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0f2d19dd JB |
1 | ;;; installed-scm-file |
2 | ||
704f4e86 | 3 | ;;;; Copyright (C) 1995, 1996, 1997, 1998, 1999, 2000, 2001 Free Software Foundation, Inc. |
0f2d19dd JB |
4 | ;;;; |
5 | ;;;; This program is free software; you can redistribute it and/or modify | |
6 | ;;;; it under the terms of the GNU General Public License as published by | |
7 | ;;;; the Free Software Foundation; either version 2, or (at your option) | |
8 | ;;;; any later version. | |
9 | ;;;; | |
10 | ;;;; This program 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 | |
13 | ;;;; GNU General Public License for more details. | |
14 | ;;;; | |
15 | ;;;; You should have received a copy of the GNU General Public License | |
16 | ;;;; along with this software; see the file COPYING. If not, write to | |
15328041 JB |
17 | ;;;; the Free Software Foundation, Inc., 59 Temple Place, Suite 330, |
18 | ;;;; Boston, MA 02111-1307 USA | |
0f2d19dd JB |
19 | ;;;; |
20 | \f | |
21 | ||
22 | ;;; This file is the first thing loaded into Guile. It adds many mundane | |
23 | ;;; definitions and a few that are interesting. | |
24 | ;;; | |
25 | ;;; The module system (hence the hierarchical namespace) are defined in this | |
26 | ;;; file. | |
27 | ;;; | |
28 | ||
29 | \f | |
21ed9efe MD |
30 | ;;; {Features} |
31 | ;; | |
32 | ||
33 | (define (provide sym) | |
34 | (if (not (memq sym *features*)) | |
35 | (set! *features* (cons sym *features*)))) | |
36 | ||
50706e94 JB |
37 | ;;; Return #t iff FEATURE is available to this Guile interpreter. |
38 | ;;; In SLIB, provided? also checks to see if the module is available. | |
39 | ;;; We should do that too, but don't. | |
40 | (define (provided? feature) | |
41 | (and (memq feature *features*) #t)) | |
42 | ||
52cfc69b GH |
43 | ;;; presumably deprecated. |
44 | (define feature? provided?) | |
45 | ||
8641dd9e GB |
46 | ;;; let format alias simple-format until the more complete version is loaded |
47 | (define format simple-format) | |
48 | ||
21ed9efe | 49 | \f |
79451588 JB |
50 | ;;; {R4RS compliance} |
51 | ||
52 | (primitive-load-path "ice-9/r4rs.scm") | |
53 | ||
54 | \f | |
44cf1f0f | 55 | ;;; {Simple Debugging Tools} |
0f2d19dd JB |
56 | ;; |
57 | ||
58 | ||
59 | ;; peek takes any number of arguments, writes them to the | |
60 | ;; current ouput port, and returns the last argument. | |
61 | ;; It is handy to wrap around an expression to look at | |
62 | ;; a value each time is evaluated, e.g.: | |
63 | ;; | |
64 | ;; (+ 10 (troublesome-fn)) | |
65 | ;; => (+ 10 (pk 'troublesome-fn-returned (troublesome-fn))) | |
66 | ;; | |
67 | ||
68 | (define (peek . stuff) | |
69 | (newline) | |
70 | (display ";;; ") | |
71 | (write stuff) | |
72 | (newline) | |
73 | (car (last-pair stuff))) | |
74 | ||
75 | (define pk peek) | |
76 | ||
77 | (define (warn . stuff) | |
78 | (with-output-to-port (current-error-port) | |
79 | (lambda () | |
80 | (newline) | |
81 | (display ";;; WARNING ") | |
6355358a | 82 | (display stuff) |
0f2d19dd JB |
83 | (newline) |
84 | (car (last-pair stuff))))) | |
85 | ||
86 | \f | |
79451588 | 87 | ;;; {Trivial Functions} |
0f2d19dd | 88 | ;;; |
79451588 JB |
89 | |
90 | (define (id x) x) | |
91 | (define (1+ n) (+ n 1)) | |
92 | (define (-1+ n) (+ n -1)) | |
93 | (define 1- -1+) | |
94 | (define return-it noop) | |
132e5fac | 95 | (define (and=> value procedure) (and value (procedure value))) |
79451588 JB |
96 | (define (make-hash-table k) (make-vector k '())) |
97 | ||
0f2d19dd JB |
98 | ;;; apply-to-args is functionally redunant with apply and, worse, |
99 | ;;; is less general than apply since it only takes two arguments. | |
100 | ;;; | |
101 | ;;; On the other hand, apply-to-args is a syntacticly convenient way to | |
102 | ;;; perform binding in many circumstances when the "let" family of | |
103 | ;;; of forms don't cut it. E.g.: | |
104 | ;;; | |
105 | ;;; (apply-to-args (return-3d-mouse-coords) | |
106 | ;;; (lambda (x y z) | |
107 | ;;; ...)) | |
108 | ;;; | |
109 | ||
110 | (define (apply-to-args args fn) (apply fn args)) | |
111 | ||
112 | \f | |
0f2d19dd JB |
113 | ;;; {Integer Math} |
114 | ;;; | |
115 | ||
0f2d19dd JB |
116 | (define (ipow-by-squaring x k acc proc) |
117 | (cond ((zero? k) acc) | |
118 | ((= 1 k) (proc acc x)) | |
52c5a23a JB |
119 | (else (ipow-by-squaring (proc x x) |
120 | (quotient k 2) | |
121 | (if (even? k) acc (proc acc x)) | |
122 | proc)))) | |
0f2d19dd JB |
123 | |
124 | (define string-character-length string-length) | |
125 | ||
126 | ||
127 | ||
128 | ;; A convenience function for combining flag bits. Like logior, but | |
129 | ;; handles the cases of 0 and 1 arguments. | |
130 | ;; | |
131 | (define (flags . args) | |
132 | (cond | |
133 | ((null? args) 0) | |
134 | ((null? (cdr args)) (car args)) | |
135 | (else (apply logior args)))) | |
136 | ||
137 | \f | |
0f2d19dd JB |
138 | ;;; {Symbol Properties} |
139 | ;;; | |
140 | ||
141 | (define (symbol-property sym prop) | |
142 | (let ((pair (assoc prop (symbol-pref sym)))) | |
143 | (and pair (cdr pair)))) | |
144 | ||
145 | (define (set-symbol-property! sym prop val) | |
146 | (let ((pair (assoc prop (symbol-pref sym)))) | |
147 | (if pair | |
148 | (set-cdr! pair val) | |
149 | (symbol-pset! sym (acons prop val (symbol-pref sym)))))) | |
150 | ||
151 | (define (symbol-property-remove! sym prop) | |
152 | (let ((pair (assoc prop (symbol-pref sym)))) | |
153 | (if pair | |
154 | (symbol-pset! sym (delq! pair (symbol-pref sym)))))) | |
155 | ||
2d55a919 MV |
156 | ;;; {General Properties} |
157 | ||
158 | ;; This is a more modern interface to properties. It will replace all | |
159 | ;; other property-like things eventually. | |
160 | ||
161 | (define (make-object-property) | |
162 | (let ((prop (primitive-make-property #f))) | |
163 | (make-procedure-with-setter | |
164 | (lambda (obj) (primitive-property-ref prop obj)) | |
165 | (lambda (obj val) (primitive-property-set! prop obj val))))) | |
166 | ||
0f2d19dd | 167 | \f |
1e531c3a | 168 | |
0f2d19dd JB |
169 | ;;; {Arrays} |
170 | ;;; | |
171 | ||
afe5177e GH |
172 | (if (provided? 'array) |
173 | (primitive-load-path "ice-9/arrays.scm")) | |
0f2d19dd JB |
174 | |
175 | \f | |
176 | ;;; {Keywords} | |
177 | ;;; | |
178 | ||
179 | (define (symbol->keyword symbol) | |
180 | (make-keyword-from-dash-symbol (symbol-append '- symbol))) | |
181 | ||
182 | (define (keyword->symbol kw) | |
06f0414c | 183 | (let ((sym (symbol->string (keyword-dash-symbol kw)))) |
11b05261 | 184 | (string->symbol (substring sym 1 (string-length sym))))) |
0f2d19dd JB |
185 | |
186 | (define (kw-arg-ref args kw) | |
187 | (let ((rem (member kw args))) | |
188 | (and rem (pair? (cdr rem)) (cadr rem)))) | |
189 | ||
190 | \f | |
fa7e9274 | 191 | |
9f9aa47b | 192 | ;;; {Structs} |
fa7e9274 MV |
193 | |
194 | (define (struct-layout s) | |
9f9aa47b | 195 | (struct-ref (struct-vtable s) vtable-index-layout)) |
fa7e9274 MV |
196 | |
197 | \f | |
d7faeb2e MD |
198 | |
199 | ;;; Environments | |
200 | ||
201 | (define the-environment | |
202 | (procedure->syntax | |
203 | (lambda (x e) | |
204 | e))) | |
205 | ||
206 | (define the-root-environment (the-environment)) | |
207 | ||
208 | (define (environment-module env) | |
209 | (let ((closure (and (pair? env) (car (last-pair env))))) | |
210 | (and closure (procedure-property closure 'module)))) | |
211 | ||
212 | \f | |
0f2d19dd JB |
213 | ;;; {Records} |
214 | ;;; | |
215 | ||
fa7e9274 MV |
216 | ;; Printing records: by default, records are printed as |
217 | ;; | |
218 | ;; #<type-name field1: val1 field2: val2 ...> | |
219 | ;; | |
220 | ;; You can change that by giving a custom printing function to | |
221 | ;; MAKE-RECORD-TYPE (after the list of field symbols). This function | |
222 | ;; will be called like | |
223 | ;; | |
224 | ;; (<printer> object port) | |
225 | ;; | |
226 | ;; It should print OBJECT to PORT. | |
227 | ||
cf8f1a90 | 228 | (define (inherit-print-state old-port new-port) |
8a30733e MD |
229 | (if (get-print-state old-port) |
230 | (port-with-print-state new-port (get-print-state old-port)) | |
cf8f1a90 MV |
231 | new-port)) |
232 | ||
9f9aa47b | 233 | ;; 0: type-name, 1: fields |
fa7e9274 | 234 | (define record-type-vtable |
9f9aa47b MD |
235 | (make-vtable-vtable "prpr" 0 |
236 | (lambda (s p) | |
237 | (cond ((eq? s record-type-vtable) | |
238 | (display "#<record-type-vtable>" p)) | |
239 | (else | |
240 | (display "#<record-type " p) | |
241 | (display (record-type-name s) p) | |
242 | (display ">" p)))))) | |
0f2d19dd JB |
243 | |
244 | (define (record-type? obj) | |
245 | (and (struct? obj) (eq? record-type-vtable (struct-vtable obj)))) | |
246 | ||
247 | (define (make-record-type type-name fields . opt) | |
8e693424 | 248 | (let ((printer-fn (and (pair? opt) (car opt)))) |
0f2d19dd | 249 | (let ((struct (make-struct record-type-vtable 0 |
c7c03b9f | 250 | (make-struct-layout |
06f0414c | 251 | (apply string-append |
c7c03b9f | 252 | (map (lambda (f) "pw") fields))) |
9f9aa47b MD |
253 | (or printer-fn |
254 | (lambda (s p) | |
255 | (display "#<" p) | |
256 | (display type-name p) | |
257 | (let loop ((fields fields) | |
258 | (off 0)) | |
259 | (cond | |
260 | ((not (null? fields)) | |
261 | (display " " p) | |
262 | (display (car fields) p) | |
263 | (display ": " p) | |
264 | (display (struct-ref s off) p) | |
265 | (loop (cdr fields) (+ 1 off))))) | |
266 | (display ">" p))) | |
0f2d19dd JB |
267 | type-name |
268 | (copy-tree fields)))) | |
c8eed875 MD |
269 | ;; Temporary solution: Associate a name to the record type descriptor |
270 | ;; so that the object system can create a wrapper class for it. | |
271 | (set-struct-vtable-name! struct (if (symbol? type-name) | |
272 | type-name | |
273 | (string->symbol type-name))) | |
0f2d19dd JB |
274 | struct))) |
275 | ||
276 | (define (record-type-name obj) | |
277 | (if (record-type? obj) | |
9f9aa47b | 278 | (struct-ref obj vtable-offset-user) |
0f2d19dd JB |
279 | (error 'not-a-record-type obj))) |
280 | ||
281 | (define (record-type-fields obj) | |
282 | (if (record-type? obj) | |
9f9aa47b | 283 | (struct-ref obj (+ 1 vtable-offset-user)) |
0f2d19dd JB |
284 | (error 'not-a-record-type obj))) |
285 | ||
286 | (define (record-constructor rtd . opt) | |
8e693424 | 287 | (let ((field-names (if (pair? opt) (car opt) (record-type-fields rtd)))) |
d7faeb2e MD |
288 | (local-eval `(lambda ,field-names |
289 | (make-struct ',rtd 0 ,@(map (lambda (f) | |
290 | (if (memq f field-names) | |
291 | f | |
292 | #f)) | |
293 | (record-type-fields rtd)))) | |
294 | the-root-environment))) | |
0f2d19dd JB |
295 | |
296 | (define (record-predicate rtd) | |
297 | (lambda (obj) (and (struct? obj) (eq? rtd (struct-vtable obj))))) | |
298 | ||
299 | (define (record-accessor rtd field-name) | |
300 | (let* ((pos (list-index (record-type-fields rtd) field-name))) | |
301 | (if (not pos) | |
302 | (error 'no-such-field field-name)) | |
d7faeb2e MD |
303 | (local-eval `(lambda (obj) |
304 | (and (eq? ',rtd (record-type-descriptor obj)) | |
305 | (struct-ref obj ,pos))) | |
306 | the-root-environment))) | |
0f2d19dd JB |
307 | |
308 | (define (record-modifier rtd field-name) | |
309 | (let* ((pos (list-index (record-type-fields rtd) field-name))) | |
310 | (if (not pos) | |
311 | (error 'no-such-field field-name)) | |
d7faeb2e MD |
312 | (local-eval `(lambda (obj val) |
313 | (and (eq? ',rtd (record-type-descriptor obj)) | |
314 | (struct-set! obj ,pos val))) | |
315 | the-root-environment))) | |
0f2d19dd JB |
316 | |
317 | ||
318 | (define (record? obj) | |
319 | (and (struct? obj) (record-type? (struct-vtable obj)))) | |
320 | ||
321 | (define (record-type-descriptor obj) | |
322 | (if (struct? obj) | |
323 | (struct-vtable obj) | |
324 | (error 'not-a-record obj))) | |
325 | ||
21ed9efe MD |
326 | (provide 'record) |
327 | ||
0f2d19dd JB |
328 | \f |
329 | ;;; {Booleans} | |
330 | ;;; | |
331 | ||
332 | (define (->bool x) (not (not x))) | |
333 | ||
334 | \f | |
335 | ;;; {Symbols} | |
336 | ;;; | |
337 | ||
338 | (define (symbol-append . args) | |
06f0414c | 339 | (string->symbol (apply string-append (map symbol->string args)))) |
0f2d19dd JB |
340 | |
341 | (define (list->symbol . args) | |
342 | (string->symbol (apply list->string args))) | |
343 | ||
344 | (define (symbol . args) | |
345 | (string->symbol (apply string args))) | |
346 | ||
0f2d19dd JB |
347 | \f |
348 | ;;; {Lists} | |
349 | ;;; | |
350 | ||
351 | (define (list-index l k) | |
352 | (let loop ((n 0) | |
353 | (l l)) | |
354 | (and (not (null? l)) | |
355 | (if (eq? (car l) k) | |
356 | n | |
357 | (loop (+ n 1) (cdr l)))))) | |
358 | ||
75fd4fb6 JB |
359 | (define (make-list n . init) |
360 | (if (pair? init) (set! init (car init))) | |
0f2d19dd JB |
361 | (let loop ((answer '()) |
362 | (n n)) | |
363 | (if (<= n 0) | |
364 | answer | |
365 | (loop (cons init answer) (- n 1))))) | |
366 | ||
1729d8ff | 367 | \f |
3e3cec45 | 368 | ;;; {and-map and or-map} |
0f2d19dd JB |
369 | ;;; |
370 | ;;; (and-map fn lst) is like (and (fn (car lst)) (fn (cadr lst)) (fn...) ...) | |
371 | ;;; (or-map fn lst) is like (or (fn (car lst)) (fn (cadr lst)) (fn...) ...) | |
0f2d19dd JB |
372 | ;;; |
373 | ||
374 | ;; and-map f l | |
375 | ;; | |
376 | ;; Apply f to successive elements of l until exhaustion or f returns #f. | |
377 | ;; If returning early, return #f. Otherwise, return the last value returned | |
378 | ;; by f. If f has never been called because l is empty, return #t. | |
379 | ;; | |
380 | (define (and-map f lst) | |
381 | (let loop ((result #t) | |
382 | (l lst)) | |
383 | (and result | |
384 | (or (and (null? l) | |
385 | result) | |
386 | (loop (f (car l)) (cdr l)))))) | |
387 | ||
388 | ;; or-map f l | |
389 | ;; | |
390 | ;; Apply f to successive elements of l until exhaustion or while f returns #f. | |
391 | ;; If returning early, return the return value of f. | |
392 | ;; | |
393 | (define (or-map f lst) | |
394 | (let loop ((result #f) | |
395 | (l lst)) | |
396 | (or result | |
397 | (and (not (null? l)) | |
398 | (loop (f (car l)) (cdr l)))))) | |
399 | ||
59e1116d | 400 | \f |
0f2d19dd | 401 | |
52cfc69b GH |
402 | (if (provided? 'posix) |
403 | (primitive-load-path "ice-9/posix.scm")) | |
6fa8995c | 404 | |
52cfc69b GH |
405 | (if (provided? 'socket) |
406 | (primitive-load-path "ice-9/networking.scm")) | |
3afb28ce | 407 | |
6fa8995c | 408 | (define file-exists? |
52cfc69b | 409 | (if (provided? 'posix) |
6fa8995c GH |
410 | (lambda (str) |
411 | (access? str F_OK)) | |
412 | (lambda (str) | |
413 | (let ((port (catch 'system-error (lambda () (open-file str OPEN_READ)) | |
414 | (lambda args #f)))) | |
415 | (if port (begin (close-port port) #t) | |
416 | #f))))) | |
417 | ||
418 | (define file-is-directory? | |
52cfc69b | 419 | (if (provided? 'posix) |
6fa8995c | 420 | (lambda (str) |
3afb28ce | 421 | (eq? (stat:type (stat str)) 'directory)) |
6fa8995c | 422 | (lambda (str) |
6fa8995c GH |
423 | (let ((port (catch 'system-error |
424 | (lambda () (open-file (string-append str "/.") | |
425 | OPEN_READ)) | |
426 | (lambda args #f)))) | |
427 | (if port (begin (close-port port) #t) | |
428 | #f))))) | |
0f2d19dd JB |
429 | |
430 | (define (has-suffix? str suffix) | |
431 | (let ((sufl (string-length suffix)) | |
432 | (sl (string-length str))) | |
433 | (and (> sl sufl) | |
434 | (string=? (substring str (- sl sufl) sl) suffix)))) | |
435 | ||
0f2d19dd JB |
436 | \f |
437 | ;;; {Error Handling} | |
438 | ;;; | |
439 | ||
0f2d19dd | 440 | (define (error . args) |
21ed9efe | 441 | (save-stack) |
2194b6f0 | 442 | (if (null? args) |
5552355a | 443 | (scm-error 'misc-error #f "?" #f #f) |
8641dd9e | 444 | (let loop ((msg "~A") |
2194b6f0 GH |
445 | (rest (cdr args))) |
446 | (if (not (null? rest)) | |
8641dd9e | 447 | (loop (string-append msg " ~S") |
2194b6f0 | 448 | (cdr rest)) |
5552355a | 449 | (scm-error 'misc-error #f msg args #f))))) |
be2d2c70 | 450 | |
1349bd53 | 451 | ;; bad-throw is the hook that is called upon a throw to a an unhandled |
9a0d70e2 GH |
452 | ;; key (unless the throw has four arguments, in which case |
453 | ;; it's usually interpreted as an error throw.) | |
454 | ;; If the key has a default handler (a throw-handler-default property), | |
0f2d19dd JB |
455 | ;; it is applied to the throw. |
456 | ;; | |
1349bd53 | 457 | (define (bad-throw key . args) |
0f2d19dd JB |
458 | (let ((default (symbol-property key 'throw-handler-default))) |
459 | (or (and default (apply default key args)) | |
2194b6f0 | 460 | (apply error "unhandled-exception:" key args)))) |
0f2d19dd | 461 | |
0f2d19dd | 462 | \f |
bce074ee | 463 | |
708bf0f3 GH |
464 | (define (tm:sec obj) (vector-ref obj 0)) |
465 | (define (tm:min obj) (vector-ref obj 1)) | |
466 | (define (tm:hour obj) (vector-ref obj 2)) | |
467 | (define (tm:mday obj) (vector-ref obj 3)) | |
468 | (define (tm:mon obj) (vector-ref obj 4)) | |
469 | (define (tm:year obj) (vector-ref obj 5)) | |
470 | (define (tm:wday obj) (vector-ref obj 6)) | |
471 | (define (tm:yday obj) (vector-ref obj 7)) | |
472 | (define (tm:isdst obj) (vector-ref obj 8)) | |
473 | (define (tm:gmtoff obj) (vector-ref obj 9)) | |
474 | (define (tm:zone obj) (vector-ref obj 10)) | |
475 | ||
476 | (define (set-tm:sec obj val) (vector-set! obj 0 val)) | |
477 | (define (set-tm:min obj val) (vector-set! obj 1 val)) | |
478 | (define (set-tm:hour obj val) (vector-set! obj 2 val)) | |
479 | (define (set-tm:mday obj val) (vector-set! obj 3 val)) | |
480 | (define (set-tm:mon obj val) (vector-set! obj 4 val)) | |
481 | (define (set-tm:year obj val) (vector-set! obj 5 val)) | |
482 | (define (set-tm:wday obj val) (vector-set! obj 6 val)) | |
483 | (define (set-tm:yday obj val) (vector-set! obj 7 val)) | |
484 | (define (set-tm:isdst obj val) (vector-set! obj 8 val)) | |
485 | (define (set-tm:gmtoff obj val) (vector-set! obj 9 val)) | |
486 | (define (set-tm:zone obj val) (vector-set! obj 10 val)) | |
487 | ||
6afcd3b2 GH |
488 | (define (tms:clock obj) (vector-ref obj 0)) |
489 | (define (tms:utime obj) (vector-ref obj 1)) | |
490 | (define (tms:stime obj) (vector-ref obj 2)) | |
491 | (define (tms:cutime obj) (vector-ref obj 3)) | |
492 | (define (tms:cstime obj) (vector-ref obj 4)) | |
493 | ||
bce074ee GH |
494 | (define (file-position . args) (apply ftell args)) |
495 | (define (file-set-position . args) (apply fseek args)) | |
8b13c6b3 | 496 | |
e38303a2 GH |
497 | (define (move->fdes fd/port fd) |
498 | (cond ((integer? fd/port) | |
7a6f1ffa | 499 | (dup->fdes fd/port fd) |
e38303a2 GH |
500 | (close fd/port) |
501 | fd) | |
502 | (else | |
503 | (primitive-move->fdes fd/port fd) | |
504 | (set-port-revealed! fd/port 1) | |
505 | fd/port))) | |
8b13c6b3 GH |
506 | |
507 | (define (release-port-handle port) | |
508 | (let ((revealed (port-revealed port))) | |
509 | (if (> revealed 0) | |
510 | (set-port-revealed! port (- revealed 1))))) | |
0f2d19dd | 511 | |
e38303a2 | 512 | (define (dup->port port/fd mode . maybe-fd) |
7a6f1ffa | 513 | (let ((port (fdopen (apply dup->fdes port/fd maybe-fd) |
e38303a2 GH |
514 | mode))) |
515 | (if (pair? maybe-fd) | |
516 | (set-port-revealed! port 1)) | |
517 | port)) | |
518 | ||
519 | (define (dup->inport port/fd . maybe-fd) | |
520 | (apply dup->port port/fd "r" maybe-fd)) | |
521 | ||
522 | (define (dup->outport port/fd . maybe-fd) | |
523 | (apply dup->port port/fd "w" maybe-fd)) | |
524 | ||
e38303a2 GH |
525 | (define (dup port/fd . maybe-fd) |
526 | (if (integer? port/fd) | |
527 | (apply dup->fdes port/fd maybe-fd) | |
528 | (apply dup->port port/fd (port-mode port/fd) maybe-fd))) | |
529 | ||
530 | (define (duplicate-port port modes) | |
531 | (dup->port port modes)) | |
532 | ||
533 | (define (fdes->inport fdes) | |
534 | (let loop ((rest-ports (fdes->ports fdes))) | |
535 | (cond ((null? rest-ports) | |
536 | (let ((result (fdopen fdes "r"))) | |
537 | (set-port-revealed! result 1) | |
538 | result)) | |
539 | ((input-port? (car rest-ports)) | |
540 | (set-port-revealed! (car rest-ports) | |
541 | (+ (port-revealed (car rest-ports)) 1)) | |
542 | (car rest-ports)) | |
543 | (else | |
544 | (loop (cdr rest-ports)))))) | |
545 | ||
546 | (define (fdes->outport fdes) | |
547 | (let loop ((rest-ports (fdes->ports fdes))) | |
548 | (cond ((null? rest-ports) | |
549 | (let ((result (fdopen fdes "w"))) | |
550 | (set-port-revealed! result 1) | |
551 | result)) | |
552 | ((output-port? (car rest-ports)) | |
553 | (set-port-revealed! (car rest-ports) | |
554 | (+ (port-revealed (car rest-ports)) 1)) | |
555 | (car rest-ports)) | |
556 | (else | |
557 | (loop (cdr rest-ports)))))) | |
558 | ||
559 | (define (port->fdes port) | |
560 | (set-port-revealed! port (+ (port-revealed port) 1)) | |
561 | (fileno port)) | |
562 | ||
956055a9 GH |
563 | (define (setenv name value) |
564 | (if value | |
565 | (putenv (string-append name "=" value)) | |
566 | (putenv name))) | |
567 | ||
0f2d19dd JB |
568 | \f |
569 | ;;; {Load Paths} | |
570 | ;;; | |
571 | ||
0f2d19dd JB |
572 | ;;; Here for backward compatability |
573 | ;; | |
574 | (define scheme-file-suffix (lambda () ".scm")) | |
575 | ||
3cab8392 JB |
576 | (define (in-vicinity vicinity file) |
577 | (let ((tail (let ((len (string-length vicinity))) | |
534a0099 MD |
578 | (if (zero? len) |
579 | #f | |
3cab8392 JB |
580 | (string-ref vicinity (- len 1)))))) |
581 | (string-append vicinity | |
534a0099 MD |
582 | (if (or (not tail) |
583 | (eq? tail #\/)) | |
584 | "" | |
585 | "/") | |
3cab8392 | 586 | file))) |
02ceadb8 | 587 | |
0f2d19dd | 588 | \f |
ef00e7f4 JB |
589 | ;;; {Help for scm_shell} |
590 | ;;; The argument-processing code used by Guile-based shells generates | |
591 | ;;; Scheme code based on the argument list. This page contains help | |
592 | ;;; functions for the code it generates. | |
593 | ||
ef00e7f4 JB |
594 | (define (command-line) (program-arguments)) |
595 | ||
5aa7fe69 JB |
596 | ;; This is mostly for the internal use of the code generated by |
597 | ;; scm_compile_shell_switches. | |
ef00e7f4 | 598 | (define (load-user-init) |
1f08acd9 GH |
599 | (let* ((home (or (getenv "HOME") |
600 | (false-if-exception (passwd:dir (getpwuid (getuid)))) | |
601 | "/")) ;; fallback for cygwin etc. | |
602 | (init-file (in-vicinity home ".guile"))) | |
603 | (if (file-exists? init-file) | |
604 | (primitive-load init-file)))) | |
ef00e7f4 JB |
605 | |
606 | \f | |
a06181a2 JB |
607 | ;;; {Loading by paths} |
608 | ||
609 | ;;; Load a Scheme source file named NAME, searching for it in the | |
610 | ;;; directories listed in %load-path, and applying each of the file | |
611 | ;;; name extensions listed in %load-extensions. | |
612 | (define (load-from-path name) | |
613 | (start-stack 'load-stack | |
75a97b92 | 614 | (primitive-load-path name))) |
0f2d19dd | 615 | |
5552355a | 616 | |
0f2d19dd | 617 | \f |
0f2d19dd JB |
618 | ;;; {Transcendental Functions} |
619 | ;;; | |
620 | ;;; Derived from "Transcen.scm", Complex trancendental functions for SCM. | |
0543c9b7 | 621 | ;;; Written by Jerry D. Hedden, (C) FSF. |
0f2d19dd JB |
622 | ;;; See the file `COPYING' for terms applying to this program. |
623 | ;;; | |
624 | ||
625 | (define (exp z) | |
626 | (if (real? z) ($exp z) | |
627 | (make-polar ($exp (real-part z)) (imag-part z)))) | |
628 | ||
629 | (define (log z) | |
630 | (if (and (real? z) (>= z 0)) | |
631 | ($log z) | |
632 | (make-rectangular ($log (magnitude z)) (angle z)))) | |
633 | ||
634 | (define (sqrt z) | |
635 | (if (real? z) | |
636 | (if (negative? z) (make-rectangular 0 ($sqrt (- z))) | |
637 | ($sqrt z)) | |
638 | (make-polar ($sqrt (magnitude z)) (/ (angle z) 2)))) | |
639 | ||
640 | (define expt | |
641 | (let ((integer-expt integer-expt)) | |
642 | (lambda (z1 z2) | |
22381005 DH |
643 | (cond ((integer? z2) |
644 | (if (>= z2 0) | |
645 | (integer-expt z1 z2) | |
646 | (/ 1 (integer-expt z1 (- z2))))) | |
0f2d19dd JB |
647 | ((and (real? z2) (real? z1) (>= z1 0)) |
648 | ($expt z1 z2)) | |
649 | (else | |
650 | (exp (* z2 (log z1)))))))) | |
651 | ||
652 | (define (sinh z) | |
653 | (if (real? z) ($sinh z) | |
654 | (let ((x (real-part z)) (y (imag-part z))) | |
655 | (make-rectangular (* ($sinh x) ($cos y)) | |
656 | (* ($cosh x) ($sin y)))))) | |
657 | (define (cosh z) | |
658 | (if (real? z) ($cosh z) | |
659 | (let ((x (real-part z)) (y (imag-part z))) | |
660 | (make-rectangular (* ($cosh x) ($cos y)) | |
661 | (* ($sinh x) ($sin y)))))) | |
662 | (define (tanh z) | |
663 | (if (real? z) ($tanh z) | |
664 | (let* ((x (* 2 (real-part z))) | |
665 | (y (* 2 (imag-part z))) | |
666 | (w (+ ($cosh x) ($cos y)))) | |
667 | (make-rectangular (/ ($sinh x) w) (/ ($sin y) w))))) | |
668 | ||
669 | (define (asinh z) | |
670 | (if (real? z) ($asinh z) | |
671 | (log (+ z (sqrt (+ (* z z) 1)))))) | |
672 | ||
673 | (define (acosh z) | |
674 | (if (and (real? z) (>= z 1)) | |
675 | ($acosh z) | |
676 | (log (+ z (sqrt (- (* z z) 1)))))) | |
677 | ||
678 | (define (atanh z) | |
679 | (if (and (real? z) (> z -1) (< z 1)) | |
680 | ($atanh z) | |
681 | (/ (log (/ (+ 1 z) (- 1 z))) 2))) | |
682 | ||
683 | (define (sin z) | |
684 | (if (real? z) ($sin z) | |
685 | (let ((x (real-part z)) (y (imag-part z))) | |
686 | (make-rectangular (* ($sin x) ($cosh y)) | |
687 | (* ($cos x) ($sinh y)))))) | |
688 | (define (cos z) | |
689 | (if (real? z) ($cos z) | |
690 | (let ((x (real-part z)) (y (imag-part z))) | |
691 | (make-rectangular (* ($cos x) ($cosh y)) | |
692 | (- (* ($sin x) ($sinh y))))))) | |
693 | (define (tan z) | |
694 | (if (real? z) ($tan z) | |
695 | (let* ((x (* 2 (real-part z))) | |
696 | (y (* 2 (imag-part z))) | |
697 | (w (+ ($cos x) ($cosh y)))) | |
698 | (make-rectangular (/ ($sin x) w) (/ ($sinh y) w))))) | |
699 | ||
700 | (define (asin z) | |
701 | (if (and (real? z) (>= z -1) (<= z 1)) | |
702 | ($asin z) | |
703 | (* -i (asinh (* +i z))))) | |
704 | ||
705 | (define (acos z) | |
706 | (if (and (real? z) (>= z -1) (<= z 1)) | |
707 | ($acos z) | |
708 | (+ (/ (angle -1) 2) (* +i (asinh (* +i z)))))) | |
709 | ||
710 | (define (atan z . y) | |
711 | (if (null? y) | |
712 | (if (real? z) ($atan z) | |
713 | (/ (log (/ (- +i z) (+ +i z))) +2i)) | |
714 | ($atan2 z (car y)))) | |
715 | ||
65495221 GH |
716 | (define (log10 arg) |
717 | (/ (log arg) (log 10))) | |
718 | ||
0f2d19dd | 719 | \f |
0f2d19dd JB |
720 | |
721 | ;;; {Reader Extensions} | |
722 | ;;; | |
723 | ||
724 | ;;; Reader code for various "#c" forms. | |
725 | ;;; | |
726 | ||
75a97b92 GH |
727 | (read-hash-extend #\' (lambda (c port) |
728 | (read port))) | |
729 | (read-hash-extend #\. (lambda (c port) | |
d7faeb2e | 730 | (eval (read port) (interaction-environment)))) |
75a97b92 | 731 | |
0f2d19dd JB |
732 | \f |
733 | ;;; {Command Line Options} | |
734 | ;;; | |
735 | ||
736 | (define (get-option argv kw-opts kw-args return) | |
737 | (cond | |
738 | ((null? argv) | |
739 | (return #f #f argv)) | |
740 | ||
741 | ((or (not (eq? #\- (string-ref (car argv) 0))) | |
742 | (eq? (string-length (car argv)) 1)) | |
743 | (return 'normal-arg (car argv) (cdr argv))) | |
744 | ||
745 | ((eq? #\- (string-ref (car argv) 1)) | |
746 | (let* ((kw-arg-pos (or (string-index (car argv) #\=) | |
747 | (string-length (car argv)))) | |
748 | (kw (symbol->keyword (substring (car argv) 2 kw-arg-pos))) | |
749 | (kw-opt? (member kw kw-opts)) | |
750 | (kw-arg? (member kw kw-args)) | |
751 | (arg (or (and (not (eq? kw-arg-pos (string-length (car argv)))) | |
752 | (substring (car argv) | |
753 | (+ kw-arg-pos 1) | |
754 | (string-length (car argv)))) | |
755 | (and kw-arg? | |
756 | (begin (set! argv (cdr argv)) (car argv)))))) | |
757 | (if (or kw-opt? kw-arg?) | |
758 | (return kw arg (cdr argv)) | |
759 | (return 'usage-error kw (cdr argv))))) | |
760 | ||
761 | (else | |
762 | (let* ((char (substring (car argv) 1 2)) | |
763 | (kw (symbol->keyword char))) | |
764 | (cond | |
765 | ||
766 | ((member kw kw-opts) | |
767 | (let* ((rest-car (substring (car argv) 2 (string-length (car argv)))) | |
768 | (new-argv (if (= 0 (string-length rest-car)) | |
769 | (cdr argv) | |
770 | (cons (string-append "-" rest-car) (cdr argv))))) | |
771 | (return kw #f new-argv))) | |
772 | ||
773 | ((member kw kw-args) | |
774 | (let* ((rest-car (substring (car argv) 2 (string-length (car argv)))) | |
775 | (arg (if (= 0 (string-length rest-car)) | |
776 | (cadr argv) | |
777 | rest-car)) | |
778 | (new-argv (if (= 0 (string-length rest-car)) | |
779 | (cddr argv) | |
780 | (cdr argv)))) | |
781 | (return kw arg new-argv))) | |
782 | ||
783 | (else (return 'usage-error kw argv))))))) | |
784 | ||
785 | (define (for-next-option proc argv kw-opts kw-args) | |
786 | (let loop ((argv argv)) | |
787 | (get-option argv kw-opts kw-args | |
788 | (lambda (opt opt-arg argv) | |
789 | (and opt (proc opt opt-arg argv loop)))))) | |
790 | ||
791 | (define (display-usage-report kw-desc) | |
792 | (for-each | |
793 | (lambda (kw) | |
794 | (or (eq? (car kw) #t) | |
795 | (eq? (car kw) 'else) | |
796 | (let* ((opt-desc kw) | |
797 | (help (cadr opt-desc)) | |
798 | (opts (car opt-desc)) | |
799 | (opts-proper (if (string? (car opts)) (cdr opts) opts)) | |
800 | (arg-name (if (string? (car opts)) | |
801 | (string-append "<" (car opts) ">") | |
802 | "")) | |
803 | (left-part (string-append | |
804 | (with-output-to-string | |
805 | (lambda () | |
806 | (map (lambda (x) (display (keyword-symbol x)) (display " ")) | |
807 | opts-proper))) | |
808 | arg-name)) | |
11b05261 MD |
809 | (middle-part (if (and (< (string-length left-part) 30) |
810 | (< (string-length help) 40)) | |
811 | (make-string (- 30 (string-length left-part)) #\ ) | |
0f2d19dd JB |
812 | "\n\t"))) |
813 | (display left-part) | |
814 | (display middle-part) | |
815 | (display help) | |
816 | (newline)))) | |
817 | kw-desc)) | |
818 | ||
819 | ||
820 | ||
0f2d19dd JB |
821 | (define (transform-usage-lambda cases) |
822 | (let* ((raw-usage (delq! 'else (map car cases))) | |
823 | (usage-sans-specials (map (lambda (x) | |
824 | (or (and (not (list? x)) x) | |
825 | (and (symbol? (car x)) #t) | |
826 | (and (boolean? (car x)) #t) | |
827 | x)) | |
828 | raw-usage)) | |
ed440df5 | 829 | (usage-desc (delq! #t usage-sans-specials)) |
0f2d19dd JB |
830 | (kw-desc (map car usage-desc)) |
831 | (kw-opts (apply append (map (lambda (x) (and (not (string? (car x))) x)) kw-desc))) | |
832 | (kw-args (apply append (map (lambda (x) (and (string? (car x)) (cdr x))) kw-desc))) | |
833 | (transmogrified-cases (map (lambda (case) | |
834 | (cons (let ((opts (car case))) | |
835 | (if (or (boolean? opts) (eq? 'else opts)) | |
836 | opts | |
837 | (cond | |
838 | ((symbol? (car opts)) opts) | |
839 | ((boolean? (car opts)) opts) | |
840 | ((string? (caar opts)) (cdar opts)) | |
841 | (else (car opts))))) | |
842 | (cdr case))) | |
843 | cases))) | |
844 | `(let ((%display-usage (lambda () (display-usage-report ',usage-desc)))) | |
845 | (lambda (%argv) | |
846 | (let %next-arg ((%argv %argv)) | |
847 | (get-option %argv | |
848 | ',kw-opts | |
849 | ',kw-args | |
850 | (lambda (%opt %arg %new-argv) | |
851 | (case %opt | |
852 | ,@ transmogrified-cases)))))))) | |
853 | ||
854 | ||
855 | \f | |
856 | ||
857 | ;;; {Low Level Modules} | |
858 | ;;; | |
859 | ;;; These are the low level data structures for modules. | |
860 | ;;; | |
861 | ;;; !!! warning: The interface to lazy binder procedures is going | |
862 | ;;; to be changed in an incompatible way to permit all the basic | |
863 | ;;; module ops to be virtualized. | |
864 | ;;; | |
865 | ;;; (make-module size use-list lazy-binding-proc) => module | |
866 | ;;; module-{obarray,uses,binder}[|-set!] | |
867 | ;;; (module? obj) => [#t|#f] | |
868 | ;;; (module-locally-bound? module symbol) => [#t|#f] | |
869 | ;;; (module-bound? module symbol) => [#t|#f] | |
870 | ;;; (module-symbol-locally-interned? module symbol) => [#t|#f] | |
871 | ;;; (module-symbol-interned? module symbol) => [#t|#f] | |
872 | ;;; (module-local-variable module symbol) => [#<variable ...> | #f] | |
873 | ;;; (module-variable module symbol) => [#<variable ...> | #f] | |
874 | ;;; (module-symbol-binding module symbol opt-value) | |
875 | ;;; => [ <obj> | opt-value | an error occurs ] | |
876 | ;;; (module-make-local-var! module symbol) => #<variable...> | |
877 | ;;; (module-add! module symbol var) => unspecified | |
878 | ;;; (module-remove! module symbol) => unspecified | |
879 | ;;; (module-for-each proc module) => unspecified | |
880 | ;;; (make-scm-module) => module ; a lazy copy of the symhash module | |
881 | ;;; (set-current-module module) => unspecified | |
882 | ;;; (current-module) => #<module...> | |
883 | ;;; | |
884 | ;;; | |
885 | ||
886 | \f | |
44cf1f0f JB |
887 | ;;; {Printing Modules} |
888 | ;; This is how modules are printed. You can re-define it. | |
fa7e9274 MV |
889 | ;; (Redefining is actually more complicated than simply redefining |
890 | ;; %print-module because that would only change the binding and not | |
891 | ;; the value stored in the vtable that determines how record are | |
892 | ;; printed. Sigh.) | |
893 | ||
894 | (define (%print-module mod port) ; unused args: depth length style table) | |
0f2d19dd JB |
895 | (display "#<" port) |
896 | (display (or (module-kind mod) "module") port) | |
897 | (let ((name (module-name mod))) | |
898 | (if name | |
899 | (begin | |
900 | (display " " port) | |
901 | (display name port)))) | |
902 | (display " " port) | |
903 | (display (number->string (object-address mod) 16) port) | |
904 | (display ">" port)) | |
905 | ||
906 | ;; module-type | |
907 | ;; | |
908 | ;; A module is characterized by an obarray in which local symbols | |
909 | ;; are interned, a list of modules, "uses", from which non-local | |
910 | ;; bindings can be inherited, and an optional lazy-binder which | |
31d50456 | 911 | ;; is a (CLOSURE module symbol) which, as a last resort, can provide |
0f2d19dd JB |
912 | ;; bindings that would otherwise not be found locally in the module. |
913 | ;; | |
d7faeb2e MD |
914 | ;; NOTE: If you change here, you also need to change libguile/modules.h. |
915 | ;; | |
0f2d19dd | 916 | (define module-type |
7a0ff2f8 | 917 | (make-record-type 'module |
1777c18b MD |
918 | '(obarray uses binder eval-closure transformer name kind |
919 | observers weak-observers observer-id) | |
8b718458 | 920 | %print-module)) |
0f2d19dd | 921 | |
8b718458 | 922 | ;; make-module &opt size uses binder |
0f2d19dd | 923 | ;; |
8b718458 JB |
924 | ;; Create a new module, perhaps with a particular size of obarray, |
925 | ;; initial uses list, or binding procedure. | |
0f2d19dd | 926 | ;; |
0f2d19dd JB |
927 | (define make-module |
928 | (lambda args | |
0f2d19dd | 929 | |
8b718458 JB |
930 | (define (parse-arg index default) |
931 | (if (> (length args) index) | |
932 | (list-ref args index) | |
933 | default)) | |
934 | ||
935 | (if (> (length args) 3) | |
936 | (error "Too many args to make-module." args)) | |
0f2d19dd | 937 | |
8b718458 JB |
938 | (let ((size (parse-arg 0 1021)) |
939 | (uses (parse-arg 1 '())) | |
940 | (binder (parse-arg 2 #f))) | |
0f2d19dd | 941 | |
8b718458 JB |
942 | (if (not (integer? size)) |
943 | (error "Illegal size to make-module." size)) | |
944 | (if (not (and (list? uses) | |
945 | (and-map module? uses))) | |
946 | (error "Incorrect use list." uses)) | |
0f2d19dd JB |
947 | (if (and binder (not (procedure? binder))) |
948 | (error | |
949 | "Lazy-binder expected to be a procedure or #f." binder)) | |
950 | ||
8b718458 | 951 | (let ((module (module-constructor (make-vector size '()) |
1777c18b MD |
952 | uses binder #f #f #f #f |
953 | '() | |
954 | (make-weak-value-hash-table 31) | |
955 | 0))) | |
8b718458 JB |
956 | |
957 | ;; We can't pass this as an argument to module-constructor, | |
958 | ;; because we need it to close over a pointer to the module | |
959 | ;; itself. | |
6906bd0d | 960 | (set-module-eval-closure! module (standard-eval-closure module)) |
8b718458 JB |
961 | |
962 | module)))) | |
0f2d19dd | 963 | |
8b718458 | 964 | (define module-constructor (record-constructor module-type)) |
0f2d19dd JB |
965 | (define module-obarray (record-accessor module-type 'obarray)) |
966 | (define set-module-obarray! (record-modifier module-type 'obarray)) | |
967 | (define module-uses (record-accessor module-type 'uses)) | |
968 | (define set-module-uses! (record-modifier module-type 'uses)) | |
969 | (define module-binder (record-accessor module-type 'binder)) | |
970 | (define set-module-binder! (record-modifier module-type 'binder)) | |
631c1902 MD |
971 | |
972 | ;; NOTE: This binding is used in libguile/modules.c. | |
31d50456 | 973 | (define module-eval-closure (record-accessor module-type 'eval-closure)) |
631c1902 | 974 | |
7a0ff2f8 MD |
975 | (define module-transformer (record-accessor module-type 'transformer)) |
976 | (define set-module-transformer! (record-modifier module-type 'transformer)) | |
0f2d19dd JB |
977 | (define module-name (record-accessor module-type 'name)) |
978 | (define set-module-name! (record-modifier module-type 'name)) | |
979 | (define module-kind (record-accessor module-type 'kind)) | |
980 | (define set-module-kind! (record-modifier module-type 'kind)) | |
1777c18b MD |
981 | (define module-observers (record-accessor module-type 'observers)) |
982 | (define set-module-observers! (record-modifier module-type 'observers)) | |
983 | (define module-weak-observers (record-accessor module-type 'weak-observers)) | |
984 | (define module-observer-id (record-accessor module-type 'observer-id)) | |
985 | (define set-module-observer-id! (record-modifier module-type 'observer-id)) | |
0f2d19dd JB |
986 | (define module? (record-predicate module-type)) |
987 | ||
edc185c7 MD |
988 | (define set-module-eval-closure! |
989 | (let ((setter (record-modifier module-type 'eval-closure))) | |
990 | (lambda (module closure) | |
991 | (setter module closure) | |
992 | ;; Make it possible to lookup the module from the environment. | |
993 | ;; This implementation is correct since an eval closure can belong | |
994 | ;; to maximally one module. | |
995 | (set-procedure-property! closure 'module module)))) | |
8b718458 | 996 | |
d7faeb2e MD |
997 | ;;; This procedure is depreated |
998 | ;;; | |
999 | (define eval-in-module eval) | |
0f2d19dd JB |
1000 | |
1001 | \f | |
1777c18b MD |
1002 | ;;; {Observer protocol} |
1003 | ;;; | |
1004 | ||
1005 | (define (module-observe module proc) | |
1006 | (set-module-observers! module (cons proc (module-observers module))) | |
1007 | (cons module proc)) | |
1008 | ||
1009 | (define (module-observe-weak module proc) | |
1010 | (let ((id (module-observer-id module))) | |
1011 | (hash-set! (module-weak-observers module) id proc) | |
1012 | (set-module-observer-id! module (+ 1 id)) | |
1013 | (cons module id))) | |
1014 | ||
1015 | (define (module-unobserve token) | |
1016 | (let ((module (car token)) | |
1017 | (id (cdr token))) | |
1018 | (if (integer? id) | |
1019 | (hash-remove! (module-weak-observers module) id) | |
1020 | (set-module-observers! module (delq1! id (module-observers module))))) | |
1021 | *unspecified*) | |
1022 | ||
1a961d7e | 1023 | (define (module-modified m) |
1777c18b MD |
1024 | (for-each (lambda (proc) (proc m)) (module-observers m)) |
1025 | (hash-fold (lambda (id proc res) (proc m)) #f (module-weak-observers m))) | |
1026 | ||
1027 | \f | |
0f2d19dd JB |
1028 | ;;; {Module Searching in General} |
1029 | ;;; | |
1030 | ;;; We sometimes want to look for properties of a symbol | |
1031 | ;;; just within the obarray of one module. If the property | |
1032 | ;;; holds, then it is said to hold ``locally'' as in, ``The symbol | |
1033 | ;;; DISPLAY is locally rebound in the module `safe-guile'.'' | |
1034 | ;;; | |
1035 | ;;; | |
1036 | ;;; Other times, we want to test for a symbol property in the obarray | |
1037 | ;;; of M and, if it is not found there, try each of the modules in the | |
1038 | ;;; uses list of M. This is the normal way of testing for some | |
1039 | ;;; property, so we state these properties without qualification as | |
1040 | ;;; in: ``The symbol 'fnord is interned in module M because it is | |
1041 | ;;; interned locally in module M2 which is a member of the uses list | |
1042 | ;;; of M.'' | |
1043 | ;;; | |
1044 | ||
1045 | ;; module-search fn m | |
1046 | ;; | |
1047 | ;; return the first non-#f result of FN applied to M and then to | |
1048 | ;; the modules in the uses of m, and so on recursively. If all applications | |
1049 | ;; return #f, then so does this function. | |
1050 | ;; | |
1051 | (define (module-search fn m v) | |
1052 | (define (loop pos) | |
1053 | (and (pair? pos) | |
1054 | (or (module-search fn (car pos) v) | |
1055 | (loop (cdr pos))))) | |
1056 | (or (fn m v) | |
1057 | (loop (module-uses m)))) | |
1058 | ||
1059 | ||
1060 | ;;; {Is a symbol bound in a module?} | |
1061 | ;;; | |
1062 | ;;; Symbol S in Module M is bound if S is interned in M and if the binding | |
1063 | ;;; of S in M has been set to some well-defined value. | |
1064 | ;;; | |
1065 | ||
1066 | ;; module-locally-bound? module symbol | |
1067 | ;; | |
1068 | ;; Is a symbol bound (interned and defined) locally in a given module? | |
1069 | ;; | |
1070 | (define (module-locally-bound? m v) | |
1071 | (let ((var (module-local-variable m v))) | |
1072 | (and var | |
1073 | (variable-bound? var)))) | |
1074 | ||
1075 | ;; module-bound? module symbol | |
1076 | ;; | |
1077 | ;; Is a symbol bound (interned and defined) anywhere in a given module | |
1078 | ;; or its uses? | |
1079 | ;; | |
1080 | (define (module-bound? m v) | |
1081 | (module-search module-locally-bound? m v)) | |
1082 | ||
1083 | ;;; {Is a symbol interned in a module?} | |
1084 | ;;; | |
1085 | ;;; Symbol S in Module M is interned if S occurs in | |
1086 | ;;; of S in M has been set to some well-defined value. | |
1087 | ;;; | |
1088 | ;;; It is possible to intern a symbol in a module without providing | |
1089 | ;;; an initial binding for the corresponding variable. This is done | |
1090 | ;;; with: | |
1091 | ;;; (module-add! module symbol (make-undefined-variable)) | |
1092 | ;;; | |
1093 | ;;; In that case, the symbol is interned in the module, but not | |
1094 | ;;; bound there. The unbound symbol shadows any binding for that | |
1095 | ;;; symbol that might otherwise be inherited from a member of the uses list. | |
1096 | ;;; | |
1097 | ||
1098 | (define (module-obarray-get-handle ob key) | |
1099 | ((if (symbol? key) hashq-get-handle hash-get-handle) ob key)) | |
1100 | ||
1101 | (define (module-obarray-ref ob key) | |
1102 | ((if (symbol? key) hashq-ref hash-ref) ob key)) | |
1103 | ||
1104 | (define (module-obarray-set! ob key val) | |
1105 | ((if (symbol? key) hashq-set! hash-set!) ob key val)) | |
1106 | ||
1107 | (define (module-obarray-remove! ob key) | |
1108 | ((if (symbol? key) hashq-remove! hash-remove!) ob key)) | |
1109 | ||
1110 | ;; module-symbol-locally-interned? module symbol | |
1111 | ;; | |
1112 | ;; is a symbol interned (not neccessarily defined) locally in a given module | |
1113 | ;; or its uses? Interned symbols shadow inherited bindings even if | |
1114 | ;; they are not themselves bound to a defined value. | |
1115 | ;; | |
1116 | (define (module-symbol-locally-interned? m v) | |
1117 | (not (not (module-obarray-get-handle (module-obarray m) v)))) | |
1118 | ||
1119 | ;; module-symbol-interned? module symbol | |
1120 | ;; | |
1121 | ;; is a symbol interned (not neccessarily defined) anywhere in a given module | |
1122 | ;; or its uses? Interned symbols shadow inherited bindings even if | |
1123 | ;; they are not themselves bound to a defined value. | |
1124 | ;; | |
1125 | (define (module-symbol-interned? m v) | |
1126 | (module-search module-symbol-locally-interned? m v)) | |
1127 | ||
1128 | ||
1129 | ;;; {Mapping modules x symbols --> variables} | |
1130 | ;;; | |
1131 | ||
1132 | ;; module-local-variable module symbol | |
1133 | ;; return the local variable associated with a MODULE and SYMBOL. | |
1134 | ;; | |
1135 | ;;; This function is very important. It is the only function that can | |
1136 | ;;; return a variable from a module other than the mutators that store | |
1137 | ;;; new variables in modules. Therefore, this function is the location | |
1138 | ;;; of the "lazy binder" hack. | |
1139 | ;;; | |
1140 | ;;; If symbol is defined in MODULE, and if the definition binds symbol | |
1141 | ;;; to a variable, return that variable object. | |
1142 | ;;; | |
1143 | ;;; If the symbols is not found at first, but the module has a lazy binder, | |
1144 | ;;; then try the binder. | |
1145 | ;;; | |
1146 | ;;; If the symbol is not found at all, return #f. | |
1147 | ;;; | |
1148 | (define (module-local-variable m v) | |
6fa8995c GH |
1149 | ; (caddr |
1150 | ; (list m v | |
0f2d19dd JB |
1151 | (let ((b (module-obarray-ref (module-obarray m) v))) |
1152 | (or (and (variable? b) b) | |
1153 | (and (module-binder m) | |
6fa8995c GH |
1154 | ((module-binder m) m v #f))))) |
1155 | ;)) | |
0f2d19dd JB |
1156 | |
1157 | ;; module-variable module symbol | |
1158 | ;; | |
1159 | ;; like module-local-variable, except search the uses in the | |
1160 | ;; case V is not found in M. | |
1161 | ;; | |
6906bd0d MD |
1162 | ;; NOTE: This function is superseded with C code (see modules.c) |
1163 | ;;; when using the standard eval closure. | |
1164 | ;; | |
0f2d19dd JB |
1165 | (define (module-variable m v) |
1166 | (module-search module-local-variable m v)) | |
1167 | ||
1168 | ||
1169 | ;;; {Mapping modules x symbols --> bindings} | |
1170 | ;;; | |
1171 | ;;; These are similar to the mapping to variables, except that the | |
1172 | ;;; variable is dereferenced. | |
1173 | ;;; | |
1174 | ||
1175 | ;; module-symbol-binding module symbol opt-value | |
1176 | ;; | |
1177 | ;; return the binding of a variable specified by name within | |
1178 | ;; a given module, signalling an error if the variable is unbound. | |
1179 | ;; If the OPT-VALUE is passed, then instead of signalling an error, | |
1180 | ;; return OPT-VALUE. | |
1181 | ;; | |
1182 | (define (module-symbol-local-binding m v . opt-val) | |
1183 | (let ((var (module-local-variable m v))) | |
1184 | (if var | |
1185 | (variable-ref var) | |
1186 | (if (not (null? opt-val)) | |
1187 | (car opt-val) | |
1188 | (error "Locally unbound variable." v))))) | |
1189 | ||
1190 | ;; module-symbol-binding module symbol opt-value | |
1191 | ;; | |
1192 | ;; return the binding of a variable specified by name within | |
1193 | ;; a given module, signalling an error if the variable is unbound. | |
1194 | ;; If the OPT-VALUE is passed, then instead of signalling an error, | |
1195 | ;; return OPT-VALUE. | |
1196 | ;; | |
1197 | (define (module-symbol-binding m v . opt-val) | |
1198 | (let ((var (module-variable m v))) | |
1199 | (if var | |
1200 | (variable-ref var) | |
1201 | (if (not (null? opt-val)) | |
1202 | (car opt-val) | |
1203 | (error "Unbound variable." v))))) | |
1204 | ||
1205 | ||
1206 | \f | |
1207 | ;;; {Adding Variables to Modules} | |
1208 | ;;; | |
1209 | ;;; | |
1210 | ||
1211 | ||
1212 | ;; module-make-local-var! module symbol | |
1213 | ;; | |
1214 | ;; ensure a variable for V in the local namespace of M. | |
1215 | ;; If no variable was already there, then create a new and uninitialzied | |
1216 | ;; variable. | |
1217 | ;; | |
1218 | (define (module-make-local-var! m v) | |
1219 | (or (let ((b (module-obarray-ref (module-obarray m) v))) | |
1777c18b MD |
1220 | (and (variable? b) |
1221 | (begin | |
1a961d7e | 1222 | (module-modified m) |
1777c18b | 1223 | b))) |
0f2d19dd JB |
1224 | (and (module-binder m) |
1225 | ((module-binder m) m v #t)) | |
1226 | (begin | |
1227 | (let ((answer (make-undefined-variable v))) | |
1228 | (module-obarray-set! (module-obarray m) v answer) | |
1a961d7e | 1229 | (module-modified m) |
0f2d19dd JB |
1230 | answer)))) |
1231 | ||
1232 | ;; module-add! module symbol var | |
1233 | ;; | |
1234 | ;; ensure a particular variable for V in the local namespace of M. | |
1235 | ;; | |
1236 | (define (module-add! m v var) | |
1237 | (if (not (variable? var)) | |
1238 | (error "Bad variable to module-add!" var)) | |
1777c18b | 1239 | (module-obarray-set! (module-obarray m) v var) |
1a961d7e | 1240 | (module-modified m)) |
0f2d19dd JB |
1241 | |
1242 | ;; module-remove! | |
1243 | ;; | |
1244 | ;; make sure that a symbol is undefined in the local namespace of M. | |
1245 | ;; | |
1246 | (define (module-remove! m v) | |
1777c18b | 1247 | (module-obarray-remove! (module-obarray m) v) |
1a961d7e | 1248 | (module-modified m)) |
0f2d19dd JB |
1249 | |
1250 | (define (module-clear! m) | |
1777c18b | 1251 | (vector-fill! (module-obarray m) '()) |
1a961d7e | 1252 | (module-modified m)) |
0f2d19dd JB |
1253 | |
1254 | ;; MODULE-FOR-EACH -- exported | |
1255 | ;; | |
1256 | ;; Call PROC on each symbol in MODULE, with arguments of (SYMBOL VARIABLE). | |
1257 | ;; | |
1258 | (define (module-for-each proc module) | |
1259 | (let ((obarray (module-obarray module))) | |
1260 | (do ((index 0 (+ index 1)) | |
1261 | (end (vector-length obarray))) | |
1262 | ((= index end)) | |
1263 | (for-each | |
1264 | (lambda (bucket) | |
1265 | (proc (car bucket) (cdr bucket))) | |
1266 | (vector-ref obarray index))))) | |
1267 | ||
1268 | ||
1269 | (define (module-map proc module) | |
1270 | (let* ((obarray (module-obarray module)) | |
1271 | (end (vector-length obarray))) | |
1272 | ||
1273 | (let loop ((i 0) | |
1274 | (answer '())) | |
1275 | (if (= i end) | |
1276 | answer | |
1277 | (loop (+ 1 i) | |
1278 | (append! | |
1279 | (map (lambda (bucket) | |
1280 | (proc (car bucket) (cdr bucket))) | |
1281 | (vector-ref obarray i)) | |
1282 | answer)))))) | |
1283 | \f | |
1284 | ||
1285 | ;;; {Low Level Bootstrapping} | |
1286 | ;;; | |
1287 | ||
1288 | ;; make-root-module | |
1289 | ||
21ed9efe | 1290 | ;; A root module uses the symhash table (the system's privileged |
0f2d19dd JB |
1291 | ;; obarray). Being inside a root module is like using SCM without |
1292 | ;; any module system. | |
1293 | ;; | |
1294 | ||
1295 | ||
31d50456 | 1296 | (define (root-module-closure m s define?) |
17466330 | 1297 | (let ((bi (builtin-variable s))) |
0f2d19dd JB |
1298 | (and bi |
1299 | (or define? (variable-bound? bi)) | |
1300 | (begin | |
1301 | (module-add! m s bi) | |
1302 | bi)))) | |
1303 | ||
1304 | (define (make-root-module) | |
31d50456 | 1305 | (make-module 1019 '() root-module-closure)) |
0f2d19dd JB |
1306 | |
1307 | ||
1308 | ;; make-scm-module | |
1309 | ||
1310 | ;; An scm module is a module into which the lazy binder copies | |
1311 | ;; variable bindings from the system symhash table. The mapping is | |
1312 | ;; one way only; newly introduced bindings in an scm module are not | |
1313 | ;; copied back into the system symhash table (and can be used to override | |
1314 | ;; bindings from the symhash table). | |
1315 | ;; | |
1316 | ||
6906bd0d | 1317 | (define (scm-module-closure m s define?) |
17466330 | 1318 | (let ((bi (builtin-variable s))) |
6906bd0d MD |
1319 | (and bi |
1320 | (variable-bound? bi) | |
1321 | (begin | |
1322 | (module-add! m s bi) | |
1323 | bi)))) | |
0f2d19dd | 1324 | |
6906bd0d MD |
1325 | (define (make-scm-module) |
1326 | (make-module 1019 '() scm-module-closure)) | |
0f2d19dd JB |
1327 | |
1328 | ||
1329 | ||
1330 | ;; the-module | |
631c1902 MD |
1331 | ;; |
1332 | ;; NOTE: This binding is used in libguile/modules.c. | |
1333 | ;; | |
bd0fb3cf | 1334 | (define the-module (make-fluid)) |
0f2d19dd | 1335 | |
7a0ff2f8 | 1336 | ;; scm:eval-transformer |
d43f8c97 | 1337 | ;; |
bd0fb3cf | 1338 | ;;(define scm:eval-transformer (make-fluid)) ; initialized in eval.c. |
d43f8c97 | 1339 | |
0f2d19dd JB |
1340 | ;; set-current-module module |
1341 | ;; | |
1342 | ;; set the current module as viewed by the normalizer. | |
1343 | ;; | |
631c1902 MD |
1344 | ;; NOTE: This binding is used in libguile/modules.c. |
1345 | ;; | |
0f2d19dd | 1346 | (define (set-current-module m) |
bd0fb3cf | 1347 | (fluid-set! the-module m) |
7a0ff2f8 MD |
1348 | (if m |
1349 | (begin | |
d7faeb2e | 1350 | ;; *top-level-lookup-closure* is now deprecated |
bd0fb3cf MD |
1351 | (fluid-set! *top-level-lookup-closure* |
1352 | (module-eval-closure (fluid-ref the-module))) | |
1353 | (fluid-set! scm:eval-transformer (module-transformer (fluid-ref the-module)))) | |
1354 | (fluid-set! *top-level-lookup-closure* #f))) | |
0f2d19dd JB |
1355 | |
1356 | ||
1357 | ;; current-module | |
1358 | ;; | |
1359 | ;; return the current module as viewed by the normalizer. | |
1360 | ;; | |
bd0fb3cf | 1361 | (define (current-module) (fluid-ref the-module)) |
0f2d19dd JB |
1362 | \f |
1363 | ;;; {Module-based Loading} | |
1364 | ;;; | |
1365 | ||
1366 | (define (save-module-excursion thunk) | |
1367 | (let ((inner-module (current-module)) | |
1368 | (outer-module #f)) | |
1369 | (dynamic-wind (lambda () | |
1370 | (set! outer-module (current-module)) | |
1371 | (set-current-module inner-module) | |
1372 | (set! inner-module #f)) | |
1373 | thunk | |
1374 | (lambda () | |
1375 | (set! inner-module (current-module)) | |
1376 | (set-current-module outer-module) | |
1377 | (set! outer-module #f))))) | |
1378 | ||
0f2d19dd JB |
1379 | (define basic-load load) |
1380 | ||
c6775c40 MD |
1381 | (define (load-module filename) |
1382 | (save-module-excursion | |
1383 | (lambda () | |
1384 | (let ((oldname (and (current-load-port) | |
1385 | (port-filename (current-load-port))))) | |
1386 | (basic-load (if (and oldname | |
1387 | (> (string-length filename) 0) | |
1388 | (not (char=? (string-ref filename 0) #\/)) | |
1389 | (not (string=? (dirname oldname) "."))) | |
1390 | (string-append (dirname oldname) "/" filename) | |
1391 | filename)))))) | |
0f2d19dd JB |
1392 | |
1393 | ||
1394 | \f | |
44cf1f0f | 1395 | ;;; {MODULE-REF -- exported} |
0f2d19dd JB |
1396 | ;; |
1397 | ;; Returns the value of a variable called NAME in MODULE or any of its | |
1398 | ;; used modules. If there is no such variable, then if the optional third | |
1399 | ;; argument DEFAULT is present, it is returned; otherwise an error is signaled. | |
1400 | ;; | |
1401 | (define (module-ref module name . rest) | |
1402 | (let ((variable (module-variable module name))) | |
1403 | (if (and variable (variable-bound? variable)) | |
1404 | (variable-ref variable) | |
1405 | (if (null? rest) | |
1406 | (error "No variable named" name 'in module) | |
1407 | (car rest) ; default value | |
1408 | )))) | |
1409 | ||
1410 | ;; MODULE-SET! -- exported | |
1411 | ;; | |
1412 | ;; Sets the variable called NAME in MODULE (or in a module that MODULE uses) | |
1413 | ;; to VALUE; if there is no such variable, an error is signaled. | |
1414 | ;; | |
1415 | (define (module-set! module name value) | |
1416 | (let ((variable (module-variable module name))) | |
1417 | (if variable | |
1418 | (variable-set! variable value) | |
1419 | (error "No variable named" name 'in module)))) | |
1420 | ||
1421 | ;; MODULE-DEFINE! -- exported | |
1422 | ;; | |
1423 | ;; Sets the variable called NAME in MODULE to VALUE; if there is no such | |
1424 | ;; variable, it is added first. | |
1425 | ;; | |
1426 | (define (module-define! module name value) | |
1427 | (let ((variable (module-local-variable module name))) | |
1428 | (if variable | |
1777c18b MD |
1429 | (begin |
1430 | (variable-set! variable value) | |
1a961d7e | 1431 | (module-modified module)) |
0f2d19dd JB |
1432 | (module-add! module name (make-variable value name))))) |
1433 | ||
ed218d98 MV |
1434 | ;; MODULE-DEFINED? -- exported |
1435 | ;; | |
1436 | ;; Return #t iff NAME is defined in MODULE (or in a module that MODULE | |
1437 | ;; uses) | |
1438 | ;; | |
1439 | (define (module-defined? module name) | |
1440 | (let ((variable (module-variable module name))) | |
1441 | (and variable (variable-bound? variable)))) | |
1442 | ||
0f2d19dd JB |
1443 | ;; MODULE-USE! module interface |
1444 | ;; | |
1445 | ;; Add INTERFACE to the list of interfaces used by MODULE. | |
1446 | ;; | |
1447 | (define (module-use! module interface) | |
1448 | (set-module-uses! module | |
1777c18b | 1449 | (cons interface (delq! interface (module-uses module)))) |
1a961d7e | 1450 | (module-modified module)) |
0f2d19dd JB |
1451 | |
1452 | \f | |
0f2d19dd JB |
1453 | ;;; {Recursive Namespaces} |
1454 | ;;; | |
1455 | ;;; | |
1456 | ;;; A hierarchical namespace emerges if we consider some module to be | |
1457 | ;;; root, and variables bound to modules as nested namespaces. | |
1458 | ;;; | |
1459 | ;;; The routines in this file manage variable names in hierarchical namespace. | |
1460 | ;;; Each variable name is a list of elements, looked up in successively nested | |
1461 | ;;; modules. | |
1462 | ;;; | |
0dd5491c | 1463 | ;;; (nested-ref some-root-module '(foo bar baz)) |
0f2d19dd JB |
1464 | ;;; => <value of a variable named baz in the module bound to bar in |
1465 | ;;; the module bound to foo in some-root-module> | |
1466 | ;;; | |
1467 | ;;; | |
1468 | ;;; There are: | |
1469 | ;;; | |
1470 | ;;; ;; a-root is a module | |
1471 | ;;; ;; name is a list of symbols | |
1472 | ;;; | |
0dd5491c MD |
1473 | ;;; nested-ref a-root name |
1474 | ;;; nested-set! a-root name val | |
1475 | ;;; nested-define! a-root name val | |
1476 | ;;; nested-remove! a-root name | |
0f2d19dd JB |
1477 | ;;; |
1478 | ;;; | |
1479 | ;;; (current-module) is a natural choice for a-root so for convenience there are | |
1480 | ;;; also: | |
1481 | ;;; | |
0dd5491c MD |
1482 | ;;; local-ref name == nested-ref (current-module) name |
1483 | ;;; local-set! name val == nested-set! (current-module) name val | |
1484 | ;;; local-define! name val == nested-define! (current-module) name val | |
1485 | ;;; local-remove! name == nested-remove! (current-module) name | |
0f2d19dd JB |
1486 | ;;; |
1487 | ||
1488 | ||
0dd5491c | 1489 | (define (nested-ref root names) |
0f2d19dd JB |
1490 | (let loop ((cur root) |
1491 | (elts names)) | |
1492 | (cond | |
1493 | ((null? elts) cur) | |
1494 | ((not (module? cur)) #f) | |
1495 | (else (loop (module-ref cur (car elts) #f) (cdr elts)))))) | |
1496 | ||
0dd5491c | 1497 | (define (nested-set! root names val) |
0f2d19dd JB |
1498 | (let loop ((cur root) |
1499 | (elts names)) | |
1500 | (if (null? (cdr elts)) | |
1501 | (module-set! cur (car elts) val) | |
1502 | (loop (module-ref cur (car elts)) (cdr elts))))) | |
1503 | ||
0dd5491c | 1504 | (define (nested-define! root names val) |
0f2d19dd JB |
1505 | (let loop ((cur root) |
1506 | (elts names)) | |
1507 | (if (null? (cdr elts)) | |
1508 | (module-define! cur (car elts) val) | |
1509 | (loop (module-ref cur (car elts)) (cdr elts))))) | |
1510 | ||
0dd5491c | 1511 | (define (nested-remove! root names) |
0f2d19dd JB |
1512 | (let loop ((cur root) |
1513 | (elts names)) | |
1514 | (if (null? (cdr elts)) | |
1515 | (module-remove! cur (car elts)) | |
1516 | (loop (module-ref cur (car elts)) (cdr elts))))) | |
1517 | ||
0dd5491c MD |
1518 | (define (local-ref names) (nested-ref (current-module) names)) |
1519 | (define (local-set! names val) (nested-set! (current-module) names val)) | |
1520 | (define (local-define names val) (nested-define! (current-module) names val)) | |
1521 | (define (local-remove names) (nested-remove! (current-module) names)) | |
0f2d19dd JB |
1522 | |
1523 | ||
1524 | \f | |
8bb7330c | 1525 | ;;; {The (app) module} |
0f2d19dd JB |
1526 | ;;; |
1527 | ;;; The root of conventionally named objects not directly in the top level. | |
1528 | ;;; | |
8bb7330c JB |
1529 | ;;; (app modules) |
1530 | ;;; (app modules guile) | |
0f2d19dd JB |
1531 | ;;; |
1532 | ;;; The directory of all modules and the standard root module. | |
1533 | ;;; | |
1534 | ||
edc185c7 MD |
1535 | (define (module-public-interface m) |
1536 | (module-ref m '%module-public-interface #f)) | |
1537 | (define (set-module-public-interface! m i) | |
1538 | (module-define! m '%module-public-interface i)) | |
1539 | (define (set-system-module! m s) | |
1540 | (set-procedure-property! (module-eval-closure m) 'system-module s)) | |
0f2d19dd JB |
1541 | (define the-root-module (make-root-module)) |
1542 | (define the-scm-module (make-scm-module)) | |
1543 | (set-module-public-interface! the-root-module the-scm-module) | |
d5504515 MD |
1544 | (set-module-name! the-root-module '(guile)) |
1545 | (set-module-name! the-scm-module '(guile)) | |
1546 | (set-module-kind! the-scm-module 'interface) | |
edc185c7 | 1547 | (for-each set-system-module! (list the-root-module the-scm-module) '(#t #t)) |
0f2d19dd JB |
1548 | |
1549 | (set-current-module the-root-module) | |
1550 | ||
1551 | (define app (make-module 31)) | |
0dd5491c MD |
1552 | (local-define '(app modules) (make-module 31)) |
1553 | (local-define '(app modules guile) the-root-module) | |
0f2d19dd JB |
1554 | |
1555 | ;; (define-special-value '(app modules new-ws) (lambda () (make-scm-module))) | |
1556 | ||
432558b9 MD |
1557 | (define (try-load-module name) |
1558 | (or (try-module-linked name) | |
1559 | (try-module-autoload name) | |
1560 | (try-module-dynamic-link name))) | |
1561 | ||
1f60d9d2 MD |
1562 | ;; NOTE: This binding is used in libguile/modules.c. |
1563 | ;; | |
0209ca9a | 1564 | (define (resolve-module name . maybe-autoload) |
0f2d19dd | 1565 | (let ((full-name (append '(app modules) name))) |
0dd5491c | 1566 | (let ((already (local-ref full-name))) |
432558b9 MD |
1567 | (if already |
1568 | ;; The module already exists... | |
1569 | (if (and (or (null? maybe-autoload) (car maybe-autoload)) | |
1570 | (not (module-ref already '%module-public-interface #f))) | |
1571 | ;; ...but we are told to load and it doesn't contain source, so | |
1572 | (begin | |
1573 | (try-load-module name) | |
1574 | already) | |
1575 | ;; simply return it. | |
1576 | already) | |
3e3cec45 | 1577 | (begin |
432558b9 | 1578 | ;; Try to autoload it if we are told so |
3e3cec45 | 1579 | (if (or (null? maybe-autoload) (car maybe-autoload)) |
432558b9 MD |
1580 | (try-load-module name)) |
1581 | ;; Get/create it. | |
3e3cec45 | 1582 | (make-modules-in (current-module) full-name)))))) |
0f2d19dd JB |
1583 | |
1584 | (define (beautify-user-module! module) | |
3e3cec45 MD |
1585 | (let ((interface (module-public-interface module))) |
1586 | (if (or (not interface) | |
1587 | (eq? interface module)) | |
1588 | (let ((interface (make-module 31))) | |
1589 | (set-module-name! interface (module-name module)) | |
1590 | (set-module-kind! interface 'interface) | |
1591 | (set-module-public-interface! module interface)))) | |
cc7f066c MD |
1592 | (if (and (not (memq the-scm-module (module-uses module))) |
1593 | (not (eq? module the-root-module))) | |
0f2d19dd JB |
1594 | (set-module-uses! module (append (module-uses module) (list the-scm-module))))) |
1595 | ||
90847923 MD |
1596 | (define (purify-module! module) |
1597 | "Removes bindings in MODULE which are inherited from the (guile) module." | |
1598 | (let ((use-list (module-uses module))) | |
1599 | (if (and (pair? use-list) | |
1600 | (eq? (car (last-pair use-list)) the-scm-module)) | |
1601 | (set-module-uses! module (reverse (cdr (reverse use-list))))))) | |
1602 | ||
631c1902 MD |
1603 | ;; NOTE: This binding is used in libguile/modules.c. |
1604 | ;; | |
0f2d19dd JB |
1605 | (define (make-modules-in module name) |
1606 | (if (null? name) | |
1607 | module | |
1608 | (cond | |
3e3cec45 MD |
1609 | ((module-ref module (car name) #f) |
1610 | => (lambda (m) (make-modules-in m (cdr name)))) | |
0f2d19dd JB |
1611 | (else (let ((m (make-module 31))) |
1612 | (set-module-kind! m 'directory) | |
d5504515 MD |
1613 | (set-module-name! m (append (or (module-name module) |
1614 | '()) | |
1615 | (list (car name)))) | |
0f2d19dd JB |
1616 | (module-define! module (car name) m) |
1617 | (make-modules-in m (cdr name))))))) | |
1618 | ||
1619 | (define (resolve-interface name) | |
1620 | (let ((module (resolve-module name))) | |
1621 | (and module (module-public-interface module)))) | |
1622 | ||
1623 | ||
1624 | (define %autoloader-developer-mode #t) | |
1625 | ||
1626 | (define (process-define-module args) | |
1627 | (let* ((module-id (car args)) | |
0209ca9a | 1628 | (module (resolve-module module-id #f)) |
0f2d19dd JB |
1629 | (kws (cdr args))) |
1630 | (beautify-user-module! module) | |
0209ca9a | 1631 | (let loop ((kws kws) |
44484f52 MD |
1632 | (reversed-interfaces '()) |
1633 | (exports '())) | |
0209ca9a | 1634 | (if (null? kws) |
44484f52 MD |
1635 | (begin |
1636 | (for-each (lambda (interface) | |
1637 | (module-use! module interface)) | |
1638 | reversed-interfaces) | |
1639 | (module-export! module exports)) | |
06f0414c MD |
1640 | (let ((keyword (if (keyword? (car kws)) |
1641 | (keyword->symbol (car kws)) | |
1642 | (and (symbol? (car kws)) | |
1643 | (let ((s (symbol->string (car kws)))) | |
1644 | (and (eq? (string-ref s 0) #\:) | |
1645 | (string->symbol (substring s 1)))))))) | |
f714ca8e MD |
1646 | (case keyword |
1647 | ((use-module use-syntax) | |
1648 | (if (not (pair? (cdr kws))) | |
1649 | (error "unrecognized defmodule argument" kws)) | |
1650 | (let* ((used-name (cadr kws)) | |
1651 | (used-module (resolve-module used-name))) | |
45a02a29 MD |
1652 | (if (not (module-ref used-module |
1653 | '%module-public-interface | |
1654 | #f)) | |
3e3cec45 | 1655 | (begin |
45a02a29 MD |
1656 | ((if %autoloader-developer-mode warn error) |
1657 | "no code for module" (module-name used-module)) | |
1658 | (beautify-user-module! used-module))) | |
1659 | (let ((interface (module-public-interface used-module))) | |
1660 | (if (not interface) | |
1661 | (error "missing interface for use-module" | |
1662 | used-module)) | |
1663 | (if (eq? keyword 'use-syntax) | |
7cbaee0c MD |
1664 | (set-module-transformer! |
1665 | module | |
45a02a29 MD |
1666 | (module-ref interface (car (last-pair used-name)) |
1667 | #f))) | |
1668 | (loop (cddr kws) | |
44484f52 MD |
1669 | (cons interface reversed-interfaces) |
1670 | exports)))) | |
71225060 MD |
1671 | ((autoload) |
1672 | (if (not (and (pair? (cdr kws)) (pair? (cddr kws)))) | |
1673 | (error "unrecognized defmodule argument" kws)) | |
1674 | (loop (cdddr kws) | |
1675 | (cons (make-autoload-interface module | |
1676 | (cadr kws) | |
1677 | (caddr kws)) | |
44484f52 MD |
1678 | reversed-interfaces) |
1679 | exports)) | |
edc185c7 MD |
1680 | ((no-backtrace) |
1681 | (set-system-module! module #t) | |
44484f52 | 1682 | (loop (cdr kws) reversed-interfaces exports)) |
90847923 MD |
1683 | ((pure) |
1684 | (purify-module! module) | |
44484f52 | 1685 | (loop (cdr kws) reversed-interfaces exports)) |
90847923 | 1686 | ((export) |
a473fead | 1687 | (if (not (pair? (cdr kws))) |
90847923 | 1688 | (error "unrecognized defmodule argument" kws)) |
44484f52 MD |
1689 | (loop (cddr kws) |
1690 | reversed-interfaces | |
1691 | (append (cadr kws) exports))) | |
f714ca8e MD |
1692 | (else |
1693 | (error "unrecognized defmodule argument" kws)))))) | |
645e38d9 | 1694 | (set-current-module module) |
0f2d19dd | 1695 | module)) |
71225060 MD |
1696 | |
1697 | ;;; {Autoload} | |
1698 | ||
1699 | (define (make-autoload-interface module name bindings) | |
1700 | (let ((b (lambda (a sym definep) | |
1701 | (and (memq sym bindings) | |
1702 | (let ((i (module-public-interface (resolve-module name)))) | |
1703 | (if (not i) | |
1704 | (error "missing interface for module" name)) | |
1705 | ;; Replace autoload-interface with interface | |
1706 | (set-car! (memq a (module-uses module)) i) | |
1707 | (module-local-variable i sym)))))) | |
d5504515 | 1708 | (module-constructor #() '() b #f #f name 'autoload |
6b64c19b | 1709 | '() (make-weak-value-hash-table 31) 0))) |
71225060 | 1710 | |
0f2d19dd | 1711 | \f |
44cf1f0f | 1712 | ;;; {Autoloading modules} |
0f2d19dd JB |
1713 | |
1714 | (define autoloads-in-progress '()) | |
1715 | ||
1716 | (define (try-module-autoload module-name) | |
0f2d19dd | 1717 | (let* ((reverse-name (reverse module-name)) |
06f0414c | 1718 | (name (symbol->string (car reverse-name))) |
0f2d19dd | 1719 | (dir-hint-module-name (reverse (cdr reverse-name))) |
06f0414c MD |
1720 | (dir-hint (apply string-append |
1721 | (map (lambda (elt) | |
1722 | (string-append (symbol->string elt) "/")) | |
1723 | dir-hint-module-name)))) | |
0209ca9a | 1724 | (resolve-module dir-hint-module-name #f) |
0f2d19dd JB |
1725 | (and (not (autoload-done-or-in-progress? dir-hint name)) |
1726 | (let ((didit #f)) | |
1727 | (dynamic-wind | |
1728 | (lambda () (autoload-in-progress! dir-hint name)) | |
defed517 MD |
1729 | (lambda () |
1730 | (let ((full (%search-load-path (in-vicinity dir-hint name)))) | |
1731 | (if full | |
1732 | (begin | |
1733 | (save-module-excursion (lambda () (primitive-load full))) | |
1734 | (set! didit #t))))) | |
0f2d19dd JB |
1735 | (lambda () (set-autoloaded! dir-hint name didit))) |
1736 | didit)))) | |
1737 | ||
71225060 | 1738 | \f |
d0cbd20c MV |
1739 | ;;; Dynamic linking of modules |
1740 | ||
1741 | ;; Initializing a module that is written in C is a two step process. | |
1742 | ;; First the module's `module init' function is called. This function | |
1743 | ;; is expected to call `scm_register_module_xxx' to register the `real | |
1744 | ;; init' function. Later, when the module is referenced for the first | |
1745 | ;; time, this real init function is called in the right context. See | |
1746 | ;; gtcltk-lib/gtcltk-module.c for an example. | |
1747 | ;; | |
1748 | ;; The code for the module can be in a regular shared library (so that | |
1749 | ;; the `module init' function will be called when libguile is | |
1750 | ;; initialized). Or it can be dynamically linked. | |
1751 | ;; | |
1752 | ;; You can safely call `scm_register_module_xxx' before libguile | |
1753 | ;; itself is initialized. You could call it from an C++ constructor | |
1754 | ;; of a static object, for example. | |
1755 | ;; | |
1756 | ;; To make your Guile extension into a dynamic linkable module, follow | |
1757 | ;; these easy steps: | |
1758 | ;; | |
8bb7330c | 1759 | ;; - Find a name for your module, like (ice-9 gtcltk) |
d0cbd20c MV |
1760 | ;; - Write a function with a name like |
1761 | ;; | |
1762 | ;; scm_init_ice_9_gtcltk_module | |
1763 | ;; | |
1764 | ;; This is your `module init' function. It should call | |
1765 | ;; | |
1766 | ;; scm_register_module_xxx ("ice-9 gtcltk", scm_init_gtcltk); | |
1767 | ;; | |
1768 | ;; "ice-9 gtcltk" is the C version of the module name. Slashes are | |
1769 | ;; replaced by spaces, the rest is untouched. `scm_init_gtcltk' is | |
ed218d98 | 1770 | ;; the real init function that executes the usual initializations |
d0cbd20c MV |
1771 | ;; like making new smobs, etc. |
1772 | ;; | |
1773 | ;; - Make a shared library with your code and a name like | |
1774 | ;; | |
1775 | ;; ice-9/libgtcltk.so | |
1776 | ;; | |
1777 | ;; and put it somewhere in %load-path. | |
1778 | ;; | |
8bb7330c | 1779 | ;; - Then you can simply write `:use-module (ice-9 gtcltk)' and it |
d0cbd20c MV |
1780 | ;; will be linked automatically. |
1781 | ;; | |
1782 | ;; This is all very experimental. | |
1783 | ||
1784 | (define (split-c-module-name str) | |
1785 | (let loop ((rev '()) | |
1786 | (start 0) | |
1787 | (pos 0) | |
1788 | (end (string-length str))) | |
1789 | (cond | |
1790 | ((= pos end) | |
1791 | (reverse (cons (string->symbol (substring str start pos)) rev))) | |
1792 | ((eq? (string-ref str pos) #\space) | |
1793 | (loop (cons (string->symbol (substring str start pos)) rev) | |
1794 | (+ pos 1) | |
1795 | (+ pos 1) | |
1796 | end)) | |
1797 | (else | |
1798 | (loop rev start (+ pos 1) end))))) | |
1799 | ||
1800 | (define (convert-c-registered-modules dynobj) | |
1801 | (let ((res (map (lambda (c) | |
1802 | (list (split-c-module-name (car c)) (cdr c) dynobj)) | |
1803 | (c-registered-modules)))) | |
1804 | (c-clear-registered-modules) | |
1805 | res)) | |
1806 | ||
3e3cec45 MD |
1807 | (define registered-modules '()) |
1808 | ||
1809 | (define (register-modules dynobj) | |
1810 | (set! registered-modules | |
1811 | (append! (convert-c-registered-modules dynobj) | |
1812 | registered-modules))) | |
1813 | ||
d0cbd20c | 1814 | (define (init-dynamic-module modname) |
3e3cec45 MD |
1815 | ;; Register any linked modules which has been registered on the C level |
1816 | (register-modules #f) | |
d0cbd20c MV |
1817 | (or-map (lambda (modinfo) |
1818 | (if (equal? (car modinfo) modname) | |
c04e89c7 MD |
1819 | (begin |
1820 | (set! registered-modules (delq! modinfo registered-modules)) | |
1821 | (let ((mod (resolve-module modname #f))) | |
1822 | (save-module-excursion | |
1823 | (lambda () | |
1824 | (set-current-module mod) | |
1825 | (set-module-public-interface! mod mod) | |
1826 | (dynamic-call (cadr modinfo) (caddr modinfo)) | |
1827 | )) | |
1828 | #t)) | |
d0cbd20c MV |
1829 | #f)) |
1830 | registered-modules)) | |
1831 | ||
1832 | (define (dynamic-maybe-call name dynobj) | |
1833 | (catch #t ; could use false-if-exception here | |
1834 | (lambda () | |
1835 | (dynamic-call name dynobj)) | |
1836 | (lambda args | |
1837 | #f))) | |
1838 | ||
ed218d98 MV |
1839 | (define (dynamic-maybe-link filename) |
1840 | (catch #t ; could use false-if-exception here | |
1841 | (lambda () | |
1842 | (dynamic-link filename)) | |
1843 | (lambda args | |
1844 | #f))) | |
1845 | ||
d0cbd20c MV |
1846 | (define (find-and-link-dynamic-module module-name) |
1847 | (define (make-init-name mod-name) | |
bd9e24b3 | 1848 | (string-append "scm_init" |
d0cbd20c MV |
1849 | (list->string (map (lambda (c) |
1850 | (if (or (char-alphabetic? c) | |
1851 | (char-numeric? c)) | |
1852 | c | |
1853 | #\_)) | |
1854 | (string->list mod-name))) | |
bd9e24b3 | 1855 | "_module")) |
ebd79f62 TP |
1856 | |
1857 | ;; Put the subdirectory for this module in the car of SUBDIR-AND-LIBNAME, | |
1858 | ;; and the `libname' (the name of the module prepended by `lib') in the cdr | |
1859 | ;; field. For example, if MODULE-NAME is the list (inet tcp-ip udp), then | |
1860 | ;; SUBDIR-AND-LIBNAME will be the pair ("inet/tcp-ip" . "libudp"). | |
1861 | (let ((subdir-and-libname | |
d0cbd20c MV |
1862 | (let loop ((dirs "") |
1863 | (syms module-name)) | |
ebd79f62 | 1864 | (if (null? (cdr syms)) |
06f0414c MD |
1865 | (cons dirs (string-append "lib" (symbol->string (car syms)))) |
1866 | (loop (string-append dirs (symbol->string (car syms)) "/") | |
1867 | (cdr syms))))) | |
d0cbd20c MV |
1868 | (init (make-init-name (apply string-append |
1869 | (map (lambda (s) | |
06f0414c MD |
1870 | (string-append "_" |
1871 | (symbol->string s))) | |
d0cbd20c | 1872 | module-name))))) |
ebd79f62 TP |
1873 | (let ((subdir (car subdir-and-libname)) |
1874 | (libname (cdr subdir-and-libname))) | |
1875 | ||
1876 | ;; Now look in each dir in %LOAD-PATH for `subdir/libfoo.la'. If that | |
1877 | ;; file exists, fetch the dlname from that file and attempt to link | |
1878 | ;; against it. If `subdir/libfoo.la' does not exist, or does not seem | |
1879 | ;; to name any shared library, look for `subdir/libfoo.so' instead and | |
1880 | ;; link against that. | |
1881 | (let check-dirs ((dir-list %load-path)) | |
1882 | (if (null? dir-list) | |
1883 | #f | |
1884 | (let* ((dir (in-vicinity (car dir-list) subdir)) | |
1885 | (sharlib-full | |
1886 | (or (try-using-libtool-name dir libname) | |
1887 | (try-using-sharlib-name dir libname)))) | |
1888 | (if (and sharlib-full (file-exists? sharlib-full)) | |
1889 | (link-dynamic-module sharlib-full init) | |
1890 | (check-dirs (cdr dir-list))))))))) | |
1891 | ||
1892 | (define (try-using-libtool-name libdir libname) | |
ebd79f62 TP |
1893 | (let ((libtool-filename (in-vicinity libdir |
1894 | (string-append libname ".la")))) | |
1895 | (and (file-exists? libtool-filename) | |
352d134c | 1896 | libtool-filename))) |
ebd79f62 TP |
1897 | |
1898 | (define (try-using-sharlib-name libdir libname) | |
1899 | (in-vicinity libdir (string-append libname ".so"))) | |
d0cbd20c MV |
1900 | |
1901 | (define (link-dynamic-module filename initname) | |
3e3cec45 MD |
1902 | ;; Register any linked modules which has been registered on the C level |
1903 | (register-modules #f) | |
6b856182 MV |
1904 | (let ((dynobj (dynamic-link filename))) |
1905 | (dynamic-call initname dynobj) | |
3e3cec45 | 1906 | (register-modules dynobj))) |
a4f9b1f6 MD |
1907 | |
1908 | (define (try-module-linked module-name) | |
1909 | (init-dynamic-module module-name)) | |
1910 | ||
d0cbd20c | 1911 | (define (try-module-dynamic-link module-name) |
a4f9b1f6 MD |
1912 | (and (find-and-link-dynamic-module module-name) |
1913 | (init-dynamic-module module-name))) | |
d0cbd20c | 1914 | |
ed218d98 MV |
1915 | |
1916 | ||
0f2d19dd JB |
1917 | (define autoloads-done '((guile . guile))) |
1918 | ||
1919 | (define (autoload-done-or-in-progress? p m) | |
1920 | (let ((n (cons p m))) | |
1921 | (->bool (or (member n autoloads-done) | |
1922 | (member n autoloads-in-progress))))) | |
1923 | ||
1924 | (define (autoload-done! p m) | |
1925 | (let ((n (cons p m))) | |
1926 | (set! autoloads-in-progress | |
1927 | (delete! n autoloads-in-progress)) | |
1928 | (or (member n autoloads-done) | |
1929 | (set! autoloads-done (cons n autoloads-done))))) | |
1930 | ||
1931 | (define (autoload-in-progress! p m) | |
1932 | (let ((n (cons p m))) | |
1933 | (set! autoloads-done | |
1934 | (delete! n autoloads-done)) | |
1935 | (set! autoloads-in-progress (cons n autoloads-in-progress)))) | |
1936 | ||
1937 | (define (set-autoloaded! p m done?) | |
1938 | (if done? | |
1939 | (autoload-done! p m) | |
1940 | (let ((n (cons p m))) | |
1941 | (set! autoloads-done (delete! n autoloads-done)) | |
1942 | (set! autoloads-in-progress (delete! n autoloads-in-progress))))) | |
1943 | ||
1944 | ||
1945 | ||
1946 | ||
1947 | \f | |
1948 | ;;; {Macros} | |
1949 | ;;; | |
1950 | ||
7a0ff2f8 MD |
1951 | (define (primitive-macro? m) |
1952 | (and (macro? m) | |
1953 | (not (macro-transformer m)))) | |
1954 | ||
1955 | ;;; {Defmacros} | |
1956 | ;;; | |
9591db87 MD |
1957 | (define macro-table (make-weak-key-hash-table 523)) |
1958 | (define xformer-table (make-weak-key-hash-table 523)) | |
0f2d19dd JB |
1959 | |
1960 | (define (defmacro? m) (hashq-ref macro-table m)) | |
1961 | (define (assert-defmacro?! m) (hashq-set! macro-table m #t)) | |
1962 | (define (defmacro-transformer m) (hashq-ref xformer-table m)) | |
1963 | (define (set-defmacro-transformer! m t) (hashq-set! xformer-table m t)) | |
1964 | ||
1965 | (define defmacro:transformer | |
1966 | (lambda (f) | |
1967 | (let* ((xform (lambda (exp env) | |
1968 | (copy-tree (apply f (cdr exp))))) | |
1969 | (a (procedure->memoizing-macro xform))) | |
1970 | (assert-defmacro?! a) | |
1971 | (set-defmacro-transformer! a f) | |
1972 | a))) | |
1973 | ||
1974 | ||
1975 | (define defmacro | |
1976 | (let ((defmacro-transformer | |
1977 | (lambda (name parms . body) | |
1978 | (let ((transformer `(lambda ,parms ,@body))) | |
1979 | `(define ,name | |
1980 | (,(lambda (transformer) | |
1981 | (defmacro:transformer transformer)) | |
1982 | ,transformer)))))) | |
1983 | (defmacro:transformer defmacro-transformer))) | |
1984 | ||
1985 | (define defmacro:syntax-transformer | |
1986 | (lambda (f) | |
1987 | (procedure->syntax | |
1988 | (lambda (exp env) | |
1989 | (copy-tree (apply f (cdr exp))))))) | |
1990 | ||
ed218d98 MV |
1991 | |
1992 | ;; XXX - should the definition of the car really be looked up in the | |
1993 | ;; current module? | |
1994 | ||
0f2d19dd JB |
1995 | (define (macroexpand-1 e) |
1996 | (cond | |
1997 | ((pair? e) (let* ((a (car e)) | |
ed218d98 | 1998 | (val (and (symbol? a) (local-ref (list a))))) |
0f2d19dd JB |
1999 | (if (defmacro? val) |
2000 | (apply (defmacro-transformer val) (cdr e)) | |
2001 | e))) | |
2002 | (#t e))) | |
2003 | ||
2004 | (define (macroexpand e) | |
2005 | (cond | |
2006 | ((pair? e) (let* ((a (car e)) | |
ed218d98 | 2007 | (val (and (symbol? a) (local-ref (list a))))) |
0f2d19dd JB |
2008 | (if (defmacro? val) |
2009 | (macroexpand (apply (defmacro-transformer val) (cdr e))) | |
2010 | e))) | |
2011 | (#t e))) | |
2012 | ||
534a0099 | 2013 | (provide 'defmacro) |
0f2d19dd JB |
2014 | |
2015 | \f | |
2016 | ||
83b38198 MD |
2017 | ;;; {Run-time options} |
2018 | ||
e9bab9df DH |
2019 | (define define-option-interface |
2020 | (let* ((option-name car) | |
2021 | (option-value cadr) | |
2022 | (option-documentation caddr) | |
2023 | ||
2024 | (print-option (lambda (option) | |
2025 | (display (option-name option)) | |
2026 | (if (< (string-length | |
2027 | (symbol->string (option-name option))) | |
2028 | 8) | |
2029 | (display #\tab)) | |
2030 | (display #\tab) | |
2031 | (display (option-value option)) | |
2032 | (display #\tab) | |
2033 | (display (option-documentation option)) | |
2034 | (newline))) | |
2035 | ||
2036 | ;; Below follow the macros defining the run-time option interfaces. | |
2037 | ||
2038 | (make-options (lambda (interface) | |
2039 | `(lambda args | |
2040 | (cond ((null? args) (,interface)) | |
2041 | ((list? (car args)) | |
2042 | (,interface (car args)) (,interface)) | |
2043 | (else (for-each ,print-option | |
2044 | (,interface #t))))))) | |
2045 | ||
2046 | (make-enable (lambda (interface) | |
83b38198 | 2047 | `(lambda flags |
e9bab9df DH |
2048 | (,interface (append flags (,interface))) |
2049 | (,interface)))) | |
2050 | ||
2051 | (make-disable (lambda (interface) | |
2052 | `(lambda flags | |
2053 | (let ((options (,interface))) | |
2054 | (for-each (lambda (flag) | |
2055 | (set! options (delq! flag options))) | |
2056 | flags) | |
2057 | (,interface options) | |
2058 | (,interface))))) | |
2059 | ||
2060 | (make-set! (lambda (interface) | |
2061 | `((name exp) | |
2062 | (,'quasiquote | |
2063 | (begin (,interface (append (,interface) | |
2064 | (list '(,'unquote name) | |
2065 | (,'unquote exp)))) | |
2066 | (,interface))))))) | |
2067 | (procedure->macro | |
83b38198 MD |
2068 | (lambda (exp env) |
2069 | (cons 'begin | |
e9bab9df DH |
2070 | (let* ((option-group (cadr exp)) |
2071 | (interface (car option-group))) | |
2072 | (append (map (lambda (name constructor) | |
2073 | `(define ,name | |
2074 | ,(constructor interface))) | |
2075 | (cadr option-group) | |
2076 | (list make-options | |
2077 | make-enable | |
2078 | make-disable)) | |
2079 | (map (lambda (name constructor) | |
2080 | `(defmacro ,name | |
2081 | ,@(constructor interface))) | |
2082 | (caddr option-group) | |
2083 | (list make-set!))))))))) | |
2084 | ||
2085 | (define-option-interface | |
2086 | (eval-options-interface | |
2087 | (eval-options eval-enable eval-disable) | |
2088 | (eval-set!))) | |
2089 | ||
2090 | (define-option-interface | |
2091 | (debug-options-interface | |
2092 | (debug-options debug-enable debug-disable) | |
2093 | (debug-set!))) | |
2094 | ||
2095 | (define-option-interface | |
2096 | (evaluator-traps-interface | |
2097 | (traps trap-enable trap-disable) | |
2098 | (trap-set!))) | |
2099 | ||
2100 | (define-option-interface | |
2101 | (read-options-interface | |
2102 | (read-options read-enable read-disable) | |
2103 | (read-set!))) | |
2104 | ||
2105 | (define-option-interface | |
2106 | (print-options-interface | |
2107 | (print-options print-enable print-disable) | |
2108 | (print-set!))) | |
83b38198 MD |
2109 | |
2110 | \f | |
2111 | ||
0f2d19dd JB |
2112 | ;;; {Running Repls} |
2113 | ;;; | |
2114 | ||
2115 | (define (repl read evaler print) | |
75a97b92 | 2116 | (let loop ((source (read (current-input-port)))) |
0f2d19dd | 2117 | (print (evaler source)) |
75a97b92 | 2118 | (loop (read (current-input-port))))) |
0f2d19dd JB |
2119 | |
2120 | ;; A provisional repl that acts like the SCM repl: | |
2121 | ;; | |
2122 | (define scm-repl-silent #f) | |
2123 | (define (assert-repl-silence v) (set! scm-repl-silent v)) | |
2124 | ||
21ed9efe MD |
2125 | (define *unspecified* (if #f #f)) |
2126 | (define (unspecified? v) (eq? v *unspecified*)) | |
2127 | ||
2128 | (define scm-repl-print-unspecified #f) | |
2129 | (define (assert-repl-print-unspecified v) (set! scm-repl-print-unspecified v)) | |
2130 | ||
79451588 | 2131 | (define scm-repl-verbose #f) |
0f2d19dd JB |
2132 | (define (assert-repl-verbosity v) (set! scm-repl-verbose v)) |
2133 | ||
e6875011 | 2134 | (define scm-repl-prompt "guile> ") |
0f2d19dd | 2135 | |
e6875011 MD |
2136 | (define (set-repl-prompt! v) (set! scm-repl-prompt v)) |
2137 | ||
d5d34fa1 MD |
2138 | (define (default-lazy-handler key . args) |
2139 | (save-stack lazy-handler-dispatch) | |
2140 | (apply throw key args)) | |
2141 | ||
45456413 | 2142 | (define enter-frame-handler default-lazy-handler) |
d5d34fa1 MD |
2143 | (define apply-frame-handler default-lazy-handler) |
2144 | (define exit-frame-handler default-lazy-handler) | |
2145 | ||
2146 | (define (lazy-handler-dispatch key . args) | |
2147 | (case key | |
2148 | ((apply-frame) | |
2149 | (apply apply-frame-handler key args)) | |
2150 | ((exit-frame) | |
2151 | (apply exit-frame-handler key args)) | |
45456413 MD |
2152 | ((enter-frame) |
2153 | (apply enter-frame-handler key args)) | |
d5d34fa1 MD |
2154 | (else |
2155 | (apply default-lazy-handler key args)))) | |
0f2d19dd | 2156 | |
3e3cec45 | 2157 | (define abort-hook (make-hook)) |
59e1116d | 2158 | |
28d8ab3c GH |
2159 | ;; these definitions are used if running a script. |
2160 | ;; otherwise redefined in error-catching-loop. | |
2161 | (define (set-batch-mode?! arg) #t) | |
2162 | (define (batch-mode?) #t) | |
4bbbcd5c | 2163 | |
0f2d19dd | 2164 | (define (error-catching-loop thunk) |
4bbbcd5c GH |
2165 | (let ((status #f) |
2166 | (interactive #t)) | |
8e44e7a0 GH |
2167 | (define (loop first) |
2168 | (let ((next | |
2169 | (catch #t | |
9a0d70e2 | 2170 | |
8e44e7a0 GH |
2171 | (lambda () |
2172 | (lazy-catch #t | |
2173 | (lambda () | |
2174 | (dynamic-wind | |
2175 | (lambda () (unmask-signals)) | |
2176 | (lambda () | |
45456413 MD |
2177 | (with-traps |
2178 | (lambda () | |
2179 | (first) | |
8e44e7a0 | 2180 | |
45456413 MD |
2181 | ;; This line is needed because mark |
2182 | ;; doesn't do closures quite right. | |
2183 | ;; Unreferenced locals should be | |
2184 | ;; collected. | |
2185 | ;; | |
2186 | (set! first #f) | |
2187 | (let loop ((v (thunk))) | |
2188 | (loop (thunk))) | |
2189 | #f))) | |
8e44e7a0 GH |
2190 | (lambda () (mask-signals)))) |
2191 | ||
2192 | lazy-handler-dispatch)) | |
2193 | ||
2194 | (lambda (key . args) | |
2195 | (case key | |
2196 | ((quit) | |
8e44e7a0 GH |
2197 | (set! status args) |
2198 | #f) | |
2199 | ||
2200 | ((switch-repl) | |
2201 | (apply throw 'switch-repl args)) | |
2202 | ||
2203 | ((abort) | |
2204 | ;; This is one of the closures that require | |
2205 | ;; (set! first #f) above | |
2206 | ;; | |
2207 | (lambda () | |
04efd24d | 2208 | (run-hook abort-hook) |
e13c54c4 | 2209 | (force-output (current-output-port)) |
8e44e7a0 GH |
2210 | (display "ABORT: " (current-error-port)) |
2211 | (write args (current-error-port)) | |
2212 | (newline (current-error-port)) | |
4bbbcd5c | 2213 | (if interactive |
e13c54c4 JB |
2214 | (begin |
2215 | (if (and | |
2216 | (not has-shown-debugger-hint?) | |
2217 | (not (memq 'backtrace | |
2218 | (debug-options-interface))) | |
2219 | (stack? (fluid-ref the-last-stack))) | |
2220 | (begin | |
2221 | (newline (current-error-port)) | |
2222 | (display | |
cb546c61 | 2223 | "Type \"(backtrace)\" to get more information or \"(debug)\" to enter the debugger.\n" |
e13c54c4 JB |
2224 | (current-error-port)) |
2225 | (set! has-shown-debugger-hint? #t))) | |
2226 | (force-output (current-error-port))) | |
2227 | (begin | |
2228 | (primitive-exit 1))) | |
8e44e7a0 GH |
2229 | (set! stack-saved? #f))) |
2230 | ||
2231 | (else | |
2232 | ;; This is the other cons-leak closure... | |
2233 | (lambda () | |
2234 | (cond ((= (length args) 4) | |
2235 | (apply handle-system-error key args)) | |
2236 | (else | |
2237 | (apply bad-throw key args)))))))))) | |
2238 | (if next (loop next) status))) | |
5f5f2642 MD |
2239 | (set! set-batch-mode?! (lambda (arg) |
2240 | (cond (arg | |
2241 | (set! interactive #f) | |
2242 | (restore-signals)) | |
2243 | (#t | |
2244 | (error "sorry, not implemented"))))) | |
2245 | (set! batch-mode? (lambda () (not interactive))) | |
8e44e7a0 | 2246 | (loop (lambda () #t)))) |
0f2d19dd | 2247 | |
8bb7f646 | 2248 | ;;(define the-last-stack (make-fluid)) Defined by scm_init_backtrace () |
8087b6be | 2249 | (define before-signal-stack (make-fluid)) |
21ed9efe MD |
2250 | (define stack-saved? #f) |
2251 | ||
2252 | (define (save-stack . narrowing) | |
edc185c7 MD |
2253 | (or stack-saved? |
2254 | (cond ((not (memq 'debug (debug-options-interface))) | |
2255 | (fluid-set! the-last-stack #f) | |
2256 | (set! stack-saved? #t)) | |
2257 | (else | |
2258 | (fluid-set! | |
2259 | the-last-stack | |
2260 | (case (stack-id #t) | |
2261 | ((repl-stack) | |
704f4e86 | 2262 | (apply make-stack #t save-stack primitive-eval #t 0 narrowing)) |
edc185c7 MD |
2263 | ((load-stack) |
2264 | (apply make-stack #t save-stack 0 #t 0 narrowing)) | |
2265 | ((tk-stack) | |
2266 | (apply make-stack #t save-stack tk-stack-mark #t 0 narrowing)) | |
2267 | ((#t) | |
2268 | (apply make-stack #t save-stack 0 1 narrowing)) | |
2269 | (else | |
2270 | (let ((id (stack-id #t))) | |
2271 | (and (procedure? id) | |
2272 | (apply make-stack #t save-stack id #t 0 narrowing)))))) | |
2273 | (set! stack-saved? #t))))) | |
1c6cd8e8 | 2274 | |
3e3cec45 MD |
2275 | (define before-error-hook (make-hook)) |
2276 | (define after-error-hook (make-hook)) | |
2277 | (define before-backtrace-hook (make-hook)) | |
2278 | (define after-backtrace-hook (make-hook)) | |
1c6cd8e8 | 2279 | |
21ed9efe MD |
2280 | (define has-shown-debugger-hint? #f) |
2281 | ||
35c5db87 GH |
2282 | (define (handle-system-error key . args) |
2283 | (let ((cep (current-error-port))) | |
8bb7f646 | 2284 | (cond ((not (stack? (fluid-ref the-last-stack)))) |
21ed9efe | 2285 | ((memq 'backtrace (debug-options-interface)) |
04efd24d | 2286 | (run-hook before-backtrace-hook) |
21ed9efe | 2287 | (newline cep) |
755457ec | 2288 | (display "Backtrace:\n") |
8bb7f646 | 2289 | (display-backtrace (fluid-ref the-last-stack) cep) |
21ed9efe | 2290 | (newline cep) |
04efd24d MD |
2291 | (run-hook after-backtrace-hook))) |
2292 | (run-hook before-error-hook) | |
8bb7f646 | 2293 | (apply display-error (fluid-ref the-last-stack) cep args) |
04efd24d | 2294 | (run-hook after-error-hook) |
35c5db87 GH |
2295 | (force-output cep) |
2296 | (throw 'abort key))) | |
21ed9efe | 2297 | |
0f2d19dd JB |
2298 | (define (quit . args) |
2299 | (apply throw 'quit args)) | |
2300 | ||
7950df7c GH |
2301 | (define exit quit) |
2302 | ||
d590bbf6 MD |
2303 | ;;(define has-shown-backtrace-hint? #f) Defined by scm_init_backtrace () |
2304 | ||
2305 | ;; Replaced by C code: | |
2306 | ;;(define (backtrace) | |
8bb7f646 | 2307 | ;; (if (fluid-ref the-last-stack) |
d590bbf6 MD |
2308 | ;; (begin |
2309 | ;; (newline) | |
8bb7f646 | 2310 | ;; (display-backtrace (fluid-ref the-last-stack) (current-output-port)) |
d590bbf6 MD |
2311 | ;; (newline) |
2312 | ;; (if (and (not has-shown-backtrace-hint?) | |
2313 | ;; (not (memq 'backtrace (debug-options-interface)))) | |
2314 | ;; (begin | |
2315 | ;; (display | |
2316 | ;;"Type \"(debug-enable 'backtrace)\" if you would like a backtrace | |
2317 | ;;automatically if an error occurs in the future.\n") | |
2318 | ;; (set! has-shown-backtrace-hint? #t)))) | |
2319 | ;; (display "No backtrace available.\n"))) | |
21ed9efe | 2320 | |
0f2d19dd JB |
2321 | (define (error-catching-repl r e p) |
2322 | (error-catching-loop (lambda () (p (e (r)))))) | |
2323 | ||
2324 | (define (gc-run-time) | |
2325 | (cdr (assq 'gc-time-taken (gc-stats)))) | |
2326 | ||
3e3cec45 MD |
2327 | (define before-read-hook (make-hook)) |
2328 | (define after-read-hook (make-hook)) | |
870777d7 KN |
2329 | (define before-eval-hook (make-hook 1)) |
2330 | (define after-eval-hook (make-hook 1)) | |
2331 | (define before-print-hook (make-hook 1)) | |
2332 | (define after-print-hook (make-hook 1)) | |
1c6cd8e8 | 2333 | |
dc5c2038 MD |
2334 | ;;; The default repl-reader function. We may override this if we've |
2335 | ;;; the readline library. | |
2336 | (define repl-reader | |
2337 | (lambda (prompt) | |
2338 | (display prompt) | |
2339 | (force-output) | |
04efd24d | 2340 | (run-hook before-read-hook) |
dc5c2038 MD |
2341 | (read (current-input-port)))) |
2342 | ||
0f2d19dd | 2343 | (define (scm-style-repl) |
9d774814 | 2344 | |
0f2d19dd JB |
2345 | (letrec ( |
2346 | (start-gc-rt #f) | |
2347 | (start-rt #f) | |
0f2d19dd JB |
2348 | (repl-report-start-timing (lambda () |
2349 | (set! start-gc-rt (gc-run-time)) | |
2350 | (set! start-rt (get-internal-run-time)))) | |
2351 | (repl-report (lambda () | |
2352 | (display ";;; ") | |
2353 | (display (inexact->exact | |
2354 | (* 1000 (/ (- (get-internal-run-time) start-rt) | |
2355 | internal-time-units-per-second)))) | |
2356 | (display " msec (") | |
2357 | (display (inexact->exact | |
2358 | (* 1000 (/ (- (gc-run-time) start-gc-rt) | |
2359 | internal-time-units-per-second)))) | |
2360 | (display " msec in gc)\n"))) | |
480977d0 JB |
2361 | |
2362 | (consume-trailing-whitespace | |
2363 | (lambda () | |
2364 | (let ((ch (peek-char))) | |
2365 | (cond | |
2366 | ((eof-object? ch)) | |
2367 | ((or (char=? ch #\space) (char=? ch #\tab)) | |
2368 | (read-char) | |
2369 | (consume-trailing-whitespace)) | |
2370 | ((char=? ch #\newline) | |
2371 | (read-char)))))) | |
0f2d19dd | 2372 | (-read (lambda () |
dc5c2038 MD |
2373 | (let ((val |
2374 | (let ((prompt (cond ((string? scm-repl-prompt) | |
2375 | scm-repl-prompt) | |
2376 | ((thunk? scm-repl-prompt) | |
2377 | (scm-repl-prompt)) | |
2378 | (scm-repl-prompt "> ") | |
2379 | (else "")))) | |
2380 | (repl-reader prompt)))) | |
2381 | ||
480977d0 | 2382 | ;; As described in R4RS, the READ procedure updates the |
e13c54c4 | 2383 | ;; port to point to the first character past the end of |
480977d0 JB |
2384 | ;; the external representation of the object. This |
2385 | ;; means that it doesn't consume the newline typically | |
2386 | ;; found after an expression. This means that, when | |
2387 | ;; debugging Guile with GDB, GDB gets the newline, which | |
2388 | ;; it often interprets as a "continue" command, making | |
2389 | ;; breakpoints kind of useless. So, consume any | |
2390 | ;; trailing newline here, as well as any whitespace | |
2391 | ;; before it. | |
e13c54c4 JB |
2392 | ;; But not if EOF, for control-D. |
2393 | (if (not (eof-object? val)) | |
2394 | (consume-trailing-whitespace)) | |
04efd24d | 2395 | (run-hook after-read-hook) |
0f2d19dd JB |
2396 | (if (eof-object? val) |
2397 | (begin | |
7950df7c | 2398 | (repl-report-start-timing) |
0f2d19dd JB |
2399 | (if scm-repl-verbose |
2400 | (begin | |
2401 | (newline) | |
2402 | (display ";;; EOF -- quitting") | |
2403 | (newline))) | |
2404 | (quit 0))) | |
2405 | val))) | |
2406 | ||
2407 | (-eval (lambda (sourc) | |
2408 | (repl-report-start-timing) | |
870777d7 KN |
2409 | (run-hook before-eval-hook sourc) |
2410 | (let ((val (start-stack 'repl-stack | |
2411 | ;; If you change this procedure | |
2412 | ;; (primitive-eval), please also | |
2413 | ;; modify the repl-stack case in | |
2414 | ;; save-stack so that stack cutting | |
2415 | ;; continues to work. | |
2416 | (primitive-eval sourc)))) | |
2417 | (run-hook after-eval-hook sourc) | |
2418 | val))) | |
2419 | ||
0f2d19dd | 2420 | |
44484f52 MD |
2421 | (-print (let ((maybe-print (lambda (result) |
2422 | (if (or scm-repl-print-unspecified | |
2423 | (not (unspecified? result))) | |
2424 | (begin | |
2425 | (write result) | |
2426 | (newline)))))) | |
2427 | (lambda (result) | |
2428 | (if (not scm-repl-silent) | |
2429 | (begin | |
870777d7 | 2430 | (run-hook before-print-hook result) |
3923fa6d | 2431 | (maybe-print result) |
870777d7 | 2432 | (run-hook after-print-hook result) |
44484f52 MD |
2433 | (if scm-repl-verbose |
2434 | (repl-report)) | |
2435 | (force-output)))))) | |
0f2d19dd | 2436 | |
8e44e7a0 | 2437 | (-quit (lambda (args) |
0f2d19dd JB |
2438 | (if scm-repl-verbose |
2439 | (begin | |
2440 | (display ";;; QUIT executed, repl exitting") | |
2441 | (newline) | |
2442 | (repl-report))) | |
8e44e7a0 | 2443 | args)) |
0f2d19dd JB |
2444 | |
2445 | (-abort (lambda () | |
2446 | (if scm-repl-verbose | |
2447 | (begin | |
2448 | (display ";;; ABORT executed.") | |
2449 | (newline) | |
2450 | (repl-report))) | |
2451 | (repl -read -eval -print)))) | |
2452 | ||
8e44e7a0 GH |
2453 | (let ((status (error-catching-repl -read |
2454 | -eval | |
2455 | -print))) | |
2456 | (-quit status)))) | |
2457 | ||
0f2d19dd | 2458 | |
0f2d19dd | 2459 | \f |
44cf1f0f | 2460 | ;;; {IOTA functions: generating lists of numbers} |
0f2d19dd | 2461 | |
e69cd299 MD |
2462 | (define (iota n) |
2463 | (let loop ((count (1- n)) (result '())) | |
2464 | (if (< count 0) result | |
2465 | (loop (1- count) (cons count result))))) | |
0f2d19dd JB |
2466 | |
2467 | \f | |
2468 | ;;; {While} | |
2469 | ;;; | |
2470 | ;;; with `continue' and `break'. | |
2471 | ;;; | |
2472 | ||
2473 | (defmacro while (cond . body) | |
2474 | `(letrec ((continue (lambda () (or (not ,cond) (begin (begin ,@ body) (continue))))) | |
2475 | (break (lambda val (apply throw 'break val)))) | |
2476 | (catch 'break | |
2477 | (lambda () (continue)) | |
2478 | (lambda v (cadr v))))) | |
2479 | ||
7398c2c2 MD |
2480 | ;;; {collect} |
2481 | ;;; | |
2482 | ;;; Similar to `begin' but returns a list of the results of all constituent | |
2483 | ;;; forms instead of the result of the last form. | |
2484 | ;;; (The definition relies on the current left-to-right | |
2485 | ;;; order of evaluation of operands in applications.) | |
2486 | ||
2487 | (defmacro collect forms | |
2488 | (cons 'list forms)) | |
0f2d19dd | 2489 | |
8a6a8671 MV |
2490 | ;;; {with-fluids} |
2491 | ||
2492 | ;; with-fluids is a convenience wrapper for the builtin procedure | |
2493 | ;; `with-fluids*'. The syntax is just like `let': | |
2494 | ;; | |
2495 | ;; (with-fluids ((fluid val) | |
2496 | ;; ...) | |
2497 | ;; body) | |
2498 | ||
2499 | (defmacro with-fluids (bindings . body) | |
2500 | `(with-fluids* (list ,@(map car bindings)) (list ,@(map cadr bindings)) | |
2501 | (lambda () ,@body))) | |
2502 | ||
0f2d19dd JB |
2503 | \f |
2504 | ||
2505 | ;;; {Macros} | |
2506 | ;;; | |
2507 | ||
2508 | ;; actually....hobbit might be able to hack these with a little | |
2509 | ;; coaxing | |
2510 | ;; | |
2511 | ||
2512 | (defmacro define-macro (first . rest) | |
2513 | (let ((name (if (symbol? first) first (car first))) | |
2514 | (transformer | |
2515 | (if (symbol? first) | |
2516 | (car rest) | |
2517 | `(lambda ,(cdr first) ,@rest)))) | |
2518 | `(define ,name (defmacro:transformer ,transformer)))) | |
2519 | ||
2520 | ||
2521 | (defmacro define-syntax-macro (first . rest) | |
2522 | (let ((name (if (symbol? first) first (car first))) | |
2523 | (transformer | |
2524 | (if (symbol? first) | |
2525 | (car rest) | |
2526 | `(lambda ,(cdr first) ,@rest)))) | |
2527 | `(define ,name (defmacro:syntax-transformer ,transformer)))) | |
645e38d9 | 2528 | |
7b748b16 | 2529 | ;; EVAL-CASE |
645e38d9 | 2530 | ;; |
7b748b16 | 2531 | ;; (eval-case ((situation*) forms)* (else forms)?) |
645e38d9 | 2532 | ;; |
7b748b16 | 2533 | ;; Evaluate certain code based on the situation that eval-case is used |
645e38d9 MV |
2534 | ;; in. The only defined situation right now is `load-toplevel' which |
2535 | ;; triggers for code evaluated at the top-level, for example from the | |
2536 | ;; REPL or when loading a file. | |
2537 | ||
7b748b16 | 2538 | (define eval-case |
645e38d9 MV |
2539 | (procedure->memoizing-macro |
2540 | (lambda (exp env) | |
2541 | (define (toplevel-env? env) | |
2542 | (or (not (pair? env)) (not (pair? (car env))))) | |
2543 | (define (syntax) | |
7b748b16 | 2544 | (error "syntax error in eval-case")) |
645e38d9 MV |
2545 | (let loop ((clauses (cdr exp))) |
2546 | (cond | |
2547 | ((null? clauses) | |
2548 | #f) | |
2549 | ((not (list? (car clauses))) | |
2550 | (syntax)) | |
2551 | ((eq? 'else (caar clauses)) | |
2552 | (or (null? (cdr clauses)) | |
2553 | (syntax)) | |
2554 | (cons 'begin (cdar clauses))) | |
2555 | ((not (list? (caar clauses))) | |
2556 | (syntax)) | |
2557 | ((and (toplevel-env? env) | |
2558 | (memq 'load-toplevel (caar clauses))) | |
2559 | (cons 'begin (cdar clauses))) | |
2560 | (else | |
2561 | (loop (cdr clauses)))))))) | |
2562 | ||
0f2d19dd JB |
2563 | \f |
2564 | ;;; {Module System Macros} | |
2565 | ;;; | |
2566 | ||
2567 | (defmacro define-module args | |
7b748b16 | 2568 | `(eval-case |
645e38d9 MV |
2569 | ((load-toplevel) |
2570 | (process-define-module ',args)) | |
2571 | (else | |
2572 | (error "define-module can only be used at the top level")))) | |
0f2d19dd | 2573 | |
89da9036 MV |
2574 | ;; the guts of the use-modules macro. add the interfaces of the named |
2575 | ;; modules to the use-list of the current module, in order | |
2576 | (define (process-use-modules module-names) | |
2577 | (for-each (lambda (module-name) | |
2578 | (let ((mod-iface (resolve-interface module-name))) | |
2579 | (or mod-iface | |
2580 | (error "no such module" module-name)) | |
2581 | (module-use! (current-module) mod-iface))) | |
2582 | (reverse module-names))) | |
2583 | ||
33cf699f | 2584 | (defmacro use-modules modules |
7b748b16 | 2585 | `(eval-case |
645e38d9 MV |
2586 | ((load-toplevel) |
2587 | (process-use-modules ',modules)) | |
2588 | (else | |
2589 | (error "use-modules can only be used at the top level")))) | |
33cf699f | 2590 | |
cf266109 | 2591 | (defmacro use-syntax (spec) |
7b748b16 | 2592 | `(eval-case |
645e38d9 | 2593 | ((load-toplevel) |
7cbaee0c MD |
2594 | ,@(if (pair? spec) |
2595 | `((process-use-modules ',(list spec)) | |
2596 | (set-module-transformer! (current-module) | |
2597 | ,(car (last-pair spec)))) | |
2598 | `((set-module-transformer! (current-module) ,spec))) | |
645e38d9 MV |
2599 | (fluid-set! scm:eval-transformer (module-transformer (current-module)))) |
2600 | (else | |
2601 | (error "use-modules can only be used at the top level")))) | |
7a0ff2f8 | 2602 | |
0f2d19dd JB |
2603 | (define define-private define) |
2604 | ||
2605 | (defmacro define-public args | |
2606 | (define (syntax) | |
2607 | (error "bad syntax" (list 'define-public args))) | |
2608 | (define (defined-name n) | |
2609 | (cond | |
3c5af9ef JB |
2610 | ((symbol? n) n) |
2611 | ((pair? n) (defined-name (car n))) | |
2612 | (else (syntax)))) | |
0f2d19dd | 2613 | (cond |
645e38d9 MV |
2614 | ((null? args) |
2615 | (syntax)) | |
2616 | (#t | |
2617 | (let ((name (defined-name (car args)))) | |
2618 | `(begin | |
7b748b16 | 2619 | (eval-case ((load-toplevel) (export ,name))) |
645e38d9 | 2620 | (define-private ,@args)))))) |
0f2d19dd JB |
2621 | |
2622 | (defmacro defmacro-public args | |
2623 | (define (syntax) | |
2624 | (error "bad syntax" (list 'defmacro-public args))) | |
2625 | (define (defined-name n) | |
2626 | (cond | |
645e38d9 MV |
2627 | ((symbol? n) n) |
2628 | (else (syntax)))) | |
0f2d19dd | 2629 | (cond |
645e38d9 MV |
2630 | ((null? args) |
2631 | (syntax)) | |
2632 | (#t | |
2633 | (let ((name (defined-name (car args)))) | |
2634 | `(begin | |
7b748b16 | 2635 | (eval-case ((load-toplevel) (export ,name))) |
645e38d9 | 2636 | (defmacro ,@args)))))) |
0f2d19dd | 2637 | |
90847923 MD |
2638 | (define (module-export! m names) |
2639 | (let ((public-i (module-public-interface m))) | |
2640 | (for-each (lambda (name) | |
2641 | ;; Make sure there is a local variable: | |
2642 | (module-define! m name (module-ref m name #f)) | |
2643 | ;; Make sure that local is exported: | |
2644 | (module-add! public-i name (module-variable m name))) | |
2645 | names))) | |
2646 | ||
a0cc0a01 | 2647 | (defmacro export names |
7b748b16 | 2648 | `(eval-case |
645e38d9 MV |
2649 | ((load-toplevel) |
2650 | (module-export! (current-module) ',names)) | |
2651 | (else | |
2652 | (error "export can only be used at the top level")))) | |
a0cc0a01 MD |
2653 | |
2654 | (define export-syntax export) | |
2655 | ||
2656 | ||
0f2d19dd JB |
2657 | (define load load-module) |
2658 | ||
2659 | ||
2660 | \f | |
9d774814 | 2661 | |
9aca88c3 JB |
2662 | ;;; {Load emacs interface support if emacs option is given.} |
2663 | ||
645e38d9 MV |
2664 | (define (named-module-use! user usee) |
2665 | (module-use! (resolve-module user) (resolve-module usee))) | |
2666 | ||
9aca88c3 JB |
2667 | (define (load-emacs-interface) |
2668 | (if (memq 'debug-extensions *features*) | |
2669 | (debug-enable 'backtrace)) | |
645e38d9 | 2670 | (named-module-use! '(guile-user) '(ice-9 emacs))) |
9aca88c3 JB |
2671 | |
2672 | \f | |
0f2d19dd | 2673 | |
755457ec MD |
2674 | (define using-readline? |
2675 | (let ((using-readline? (make-fluid))) | |
2676 | (make-procedure-with-setter | |
2677 | (lambda () (fluid-ref using-readline?)) | |
2678 | (lambda (v) (fluid-set! using-readline? v))))) | |
2679 | ||
8e44e7a0 | 2680 | (define (top-repl) |
9aca88c3 JB |
2681 | |
2682 | ;; Load emacs interface support if emacs option is given. | |
2683 | (if (and (module-defined? the-root-module 'use-emacs-interface) | |
6b098fec | 2684 | (module-ref the-root-module 'use-emacs-interface)) |
9aca88c3 JB |
2685 | (load-emacs-interface)) |
2686 | ||
4fdf8b2c | 2687 | ;; Place the user in the guile-user module. |
645e38d9 MV |
2688 | (process-define-module |
2689 | '((guile-user) | |
2690 | :use-module (guile) ;so that bindings will be checked here first | |
2691 | :use-module (ice-9 session) | |
2692 | :use-module (ice-9 debug) | |
2693 | :autoload (ice-9 debugger) (debug))) ;load debugger on demand | |
00b33968 | 2694 | (if (memq 'threads *features*) |
645e38d9 | 2695 | (named-module-use! '(guile-user) '(ice-9 threads))) |
00b33968 | 2696 | (if (memq 'regex *features*) |
645e38d9 | 2697 | (named-module-use! '(guile-user) '(ice-9 regex))) |
4fdf8b2c | 2698 | |
e1a191a8 | 2699 | (let ((old-handlers #f) |
52cfc69b GH |
2700 | (signals (if (provided? 'posix) |
2701 | `((,SIGINT . "User interrupt") | |
2702 | (,SIGFPE . "Arithmetic error") | |
2703 | (,SIGBUS . "Bad memory access (bus error)") | |
2704 | (,SIGSEGV . | |
2705 | "Bad memory access (Segmentation violation)")) | |
2706 | '()))) | |
e1a191a8 GH |
2707 | |
2708 | (dynamic-wind | |
2709 | ||
2710 | ;; call at entry | |
2711 | (lambda () | |
2712 | (let ((make-handler (lambda (msg) | |
2713 | (lambda (sig) | |
8087b6be MD |
2714 | ;; Make a backup copy of the stack |
2715 | (fluid-set! before-signal-stack | |
2716 | (fluid-ref the-last-stack)) | |
096d5f90 | 2717 | (save-stack %deliver-signals) |
e1a191a8 GH |
2718 | (scm-error 'signal |
2719 | #f | |
2720 | msg | |
2721 | #f | |
2722 | (list sig)))))) | |
2723 | (set! old-handlers | |
2724 | (map (lambda (sig-msg) | |
2725 | (sigaction (car sig-msg) | |
2726 | (make-handler (cdr sig-msg)))) | |
2727 | signals)))) | |
2728 | ||
2729 | ;; the protected thunk. | |
2730 | (lambda () | |
2055a1bc | 2731 | (let ((status (scm-style-repl))) |
04efd24d | 2732 | (run-hook exit-hook) |
2055a1bc | 2733 | status)) |
e1a191a8 GH |
2734 | |
2735 | ;; call at exit. | |
2736 | (lambda () | |
2737 | (map (lambda (sig-msg old-handler) | |
2738 | (if (not (car old-handler)) | |
2739 | ;; restore original C handler. | |
2740 | (sigaction (car sig-msg) #f) | |
2741 | ;; restore Scheme handler, SIG_IGN or SIG_DFL. | |
2742 | (sigaction (car sig-msg) | |
2743 | (car old-handler) | |
2744 | (cdr old-handler)))) | |
bd9e24b3 | 2745 | signals old-handlers))))) |
0f2d19dd | 2746 | |
02b754d3 GH |
2747 | (defmacro false-if-exception (expr) |
2748 | `(catch #t (lambda () ,expr) | |
2749 | (lambda args #f))) | |
2750 | ||
2055a1bc MD |
2751 | ;;; This hook is run at the very end of an interactive session. |
2752 | ;;; | |
3e3cec45 | 2753 | (define exit-hook (make-hook)) |
2055a1bc | 2754 | |
4d31f0da JB |
2755 | \f |
2756 | (define-module (guile)) | |
9946dd45 | 2757 | |
bf4aaed2 | 2758 | (append! %load-path (cons "." '())) |
6d36532c | 2759 |