simple-guile simple-guile.o: simple-guile.c $@{CC@} -c $@{CFLAGS@} simple-guile.c @end example The developer should use Autoconf to generate the @file{configure} script from the @file{configure.ac} template, and distribute @file{configure} with the application. Here's how a user might go about building the application: @example $ ls Makefile.in configure* configure.ac simple-guile.c $ ./configure checking for gcc... ccache gcc checking whether the C compiler works... yes checking for C compiler default output file name... a.out checking for suffix of executables... checking whether we are cross compiling... no checking for suffix of object files... o checking whether we are using the GNU C compiler... yes checking whether ccache gcc accepts -g... yes checking for ccache gcc option to accept ISO C89... none needed checking for pkg-config... /usr/bin/pkg-config checking pkg-config is at least version 0.9.0... yes checking for GUILE... yes configure: creating ./config.status config.status: creating Makefile $ make [...] $ ./simple-guile guile> (+ 1 2 3) 6 guile> (getpwnam "jimb") #("jimb" "83Z7d75W2tyJQ" 4008 10 "Jim Blandy" "/u/jimb" "/usr/local/bin/bash") guile> (exit) $ @end example @c Local Variables: @c TeX-master: "guile.texi" @c End: