1 ;;; backquote.el --- implement the ` Lisp construct
3 ;; Copyright (C) 1990, 1992, 1994, 2001-2012 Free Software Foundation, Inc.
5 ;; Author: Rick Sladkey <jrs@world.std.com>
7 ;; Keywords: extensions, internal
10 ;; This file is part of GNU Emacs.
12 ;; GNU Emacs is free software: you can redistribute it and/or modify
13 ;; it under the terms of the GNU General Public License as published by
14 ;; the Free Software Foundation, either version 3 of the License, or
15 ;; (at your option) any later version.
17 ;; GNU Emacs is distributed in the hope that it will be useful,
18 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
19 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 ;; GNU General Public License for more details.
22 ;; You should have received a copy of the GNU General Public License
23 ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
27 ;; When the Lisp reader sees `(...), it generates (\` (...)).
28 ;; When it sees ,... inside such a backquote form, it generates (\, ...).
29 ;; For ,@... it generates (\,@ ...).
31 ;; This backquote will generate calls to the backquote-list* form.
32 ;; Both a function version and a macro version are included.
33 ;; The macro version is used by default because it is faster
34 ;; and needs no run-time support. It should really be a subr.
40 ;; function and macro versions of backquote-list*
42 (defun backquote-list*-function
(first &rest list
)
43 "Like `list' but the last argument is the tail of the new list.
45 For example (backquote-list* 'a 'b 'c) => (a b . c)"
46 ;; The recursive solution is much nicer:
47 ;; (if list (cons first (apply 'backquote-list*-function list)) first))
48 ;; but Emacs is not very good at efficiently processing recursion.
50 (let* ((rest list
) (newlist (cons first nil
)) (last newlist
))
52 (setcdr last
(cons (car rest
) nil
))
55 (setcdr last
(car rest
))
59 (defmacro backquote-list
*-macro
(first &rest list
)
60 "Like `list' but the last argument is the tail of the new list.
62 For example (backquote-list* 'a 'b 'c) => (a b . c)"
63 ;; The recursive solution is much nicer:
64 ;; (if list (list 'cons first (cons 'backquote-list*-macro list)) first))
65 ;; but Emacs is not very good at efficiently processing such things.
66 (setq list
(nreverse (cons first list
))
70 (let* ((second (car list
))
72 (newlist (list 'cons second first
)))
74 (setq newlist
(list 'cons
(car rest
) newlist
)
79 (defalias 'backquote-list
* (symbol-function 'backquote-list
*-macro
))
81 ;; A few advertised variables that control which symbols are used
82 ;; to represent the backquote, unquote, and splice operations.
83 (defconst backquote-backquote-symbol
'\
`
84 "Symbol used to represent a backquote or nested backquote.")
86 (defconst backquote-unquote-symbol
'\
,
87 "Symbol used to represent an unquote inside a backquote.")
89 (defconst backquote-splice-symbol
'\
,@
90 "Symbol used to represent a splice inside a backquote.")
92 (defmacro backquote
(structure)
93 "Argument STRUCTURE describes a template to build.
95 The whole structure acts as if it were quoted except for certain
96 places where expressions are evaluated and inserted or spliced in.
100 b => (ba bb bc) ; assume b has this value
101 `(a b c) => (a b c) ; backquote acts like quote
102 `(a ,b c) => (a (ba bb bc) c) ; insert the value of b
103 `(a ,@b c) => (a ba bb bc c) ; splice in the value of b
105 Vectors work just like lists. Nested backquotes are permitted."
106 (cdr (backquote-process structure
)))
108 ;; GNU Emacs has no reader macros
110 (defalias '\
` (symbol-function 'backquote
))
112 ;; backquote-process returns a dotted-pair of a tag (0, 1, or 2) and
113 ;; the backquote-processed structure. 0 => the structure is
114 ;; constant, 1 => to be unquoted, 2 => to be spliced in.
115 ;; The top-level backquote macro just discards the tag.
117 (defun backquote-delay-process (s level
)
118 "Process a (un|back|splice)quote inside a backquote.
119 This simply recurses through the body."
120 (let ((exp (backquote-listify (list (cons 0 (list 'quote
(car s
))))
121 (backquote-process (cdr s
) level
))))
122 (if (eq (car-safe exp
) 'quote
)
123 (cons 0 (list 'quote s
))
126 (defun backquote-process (s &optional level
)
127 "Process the body of a backquote.
128 S is the body. Returns a cons cell whose cdr is piece of code which
129 is the macro-expansion of S, and whose car is a small integer whose value
130 can either indicate that the code is constant (0), or not (1), or returns
131 a list which should be spliced into its environment (2).
132 LEVEL is only used internally and indicates the nesting level:
133 0 (the default) is for the toplevel nested inside a single backquote."
134 (unless level
(setq level
0))
137 (let ((n (backquote-process (append s
()) level
)))
141 ((not (listp (cdr n
)))
142 (list 'vconcat
(cdr n
)))
143 ((eq (nth 1 n
) 'list
)
144 (cons 'vector
(nthcdr 2 n
)))
145 ((eq (nth 1 n
) 'append
)
146 (cons 'vconcat
(nthcdr 2 n
)))
148 (list 'apply
'(function vector
) (cdr n
))))))))
150 (cons 0 (if (or (null s
) (eq s t
) (not (symbolp s
)))
153 ((eq (car s
) backquote-unquote-symbol
)
156 (backquote-delay-process s
(1- level
))))
157 ((eq (car s
) backquote-splice-symbol
)
160 (backquote-delay-process s
(1- level
))))
161 ((eq (car s
) backquote-backquote-symbol
)
162 (backquote-delay-process s
(1+ level
)))
165 item firstlist list lists expression
)
166 ;; Scan this list-level, setting LISTS to a list of forms,
167 ;; each of which produces a list of elements
168 ;; that should go in this level.
169 ;; The order of LISTS is backwards.
170 ;; If there are non-splicing elements (constant or variable)
171 ;; at the beginning, put them in FIRSTLIST,
172 ;; as a list of tagged values (TAG . FORM).
173 ;; If there are any at the end, they go in LIST, likewise.
174 (while (and (consp rest
)
175 ;; Stop if the cdr is an expression inside a backquote or
176 ;; unquote since this needs to go recursively through
177 ;; backquote-process.
178 (not (or (eq (car rest
) backquote-unquote-symbol
)
179 (eq (car rest
) backquote-backquote-symbol
))))
180 (setq item
(backquote-process (car rest
) level
))
183 ;; Put the nonspliced items before the first spliced item
188 ;; Otherwise, put any preceding nonspliced items into LISTS.
190 (push (backquote-listify list
'(0 . nil
)) lists
))
191 (push (cdr item
) lists
)
194 (setq list
(cons item list
))))
195 (setq rest
(cdr rest
)))
196 ;; Handle nonsplicing final elements, and the tail of the list
197 ;; (which remains in REST).
199 (push (backquote-listify list
(backquote-process rest level
))
201 ;; Turn LISTS into a form that produces the combined list.
204 (eq (car-safe (car lists
)) backquote-splice-symbol
))
205 (cons 'append
(nreverse lists
))
207 ;; Tack on any initial elements.
209 (setq expression
(backquote-listify firstlist
(cons 1 expression
))))
210 (if (eq (car-safe expression
) 'quote
)
211 (cons 0 (list 'quote s
))
212 (cons 1 expression
))))))
214 ;; backquote-listify takes (tag . structure) pairs from backquote-process
215 ;; and decides between append, list, backquote-list*, and cons depending
216 ;; on which tags are in the list.
218 (defun backquote-listify (list old-tail
)
219 (let ((heads nil
) (tail (cdr old-tail
)) (list-tail list
) (item nil
))
220 (if (= (car old-tail
) 0)
221 (setq tail
(eval tail
)
223 (while (consp list-tail
)
224 (setq item
(car list-tail
))
225 (setq list-tail
(cdr list-tail
))
226 (if (or heads old-tail
(/= (car item
) 0))
227 (setq heads
(cons (cdr item
) heads
))
228 (setq tail
(cons (eval (cdr item
)) tail
))))
232 (setq tail
(list 'quote tail
)))
234 (let ((use-list* (or (cdr heads
)
235 (and (consp (car heads
))
236 (eq (car (car heads
))
237 backquote-splice-symbol
)))))
238 (cons (if use-list
* 'backquote-list
* 'cons
)
239 (append heads
(list tail
))))
241 (t (cons 'list heads
)))))
243 ;;; backquote.el ends here