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6be07c52
TTN		 1;;; srfi-1.scm --- List Library
2
f595ccfe 3;; Copyright (C) 2001, 2002, 2003 Free Software Foundation, Inc.
6be07c52 4;;
73be1d9e
MV		 5;; This library is free software; you can redistribute it and/or
6;; modify it under the terms of the GNU Lesser General Public
7;; License as published by the Free Software Foundation; either
8;; version 2.1 of the License, or (at your option) any later version.
9;;
10;; This library is distributed in the hope that it will be useful,
6be07c52
TTN		 11;; but WITHOUT ANY WARRANTY; without even the implied warranty of
12;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
73be1d9e
MV		 13;; Lesser General Public License for more details.
14;;
15;; You should have received a copy of the GNU Lesser General Public
16;; License along with this library; if not, write to the Free Software
17;; Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
e9680547
MG		 18
19;;; Author: Martin Grabmueller <mgrabmue@cs.tu-berlin.de>
20;;; Date: 2001-06-06
21
22;;; Commentary:
23
6be07c52
TTN		 24;; This is an implementation of SRFI-1 (List Library).
25;;
26;; All procedures defined in SRFI-1, which are not already defined in
27;; the Guile core library, are exported. The procedures in this
28;; implementation work, but they have not been tuned for speed or
29;; memory usage.
30;;
31;; This module is fully documented in the Guile Reference Manual.
e9680547
MG		 32
33;;; Code:
34
35(define-module (srfi srfi-1)
563058ef 36 :use-module (ice-9 session)
f595ccfe
MD		 37 :use-module (ice-9 receive)
38 :export (
e9680547
MG		 39;;; Constructors
40 ;; cons <= in the core
41 ;; list <= in the core
42 xcons
43 ;; cons* <= in the core
44 ;; make-list <= in the core
45 list-tabulate
d61261f0 46 list-copy
e9680547 47 circular-list
f595ccfe 48 ;; iota ; Extended.
e9680547
MG		 49
50;;; Predicates
51 proper-list?
52 circular-list?
53 dotted-list?
54 ;; pair? <= in the core
55 ;; null? <= in the core
56 null-list?
57 not-pair?
58 list=
59
60;;; Selectors
61 ;; car <= in the core
62 ;; cdr <= in the core
63 ;; caar <= in the core
64 ;; cadr <= in the core
65 ;; cdar <= in the core
2a326497 66 ;; cddr <= in the core
e9680547
MG		 67 ;; caaar <= in the core
68 ;; caadr <= in the core
69 ;; cadar <= in the core
70 ;; caddr <= in the core
71 ;; cdaar <= in the core
72 ;; cdadr <= in the core
73 ;; cddar <= in the core
74 ;; cdddr <= in the core
75 ;; caaaar <= in the core
76 ;; caaadr <= in the core
77 ;; caadar <= in the core
78 ;; caaddr <= in the core
79 ;; cadaar <= in the core
80 ;; cadadr <= in the core
81 ;; caddar <= in the core
82 ;; cadddr <= in the core
83 ;; cdaaar <= in the core
84 ;; cdaadr <= in the core
85 ;; cdadar <= in the core
86 ;; cdaddr <= in the core
87 ;; cddaar <= in the core
88 ;; cddadr <= in the core
89 ;; cdddar <= in the core
90 ;; cddddr <= in the core
91 ;; list-ref <= in the core
92 first
93 second
94 third
95 fourth
96 fifth
97 sixth
98 seventh
99 eighth
100 ninth
101 tenth
102 car+cdr
103 take
104 drop
105 take-right
106 drop-right
107 take!
108 drop-right!
109 split-at
110 split-at!
111 last
112 ;; last-pair <= in the core
113
114;;; Miscelleneous: length, append, concatenate, reverse, zip & count
115 ;; length <= in the core
116 length+
117 ;; append <= in the core
118 ;; append! <= in the core
119 concatenate
120 concatenate!
121 ;; reverse <= in the core
122 ;; reverse! <= in the core
123 append-reverse
124 append-reverse!
125 zip
126 unzip1
127 unzip2
128 unzip3
129 unzip4
130 unzip5
131 count
132
133;;; Fold, unfold & map
134 fold
135 fold-right
136 pair-fold
137 pair-fold-right
138 reduce
139 reduce-right
140 unfold
141 unfold-right
f595ccfe
MD		 142 ;; map ; Extended.
143 ;; for-each ; Extended.
e9680547
MG		 144 append-map
145 append-map!
146 map!
f595ccfe 147 ;; map-in-order ; Extended.
e9680547
MG		 148 pair-for-each
149 filter-map
150
151;;; Filtering & partitioning
c614a00b 152 ;; filter <= in the core
e9680547
MG		 153 partition
154 remove
c614a00b 155 ;; filter! <= in the core
e9680547
MG		 156 partition!
157 remove!
158
159;;; Searching
160 find
161 find-tail
162 take-while
163 take-while!
164 drop-while
165 span
166 span!
167 break
168 break!
169 any
170 every
f595ccfe
MD		 171 ;; list-index ; Extended.
172 ;; member ; Extended.
e9680547
MG		 173 ;; memq <= in the core
174 ;; memv <= in the core
175
176;;; Deletion
f595ccfe
MD		 177 ;; delete ; Extended.
178 ;; delete! ; Extended.
e9680547
MG		 179 delete-duplicates
180 delete-duplicates!
181
182;;; Association lists
f595ccfe 183 ;; assoc ; Extended.
e9680547
MG		 184 ;; assq <= in the core
185 ;; assv <= in the core
186 alist-cons
187 alist-copy
188 alist-delete
189 alist-delete!
190
191;;; Set operations on lists
192 lset<=
193 lset=
194 lset-adjoin
195 lset-union
196 lset-intersection
197 lset-difference
198 lset-xor
199 lset-diff+intersection
200 lset-union!
201 lset-intersection!
202 lset-difference!
203 lset-xor!
204 lset-diff+intersection!
205
206;;; Primitive side-effects
207 ;; set-car! <= in the core
208 ;; set-cdr! <= in the core
209 )
d61261f0 210 :re-export (cons list cons* make-list pair? null?
b8b0abf0
MD		 211 car cdr caar cadr cdar cddr
212 caaar caadr cadar caddr cdaar cdadr cddar cdddr
213 caaaar caaadr caadar caaddr cadaar cadadr caddar cadddr
214 cdaaar cdaadr cdadar cdaddr cddaar cddadr cdddar cddddr
215 list-ref last-pair length append append! reverse reverse!
216 filter filter! memq memv assq assv set-car! set-cdr!)
d61261f0 217 :replace (iota map for-each map-in-order list-copy list-index member
f595ccfe
MD		 218 delete delete! assoc)
219 )
e9680547
MG		 220
221(cond-expand-provide (current-module) '(srfi-1))
222
ee6aac97
MD		 223;; Load the compiled primitives from the shared library.
224;;
225(load-extension "libguile-srfi-srfi-1" "scm_init_srfi_1")
226
227
e9680547
MG		 228;;; Constructors
229
230(define (xcons d a)
231 (cons a d))
232
5753f02f
GH		 233;; internal helper, similar to (scsh utilities) check-arg.
234(define (check-arg-type pred arg caller)
235 (if (pred arg)
236 arg
237 (scm-error 'wrong-type-arg caller
238 "Wrong type argument: ~S" (list arg) '())))
239
240;; the srfi spec doesn't seem to forbid inexact integers.
241(define (non-negative-integer? x) (and (integer? x) (>= x 0)))
242
e9680547 243(define (list-tabulate n init-proc)
5753f02f 244 (check-arg-type non-negative-integer? n "list-tabulate")
e9680547 245 (let lp ((n n) (acc '()))
018adcae 246 (if (<= n 0)
e9680547
MG		 247 acc
248 (lp (- n 1) (cons (init-proc (- n 1)) acc)))))
249
250(define (circular-list elt1 . rest)
251 (let ((start (cons elt1 '())))
252 (let lp ((r rest) (p start))
253 (if (null? r)
254 (begin
255 (set-cdr! p start)
256 start)
257 (begin
258 (set-cdr! p (cons (car r) '()))
259 (lp (cdr r) (cdr p)))))))
260
261(define (iota count . rest)
5753f02f 262 (check-arg-type non-negative-integer? count "iota")
e9680547
MG		 263 (let ((start (if (pair? rest) (car rest) 0))
264 (step (if (and (pair? rest) (pair? (cdr rest))) (cadr rest) 1)))
265 (let lp ((n 0) (acc '()))
266 (if (= n count)
267 (reverse! acc)
268 (lp (+ n 1) (cons (+ start (* n step)) acc))))))
269
270;;; Predicates
271
272(define (proper-list? x)
273 (list? x))
274
275(define (circular-list? x)
276 (if (not-pair? x)
277 #f
278 (let lp ((hare (cdr x)) (tortoise x))
279 (if (not-pair? hare)
280 #f
281 (let ((hare (cdr hare)))
282 (if (not-pair? hare)
283 #f
284 (if (eq? hare tortoise)
285 #t
286 (lp (cdr hare) (cdr tortoise)))))))))
287
288(define (dotted-list? x)
289 (cond
290 ((null? x) #f)
291 ((not-pair? x) #t)
292 (else
293 (let lp ((hare (cdr x)) (tortoise x))
294 (cond
295 ((null? hare) #f)
296 ((not-pair? hare) #t)
297 (else
298 (let ((hare (cdr hare)))
513a3bd7 299 (cond
e9680547
MG		 300 ((null? hare) #f)
301 ((not-pair? hare) #t)
302 ((eq? hare tortoise) #f)
303 (else
304 (lp (cdr hare) (cdr tortoise)))))))))))
305
306(define (null-list? x)
307 (cond
513a3bd7 308 ((proper-list? x)
e9680547
MG		 309 (null? x))
310 ((circular-list? x)
311 #f)
312 (else
313 (error "not a proper list in null-list?"))))
314
315(define (not-pair? x)
316 (not (pair? x)))
317
318(define (list= elt= . rest)
319 (define (lists-equal a b)
320 (let lp ((a a) (b b))
321 (cond ((null? a)
322 (null? b))
323 ((null? b)
324 #f)
325 (else
326 (and (elt= (car a) (car b))
327 (lp (cdr a) (cdr b)))))))
328 (or (null? rest)
329 (let ((first (car rest)))
330 (let lp ((lists rest))
331 (or (null? lists)
332 (and (lists-equal first (car lists))
333 (lp (cdr lists))))))))
334
335;;; Selectors
336
337(define first car)
338(define second cadr)
339(define third caddr)
340(define fourth cadddr)
341(define (fifth x) (car (cddddr x)))
342(define (sixth x) (cadr (cddddr x)))
343(define (seventh x) (caddr (cddddr x)))
344(define (eighth x) (cadddr (cddddr x)))
345(define (ninth x) (car (cddddr (cddddr x))))
346(define (tenth x) (cadr (cddddr (cddddr x))))
347
348(define (car+cdr x) (values (car x) (cdr x)))
349
4dd6bd84
KR		 350(define take list-head)
351(define drop list-tail)
352
e9680547
MG		 353(define (take-right flist i)
354 (let lp ((n i) (l flist))
e800aa04 355 (if (<= n 0)
e9680547
MG		 356 (let lp0 ((s flist) (l l))
357 (if (null? l)
358 s
359 (lp0 (cdr s) (cdr l))))
360 (lp (- n 1) (cdr l)))))
513a3bd7 361
e9680547
MG		 362(define (drop-right flist i)
363 (let lp ((n i) (l flist))
e800aa04 364 (if (<= n 0)
e9680547
MG		 365 (let lp0 ((s flist) (l l) (acc '()))
366 (if (null? l)
367 (reverse! acc)
368 (lp0 (cdr s) (cdr l) (cons (car s) acc))))
369 (lp (- n 1) (cdr l)))))
370
371(define (take! x i)
e800aa04 372 (if (<= i 0)
e9680547
MG		 373 '()
374 (let lp ((n (- i 1)) (l x))
e800aa04 375 (if (<= n 0)
513a3bd7 376 (begin
e9680547
MG		 377 (set-cdr! l '())
378 x)
379 (lp (- n 1) (cdr l))))))
380
381(define (drop-right! flist i)
e800aa04 382 (if (<= i 0)
e9680547
MG		 383 flist
384 (let lp ((n (+ i 1)) (l flist))
e800aa04 385 (if (<= n 0)
e9680547
MG		 386 (let lp0 ((s flist) (l l))
387 (if (null? l)
388 (begin
389 (set-cdr! s '())
390 flist)
391 (lp0 (cdr s) (cdr l))))
392 (if (null? l)
393 '()
394 (lp (- n 1) (cdr l)))))))
395
396(define (split-at x i)
397 (let lp ((l x) (n i) (acc '()))
e800aa04 398 (if (<= n 0)
e9680547
MG		 399 (values (reverse! acc) l)
400 (lp (cdr l) (- n 1) (cons (car l) acc)))))
401
402(define (split-at! x i)
e800aa04 403 (if (<= i 0)
e9680547
MG		 404 (values '() x)
405 (let lp ((l x) (n (- i 1)))
e800aa04 406 (if (<= n 0)
e9680547
MG		 407 (let ((tmp (cdr l)))
408 (set-cdr! l '())
409 (values x tmp))
410 (lp (cdr l) (- n 1))))))
411
412(define (last pair)
413 (car (last-pair pair)))
414
415;;; Miscelleneous: length, append, concatenate, reverse, zip & count
416
e9680547
MG		 417(define (append-reverse rev-head tail)
418 (let lp ((l rev-head) (acc tail))
419 (if (null? l)
420 acc
421 (lp (cdr l) (cons (car l) acc)))))
422
423(define (append-reverse! rev-head tail)
424 (append-reverse rev-head tail)) ; XXX:optimize
425
426(define (zip clist1 . rest)
427 (let lp ((l (cons clist1 rest)) (acc '()))
428 (if (any null? l)
429 (reverse! acc)
cef248dd 430 (lp (map1 cdr l) (cons (map1 car l) acc)))))
513a3bd7 431
e9680547
MG		 432
433(define (unzip1 l)
cef248dd 434 (map1 first l))
e9680547 435(define (unzip2 l)
cef248dd 436 (values (map1 first l) (map1 second l)))
e9680547 437(define (unzip3 l)
cef248dd 438 (values (map1 first l) (map1 second l) (map1 third l)))
e9680547 439(define (unzip4 l)
cef248dd 440 (values (map1 first l) (map1 second l) (map1 third l) (map1 fourth l)))
e9680547 441(define (unzip5 l)
cef248dd
MG		 442 (values (map1 first l) (map1 second l) (map1 third l) (map1 fourth l)
443 (map1 fifth l)))
e9680547 444
e9680547
MG		 445;;; Fold, unfold & map
446
447(define (fold kons knil list1 . rest)
448 (if (null? rest)
449 (let f ((knil knil) (list1 list1))
450 (if (null? list1)
451 knil
452 (f (kons (car list1) knil) (cdr list1))))
453 (let f ((knil knil) (lists (cons list1 rest)))
454 (if (any null? lists)
455 knil
cef248dd
MG		 456 (let ((cars (map1 car lists))
457 (cdrs (map1 cdr lists)))
563058ef 458 (f (apply kons (append! cars (list knil))) cdrs))))))
e9680547
MG		 459
460(define (fold-right kons knil clist1 . rest)
461 (if (null? rest)
462 (let f ((list1 clist1))
463 (if (null? list1)
464 knil
465 (kons (car list1) (f (cdr list1)))))
466 (let f ((lists (cons clist1 rest)))
467 (if (any null? lists)
468 knil
cef248dd 469 (apply kons (append! (map1 car lists) (list (f (map1 cdr lists)))))))))
e9680547
MG		 470
471(define (pair-fold kons knil clist1 . rest)
472 (if (null? rest)
473 (let f ((knil knil) (list1 clist1))
474 (if (null? list1)
475 knil
476 (let ((tail (cdr list1)))
477 (f (kons list1 knil) tail))))
478 (let f ((knil knil) (lists (cons clist1 rest)))
479 (if (any null? lists)
480 knil
cef248dd 481 (let ((tails (map1 cdr lists)))
563058ef 482 (f (apply kons (append! lists (list knil))) tails))))))
e9680547
MG		 483
484
485(define (pair-fold-right kons knil clist1 . rest)
486 (if (null? rest)
487 (let f ((list1 clist1))
488 (if (null? list1)
489 knil
490 (kons list1 (f (cdr list1)))))
491 (let f ((lists (cons clist1 rest)))
492 (if (any null? lists)
493 knil
cef248dd 494 (apply kons (append! lists (list (f (map1 cdr lists)))))))))
e9680547
MG		 495
496(define (unfold p f g seed . rest)
497 (let ((tail-gen (if (pair? rest)
498 (if (pair? (cdr rest))
499 (scm-error 'wrong-number-of-args
500 "unfold" "too many arguments" '() '())
501 (car rest))
502 (lambda (x) '()))))
503 (let uf ((seed seed))
504 (if (p seed)
505 (tail-gen seed)
506 (cons (f seed)
507 (uf (g seed)))))))
508
509(define (unfold-right p f g seed . rest)
510 (let ((tail (if (pair? rest)
511 (if (pair? (cdr rest))
512 (scm-error 'wrong-number-of-args
513 "unfold-right" "too many arguments" '()
514 '())
515 (car rest))
516 '())))
517 (let uf ((seed seed) (lis tail))
518 (if (p seed)
519 lis
520 (uf (g seed) (cons (f seed) lis))))))
521
522(define (reduce f ridentity lst)
523 (fold f ridentity lst))
524
525(define (reduce-right f ridentity lst)
526 (fold-right f ridentity lst))
527
cef248dd
MG		 528
529;; Internal helper procedure. Map `f' over the single list `ls'.
530;;
7692d26b 531(define map1 map)
cef248dd 532
e9680547
MG		 533(define (append-map f clist1 . rest)
534 (if (null? rest)
535 (let lp ((l clist1))
536 (if (null? l)
537 '()
538 (append (f (car l)) (lp (cdr l)))))
539 (let lp ((l (cons clist1 rest)))
540 (if (any1 null? l)
541 '()
cef248dd
MG		 542 (append (apply f (map1 car l)) (lp (map1 cdr l)))))))
543
e9680547
MG		 544
545(define (append-map! f clist1 . rest)
546 (if (null? rest)
547 (let lp ((l clist1))
548 (if (null? l)
549 '()
550 (append! (f (car l)) (lp (cdr l)))))
551 (let lp ((l (cons clist1 rest)))
552 (if (any1 null? l)
553 '()
cef248dd 554 (append! (apply f (map1 car l)) (lp (map1 cdr l)))))))
e9680547 555
c6424115
KR		 556;; OPTIMIZE-ME: Re-use cons cells of list1
557(define map! map)
e9680547
MG		 558
559(define (pair-for-each f clist1 . rest)
560 (if (null? rest)
561 (let lp ((l clist1))
562 (if (null? l)
563 (if #f #f)
564 (begin
565 (f l)
566 (lp (cdr l)))))
567 (let lp ((l (cons clist1 rest)))
568 (if (any1 null? l)
569 (if #f #f)
570 (begin
571 (apply f l)
cef248dd 572 (lp (map1 cdr l)))))))
e9680547
MG		 573
574(define (filter-map f clist1 . rest)
575 (if (null? rest)
576 (let lp ((l clist1))
577 (if (null? l)
578 '()
579 (let ((res (f (car l))))
580 (if res
581 (cons res (lp (cdr l)))
582 (lp (cdr l))))))
583 (let lp ((l (cons clist1 rest)))
584 (if (any1 null? l)
585 '()
cef248dd 586 (let ((res (apply f (map1 car l))))
e9680547 587 (if res
cef248dd
MG		 588 (cons res (lp (map1 cdr l)))
589 (lp (map1 cdr l))))))))
e9680547
MG		 590
591;;; Filtering & partitioning
592
e9680547 593(define (remove pred list)
848458d9 594 (filter (lambda (x) (not (pred x))) list))
e9680547 595
e9680547
MG		 596(define (partition! pred list)
597 (partition pred list)) ; XXX:optimize
598
599(define (remove! pred list)
600 (remove pred list)) ; XXX:optimize
601
602;;; Searching
603
604(define (find pred clist)
605 (if (null? clist)
606 #f
607 (if (pred (car clist))
608 (car clist)
609 (find pred (cdr clist)))))
610
611(define (find-tail pred clist)
612 (if (null? clist)
613 #f
614 (if (pred (car clist))
615 clist
616 (find-tail pred (cdr clist)))))
617
e4cb30df
TTN		 618(define (take-while pred ls)
619 (cond ((null? ls) '())
620 ((not (pred (car ls))) '())
621 (else
622 (let ((result (list (car ls))))
623 (let lp ((ls (cdr ls)) (p result))
624 (cond ((null? ls) result)
625 ((not (pred (car ls))) result)
626 (else
627 (set-cdr! p (list (car ls)))
628 (lp (cdr ls) (cdr p)))))))))
e9680547
MG		 629
630(define (take-while! pred clist)
631 (take-while pred clist)) ; XXX:optimize
632
633(define (drop-while pred clist)
634 (if (null? clist)
635 '()
636 (if (pred (car clist))
637 (drop-while pred (cdr clist))
638 clist)))
639
640(define (span pred clist)
641 (if (null? clist)
642 (values '() '())
643 (if (pred (car clist))
644 (receive (first last) (span pred (cdr clist))
645 (values (cons (car clist) first) last))
646 (values '() clist))))
647
648(define (span! pred list)
649 (span pred list)) ; XXX:optimize
650
651(define (break pred clist)
652 (if (null? clist)
653 (values '() '())
654 (if (pred (car clist))
655 (values '() clist)
656 (receive (first last) (break pred (cdr clist))
657 (values (cons (car clist) first) last)))))
658
659(define (break! pred list)
660 (break pred list)) ; XXX:optimize
661
662(define (any pred ls . lists)
663 (if (null? lists)
664 (any1 pred ls)
665 (let lp ((lists (cons ls lists)))
666 (cond ((any1 null? lists)
667 #f)
cef248dd
MG		 668 ((any1 null? (map1 cdr lists))
669 (apply pred (map1 car lists)))
e9680547 670 (else
cef248dd 671 (or (apply pred (map1 car lists)) (lp (map1 cdr lists))))))))
e9680547
MG		 672
673(define (any1 pred ls)
674 (let lp ((ls ls))
675 (cond ((null? ls)
676 #f)
677 ((null? (cdr ls))
678 (pred (car ls)))
679 (else
680 (or (pred (car ls)) (lp (cdr ls)))))))
681
682(define (every pred ls . lists)
683 (if (null? lists)
684 (every1 pred ls)
685 (let lp ((lists (cons ls lists)))
686 (cond ((any1 null? lists)
687 #t)
cef248dd
MG		 688 ((any1 null? (map1 cdr lists))
689 (apply pred (map1 car lists)))
e9680547 690 (else
cef248dd 691 (and (apply pred (map1 car lists)) (lp (map1 cdr lists))))))))
e9680547
MG		 692
693(define (every1 pred ls)
694 (let lp ((ls ls))
695 (cond ((null? ls)
696 #t)
697 ((null? (cdr ls))
698 (pred (car ls)))
699 (else
700 (and (pred (car ls)) (lp (cdr ls)))))))
701
702(define (list-index pred clist1 . rest)
703 (if (null? rest)
704 (let lp ((l clist1) (i 0))
705 (if (null? l)
706 #f
707 (if (pred (car l))
708 i
709 (lp (cdr l) (+ i 1)))))
710 (let lp ((lists (cons clist1 rest)) (i 0))
711 (cond ((any1 null? lists)
712 #f)
cef248dd 713 ((apply pred (map1 car lists)) i)
e9680547 714 (else
cef248dd 715 (lp (map1 cdr lists) (+ i 1)))))))
e9680547 716
e9680547
MG		 717;;; Association lists
718
e9680547
MG		 719(define (alist-cons key datum alist)
720 (acons key datum alist))
721
722(define (alist-copy alist)
723 (let lp ((a alist))
724 (if (null? a)
725 '()
563058ef 726 (acons (caar a) (cdar a) (lp (cdr a))))))
e9680547
MG		 727
728(define (alist-delete key alist . rest)
729 (let ((k= (if (pair? rest) (car rest) equal?)))
730 (let lp ((a alist))
731 (if (null? a)
732 '()
733 (if (k= (caar a) key)
734 (lp (cdr a))
735 (cons (car a) (lp (cdr a))))))))
736
737(define (alist-delete! key alist . rest)
738 (let ((k= (if (pair? rest) (car rest) equal?)))
739 (alist-delete key alist k=))) ; XXX:optimize
740
741;;; Set operations on lists
742
743(define (lset<= = . rest)
744 (if (null? rest)
745 #t
746 (let lp ((f (car rest)) (r (cdr rest)))
747 (or (null? r)
748 (and (every (lambda (el) (member el (car r) =)) f)
749 (lp (car r) (cdr r)))))))
750
751(define (lset= = list1 . rest)
752 (if (null? rest)
753 #t
754 (let lp ((f list1) (r rest))
755 (or (null? r)
756 (and (every (lambda (el) (member el (car r) =)) f)
757 (every (lambda (el) (member el f =)) (car r))
758 (lp (car r) (cdr r)))))))
759
760(define (lset-adjoin = list . rest)
761 (let lp ((l rest) (acc list))
762 (if (null? l)
763 acc
764 (if (member (car l) acc)
765 (lp (cdr l) acc)
766 (lp (cdr l) (cons (car l) acc))))))
767
768(define (lset-union = . rest)
769 (let lp0 ((l rest) (acc '()))
770 (if (null? l)
771 (reverse! acc)
772 (let lp1 ((ll (car l)) (acc acc))
773 (if (null? ll)
774 (lp0 (cdr l) acc)
775 (if (member (car ll) acc =)
776 (lp1 (cdr ll) acc)
777 (lp1 (cdr ll) (cons (car ll) acc))))))))
778
779(define (lset-intersection = list1 . rest)
780 (let lp ((l list1) (acc '()))
781 (if (null? l)
782 (reverse! acc)
783 (if (every (lambda (ll) (member (car l) ll =)) rest)
784 (lp (cdr l) (cons (car l) acc))
785 (lp (cdr l) acc)))))
786
787(define (lset-difference = list1 . rest)
788 (if (null? rest)
789 list1
790 (let lp ((l list1) (acc '()))
791 (if (null? l)
792 (reverse! acc)
793 (if (any (lambda (ll) (member (car l) ll =)) rest)
794 (lp (cdr l) acc)
795 (lp (cdr l) (cons (car l) acc)))))))
796
797;(define (fold kons knil list1 . rest)
798
799(define (lset-xor = . rest)
800 (fold (lambda (lst res)
801 (let lp ((l lst) (acc '()))
802 (if (null? l)
803 (let lp0 ((r res) (acc acc))
804 (if (null? r)
805 (reverse! acc)
806 (if (member (car r) lst =)
807 (lp0 (cdr r) acc)
808 (lp0 (cdr r) (cons (car r) acc)))))
809 (if (member (car l) res =)
810 (lp (cdr l) acc)
811 (lp (cdr l) (cons (car l) acc))))))
812 '()
813 rest))
814
815(define (lset-diff+intersection = list1 . rest)
816 (let lp ((l list1) (accd '()) (acci '()))
817 (if (null? l)
818 (values (reverse! accd) (reverse! acci))
819 (let ((appears (every (lambda (ll) (member (car l) ll =)) rest)))
820 (if appears
821 (lp (cdr l) accd (cons (car l) acci))
822 (lp (cdr l) (cons (car l) accd) acci))))))
823
824
825(define (lset-union! = . rest)
826 (apply lset-union = rest)) ; XXX:optimize
827
828(define (lset-intersection! = list1 . rest)
829 (apply lset-intersection = list1 rest)) ; XXX:optimize
830
831(define (lset-difference! = list1 . rest)
832 (apply lset-difference = list1 rest)) ; XXX:optimize
833
834(define (lset-xor! = . rest)
835 (apply lset-xor = rest)) ; XXX:optimize
836
837(define (lset-diff+intersection! = list1 . rest)
838 (apply lset-diff+intersection = list1 rest)) ; XXX:optimize
6be07c52
TTN		 839
840;;; srfi-1.scm ends here
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