3 ;;; Copyright (C) 2009, 2010 Free Software Foundation, Inc.
5 ;;; This library is free software; you can redistribute it and/or
6 ;;; modify it under the terms of the GNU Lesser General Public
7 ;;; License as published by the Free Software Foundation; either
8 ;;; version 3 of the License, or (at your option) any later version.
10 ;;; This library is distributed in the hope that it will be useful,
11 ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
12 ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 ;;; Lesser General Public License for more details.
15 ;;; You should have received a copy of the GNU Lesser General Public
16 ;;; License along with this library; if not, write to the Free Software
17 ;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
21 (define-module (language elisp runtime)
32 #:export-syntax (built-in-func built-in-macro defspecial prim))
34 ;;; This module provides runtime support for the Elisp front-end.
36 ;;; Values for t and nil. (FIXME remove this abstraction)
38 (define nil-value #nil)
42 ;;; Modules for the binding slots.
43 ;;; Note: Naming those value-slot and/or function-slot clashes with the
44 ;;; submodules of these names!
46 (define value-slot-module '(language elisp runtime value-slot))
48 (define function-slot-module '(language elisp runtime function-slot))
50 ;;; Report an error during macro compilation, that means some special
51 ;;; compilation (syntax) error; or report a simple runtime-error from a
52 ;;; built-in function.
54 (define (macro-error msg . args)
55 (apply error msg args))
57 (define runtime-error macro-error)
59 ;;; Convert a scheme boolean to Elisp.
61 (define (elisp-bool b)
66 ;;; Routines for access to elisp dynamically bound symbols. This is
67 ;;; used for runtime access using functions like symbol-value or set,
68 ;;; where the symbol accessed might not be known at compile-time. These
69 ;;; always access the dynamic binding and can not be used for the
72 (define (ensure-fluid! module sym)
73 (let ((intf (resolve-interface module))
74 (resolved (resolve-module module)))
75 (if (not (module-defined? intf sym))
76 (let ((fluid (make-unbound-fluid)))
77 (module-define! resolved sym fluid)
78 (module-export! resolved `(,sym))))))
80 (define (reference-variable module sym)
81 (let ((resolved (resolve-module module)))
83 ((equal? module function-slot-module)
84 (module-ref resolved sym))
86 (ensure-fluid! module sym)
87 (fluid-ref (module-ref resolved sym))))))
89 (define (set-variable! module sym value)
90 (let ((intf (resolve-interface module))
91 (resolved (resolve-module module)))
93 ((equal? module function-slot-module)
95 ((module-defined? intf sym)
96 (module-set! resolved sym value))
98 (module-define! resolved sym value)
99 (module-export! resolved `(,sym)))))
101 (ensure-fluid! module sym)
102 (fluid-set! (module-ref resolved sym) value))))
105 ;;; Define a predefined function or predefined macro for use in the
106 ;;; function-slot and macro-slot modules, respectively.
108 (define-syntax built-in-func
112 (define-public name value)))))
114 (define (make-id template-id . data)
115 (let ((append-symbols
118 (apply string-append (map symbol->string symbols))))))
119 (datum->syntax template-id
122 ((if (identifier? datum)
128 (define-syntax built-in-macro
132 (with-syntax ((scheme-name (make-id #'name 'macro- #'name)))
134 (define-public scheme-name (make-fluid))
135 (fluid-set! scheme-name (cons 'macro value))))))))
137 (define-syntax defspecial
140 ((_ name args body ...)
141 (with-syntax ((scheme-name (make-id #'name 'compile- #'name)))
143 (define scheme-name (make-fluid))
144 (fluid-set! scheme-name
145 (cons 'special-operator
146 (lambda args body ...)))))))))
148 ;;; Call a guile-primitive that may be rebound for elisp and thus needs
149 ;;; absolute addressing.
154 ((@ (guile) sym) args ...))))