#!@-bindir-@/guile \ -e main -s !# ;;;; guile-config --- utility for linking programs with Guile ;;;; Jim Blandy --- September 1997 ;;;; ;;;; Copyright (C) 1998, 2001, 2004, 2005 Free Software Foundation, Inc. ;;;; ;;;; This library is free software; you can redistribute it and/or ;;;; modify it under the terms of the GNU Lesser General Public ;;;; License as published by the Free Software Foundation; either ;;;; version 2.1 of the License, or (at your option) any later version. ;;;; ;;;; This library is distributed in the hope that it will be useful, ;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU ;;;; Lesser General Public License for more details. ;;;; ;;;; You should have received a copy of the GNU Lesser General Public ;;;; License along with this library; if not, write to the Free Software ;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA ;;; TODO: ;;; * Add some plausible structure for returning the right exit status, ;;; just something that encourages people to do the correct thing. ;;; * Implement the static library support. This requires that ;;; some portion of the module system be done. (use-modules (ice-9 string-fun)) ;;;; main function, command-line processing ;;; The script's entry point. (define (main args) (set-program-name! (car args)) (let ((args (cdr args))) (cond ((null? args) (show-help '()) (quit 1)) ((assoc (car args) command-table) => (lambda (row) (set! subcommand-name (car args)) ((cadr row) (cdr args)))) (else (show-help '()) (quit 1))))) (define program-name #f) (define subcommand-name #f) (define program-version "@-GUILE_VERSION-@") ;;; Given an executable path PATH, set program-name to something ;;; appropriate f or use in error messages (i.e., with leading ;;; directory names stripped). (define (set-program-name! path) (set! program-name (basename path))) (define (show-help args) (cond ((null? args) (show-help-overview)) ((assoc (car args) command-table) => (lambda (row) ((caddr row)))) (else (show-help-overview)))) (define (show-help-overview) (display-line-error "Usage: ") (for-each (lambda (row) ((cadddr row))) command-table)) (define (usage-help) (let ((dle display-line-error) (p program-name)) (dle " " p " --help - show usage info (this message)") (dle " " p " --help SUBCOMMAND - show help for SUBCOMMAND"))) (define (show-version args) (display-line-error program-name " - Guile version " program-version)) (define (help-version) (let ((dle display-line-error)) (dle "Usage: " program-name " --version") (dle "Show the version of this script. This is also the version of") (dle "Guile this script was installed with."))) (define (usage-version) (display-line-error " " program-name " --version - show installed script and Guile version")) ;;;; the "link" subcommand ;;; Write a set of linker flags to standard output to include the ;;; libraries that libguile needs to link against. ;;; ;;; In the long run, we want to derive these flags from Guile module ;;; declarations files that are installed along the load path. For ;;; now, we're just going to reach into Guile's configuration info and ;;; hack it out. (define (build-link args) ;; If PATH has the form FOO/libBAR.a, return the substring ;; BAR, otherwise return #f. (define (match-lib path) (let* ((base (basename path)) (len (string-length base))) (if (and (> len 5) (string=? (substring base 0 3) "lib") (string=? (substring base (- len 2)) ".a")) (substring base 3 (- len 2)) #f))) (if (> (length args) 0) (error (string-append program-name " link: arguments to subcommand not yet implemented"))) (let ((libdir (get-build-info 'libdir)) (other-flags (let loop ((libs ;; Get the string of linker flags we used to build ;; Guile, and break it up into a list. (separate-fields-discarding-char #\space (get-build-info 'LIBS) list))) (cond ((null? libs) '()) ;; Turn any "FOO/libBAR.a" elements into "-lBAR". ((match-lib (car libs)) => (lambda (bar) (cons (string-append "-l" bar) (loop (cdr libs))))) ;; Remove any empty strings that may have seeped in there. ((string=? (car libs) "") (loop (cdr libs))) (else (cons (car libs) (loop (cdr libs)))))))) ;; Include libguile itself in the list, along with the directory ;; it was installed in, but do *not* add /usr/lib since that may ;; prevent other programs from specifying non-/usr/lib versions ;; via their foo-config scripts. If *any* app puts -L/usr/lib in ;; the output of its foo-config script then it may prevent the use ;; a non-/usr/lib install of anything that also has a /usr/lib ;; install. For now we hard-code /usr/lib, but later maybe we can ;; do something more dynamic (i.e. what do we need. ;; Display the flags, separated by spaces. (display (string-join (list (get-build-info 'CFLAGS) "-lguile -lltdl" (if (string=? libdir "/usr/lib/") "" (string-append "-L" (get-build-info 'libdir))) (string-join other-flags) ))) (newline))) (define (help-link) (let ((dle display-line-error)) (dle "Usage: " program-name " link") (dle "Print linker flags for building the `guile' executable.") (dle "Print the linker command-line flags necessary to link against") (dle "the Guile library, and any other libraries it requires."))) (define (usage-link) (display-line-error " " program-name " link - print libraries to link with")) ;;;; The "compile" subcommand (define (build-compile args) (if (> (length args) 0) (error (string-append program-name " compile: no arguments expected"))) ;; See gcc manual wrt fixincludes. Search for "Use of ;; `-I/usr/include' may cause trouble." For now we hard-code this. ;; Later maybe we can do something more dynamic. (display (string-append (if (not (string=? (get-build-info 'includedir) "/usr/include")) (string-append "-I" (get-build-info 'includedir) " ") " ") (get-build-info 'CFLAGS) "\n" ))) (define (help-compile) (let ((dle display-line-error)) (dle "Usage: " program-name " compile") (dle "Print C compiler flags for compiling code that uses Guile.") (dle "This includes any `-I' flags needed to find Guile's header files."))) (define (usage-compile) (display-line-error " " program-name " compile - print C compiler flags to compile with")) ;;;; The "info" subcommand (define (build-info args) (cond ((null? args) (show-all-vars)) ((null? (cdr args)) (show-var (car args))) (else (display-line-error "Usage: " program-name " info [VAR]") (quit 2)))) (define (show-all-vars) (for-each (lambda (binding) (display-line (car binding) " = " (cdr binding))) %guile-build-info)) (define (show-var var) (display (get-build-info (string->symbol var))) (newline)) (define (help-info) (let ((d display-line-error)) (d "Usage: " program-name " info [VAR]") (d "Display the value of the Makefile variable VAR used when Guile") (d "was built. If VAR is omitted, display all Makefile variables.") (d "Use this command to find out where Guile was installed,") (d "where it will look for Scheme code at run-time, and so on."))) (define (usage-info) (display-line-error " " program-name " info [VAR] - print Guile build directories")) ;;;; trivial utilities (define (get-build-info name) (let ((val (assq name %guile-build-info))) (if (not (pair? val)) (begin (display-line-error program-name " " subcommand-name ": no such build-info: " name) (quit 2))) (cdr val))) (define (display-line . args) (apply display-line-port (current-output-port) args)) (define (display-line-error . args) (apply display-line-port (current-error-port) args)) (define (display-line-port port . args) (for-each (lambda (arg) (display arg port)) args) (newline port)) ;;;; the command table ;;; We define this down here, so Guile builds the list after all the ;;; functions have been defined. (define command-table (list (list "--version" show-version help-version usage-version) (list "--help" show-help show-help-overview usage-help) (list "link" build-link help-link usage-link) (list "compile" build-compile help-compile usage-compile) (list "info" build-info help-info usage-info))) ;;; Local Variables: ;;; mode: scheme ;;; End: