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[emacs.git] / lisp / calc / calc-map.el
blobb7cf8f71ba532679a167ca670aa2d315f0fc537d
1 ;;; calc-map.el --- higher-order functions for Calc
2
3 ;; Copyright (C) 1990, 1991, 1992, 1993, 2001 Free Software Foundation, Inc.
4
5 ;; Author: David Gillespie <daveg@synaptics.com>
6 ;; Maintainers: D. Goel <deego@gnufans.org>
7 ;; Colin Walters <walters@debian.org>
8
9 ;; This file is part of GNU Emacs.
10
11 ;; GNU Emacs is distributed in the hope that it will be useful,
12 ;; but WITHOUT ANY WARRANTY. No author or distributor
13 ;; accepts responsibility to anyone for the consequences of using it
14 ;; or for whether it serves any particular purpose or works at all,
15 ;; unless he says so in writing. Refer to the GNU Emacs General Public
16 ;; License for full details.
17
18 ;; Everyone is granted permission to copy, modify and redistribute
19 ;; GNU Emacs, but only under the conditions described in the
20 ;; GNU Emacs General Public License. A copy of this license is
21 ;; supposed to have been given to you along with GNU Emacs so you
22 ;; can know your rights and responsibilities. It should be in a
23 ;; file named COPYING. Among other things, the copyright notice
24 ;; and this notice must be preserved on all copies.
25
26 ;;; Commentary:
27
28 ;;; Code:
29
30 ;; This file is autoloaded from calc-ext.el.
31 (require 'calc-ext)
32
33 (require 'calc-macs)
34
35 (defun calc-Need-calc-map () nil)
36
37
38 (defun calc-apply (&optional oper)
39 (interactive)
40 (calc-wrapper
41 (let* ((sel-mode nil)
42 (calc-dollar-values (mapcar 'calc-get-stack-element
43 (nthcdr calc-stack-top calc-stack)))
44 (calc-dollar-used 0)
45 (oper (or oper (calc-get-operator "Apply"
46 (if (math-vectorp (calc-top 1))
47 (1- (length (calc-top 1)))
48 -1))))
49 (expr (calc-top-n (1+ calc-dollar-used))))
50 (message "Working...")
51 (calc-set-command-flag 'clear-message)
52 (calc-enter-result (1+ calc-dollar-used)
53 (concat (substring "apl" 0 (- 4 (length (nth 2 oper))))
54 (nth 2 oper))
55 (list 'calcFunc-apply
56 (math-calcFunc-to-var (nth 1 oper))
57 expr)))))
58
59 (defun calc-reduce (&optional oper accum)
60 (interactive)
61 (calc-wrapper
62 (let* ((sel-mode nil)
63 (nest (calc-is-hyperbolic))
64 (rev (calc-is-inverse))
65 (nargs (if (and nest (not rev)) 2 1))
66 (calc-dollar-values (mapcar 'calc-get-stack-element
67 (nthcdr calc-stack-top calc-stack)))
68 (calc-dollar-used 0)
69 (calc-mapping-dir (and (not accum) (not nest) ""))
70 (oper (or oper (calc-get-operator
71 (if nest
72 (concat (if accum "Accumulate " "")
73 (if rev "Fixed Point" "Nest"))
74 (concat (if rev "Inv " "")
75 (if accum "Accumulate" "Reduce")))
76 (if nest 1 2)))))
77 (message "Working...")
78 (calc-set-command-flag 'clear-message)
79 (calc-enter-result (+ calc-dollar-used nargs)
80 (concat (substring (if nest
81 (if rev "fxp" "nst")
82 (if accum "acc" "red"))
83 0 (- 4 (length (nth 2 oper))))
84 (nth 2 oper))
85 (if nest
86 (cons (if rev
87 (if accum 'calcFunc-afixp 'calcFunc-fixp)
88 (if accum 'calcFunc-anest 'calcFunc-nest))
89 (cons (math-calcFunc-to-var (nth 1 oper))
90 (calc-top-list-n
91 nargs (1+ calc-dollar-used))))
92 (list (if accum
93 (if rev 'calcFunc-raccum 'calcFunc-accum)
94 (intern (concat "calcFunc-"
95 (if rev "r" "")
96 "reduce"
97 calc-mapping-dir)))
98 (math-calcFunc-to-var (nth 1 oper))
99 (calc-top-n (1+ calc-dollar-used))))))))
100
101 (defun calc-accumulate (&optional oper)
102 (interactive)
103 (calc-reduce oper t))
104
105 (defun calc-map (&optional oper)
106 (interactive)
107 (calc-wrapper
108 (let* ((sel-mode nil)
109 (calc-dollar-values (mapcar 'calc-get-stack-element
110 (nthcdr calc-stack-top calc-stack)))
111 (calc-dollar-used 0)
112 (calc-mapping-dir "")
113 (oper (or oper (calc-get-operator "Map")))
114 (nargs (car oper)))
115 (message "Working...")
116 (calc-set-command-flag 'clear-message)
117 (calc-enter-result (+ nargs calc-dollar-used)
118 (concat (substring "map" 0 (- 4 (length (nth 2 oper))))
119 (nth 2 oper))
120 (cons (intern (concat "calcFunc-map" calc-mapping-dir))
121 (cons (math-calcFunc-to-var (nth 1 oper))
122 (calc-top-list-n
123 nargs
124 (1+ calc-dollar-used))))))))
125
126 (defun calc-map-equation (&optional oper)
127 (interactive)
128 (calc-wrapper
129 (let* ((sel-mode nil)
130 (calc-dollar-values (mapcar 'calc-get-stack-element
131 (nthcdr calc-stack-top calc-stack)))
132 (calc-dollar-used 0)
133 (oper (or oper (calc-get-operator "Map-equation")))
134 (nargs (car oper)))
135 (message "Working...")
136 (calc-set-command-flag 'clear-message)
137 (calc-enter-result (+ nargs calc-dollar-used)
138 (concat (substring "map" 0 (- 4 (length (nth 2 oper))))
139 (nth 2 oper))
140 (cons (if (calc-is-inverse)
141 'calcFunc-mapeqr
142 (if (calc-is-hyperbolic)
143 'calcFunc-mapeqp 'calcFunc-mapeq))
144 (cons (math-calcFunc-to-var (nth 1 oper))
145 (calc-top-list-n
146 nargs
147 (1+ calc-dollar-used))))))))
148
149 (defvar calc-verify-arglist t)
150 (defvar calc-mapping-dir nil)
151 (defun calc-map-stack ()
152 "This is meant to be called by calc-keypad mode."
153 (interactive)
154 (let ((calc-verify-arglist nil))
155 (calc-unread-command ?\$)
156 (calc-map)))
157
158 (defun calc-outer-product (&optional oper)
159 (interactive)
160 (calc-wrapper
161 (let* ((sel-mode nil)
162 (calc-dollar-values (mapcar 'calc-get-stack-element
163 (nthcdr calc-stack-top calc-stack)))
164 (calc-dollar-used 0)
165 (oper (or oper (calc-get-operator "Outer" 2))))
166 (message "Working...")
167 (calc-set-command-flag 'clear-message)
168 (calc-enter-result (+ 2 calc-dollar-used)
169 (concat (substring "out" 0 (- 4 (length (nth 2 oper))))
170 (nth 2 oper))
171 (cons 'calcFunc-outer
172 (cons (math-calcFunc-to-var (nth 1 oper))
173 (calc-top-list-n
174 2 (1+ calc-dollar-used))))))))
175
176 (defun calc-inner-product (&optional mul-oper add-oper)
177 (interactive)
178 (calc-wrapper
179 (let* ((sel-mode nil)
180 (calc-dollar-values (mapcar 'calc-get-stack-element
181 (nthcdr calc-stack-top calc-stack)))
182 (calc-dollar-used 0)
183 (mul-oper (or mul-oper (calc-get-operator "Inner (Mult)" 2)))
184 (mul-used calc-dollar-used)
185 (calc-dollar-values (if (> mul-used 0)
186 (cdr calc-dollar-values)
187 calc-dollar-values))
188 (calc-dollar-used 0)
189 (add-oper (or add-oper (calc-get-operator "Inner (Add)" 2))))
190 (message "Working...")
191 (calc-set-command-flag 'clear-message)
192 (calc-enter-result (+ 2 mul-used calc-dollar-used)
193 (concat "in"
194 (substring (nth 2 mul-oper) 0 1)
195 (substring (nth 2 add-oper) 0 1))
196 (nconc (list 'calcFunc-inner
197 (math-calcFunc-to-var (nth 1 mul-oper))
198 (math-calcFunc-to-var (nth 1 add-oper)))
199 (calc-top-list-n
200 2 (+ 1 mul-used calc-dollar-used)))))))
201
202 (defconst calc-oper-keys '( ( ( ?+ 2 calcFunc-add )
203 ( ?- 2 calcFunc-sub )
204 ( ?* 2 calcFunc-mul )
205 ( ?/ 2 calcFunc-div )
206 ( ?^ 2 calcFunc-pow )
207 ( ?| 2 calcFunc-vconcat )
208 ( ?% 2 calcFunc-mod )
209 ( ?\\ 2 calcFunc-idiv )
210 ( ?! 1 calcFunc-fact )
211 ( ?& 1 calcFunc-inv )
212 ( ?n 1 calcFunc-neg )
213 ( ?x user )
214 ( ?z user )
215 ( ?A 1 calcFunc-abs )
216 ( ?J 1 calcFunc-conj )
217 ( ?G 1 calcFunc-arg )
218 ( ?Q 1 calcFunc-sqrt )
219 ( ?N 2 calcFunc-min )
220 ( ?X 2 calcFunc-max )
221 ( ?F 1 calcFunc-floor )
222 ( ?R 1 calcFunc-round )
223 ( ?S 1 calcFunc-sin )
224 ( ?C 1 calcFunc-cos )
225 ( ?T 1 calcFunc-tan )
226 ( ?L 1 calcFunc-ln )
227 ( ?E 1 calcFunc-exp )
228 ( ?B 2 calcFunc-log ) )
229 ( ( ?F 1 calcFunc-ceil ) ; inverse
230 ( ?R 1 calcFunc-trunc )
231 ( ?Q 1 calcFunc-sqr )
232 ( ?S 1 calcFunc-arcsin )
233 ( ?C 1 calcFunc-arccos )
234 ( ?T 1 calcFunc-arctan )
235 ( ?L 1 calcFunc-exp )
236 ( ?E 1 calcFunc-ln )
237 ( ?B 2 calcFunc-alog )
238 ( ?^ 2 calcFunc-nroot )
239 ( ?| 2 calcFunc-vconcatrev ) )
240 ( ( ?F 1 calcFunc-ffloor ) ; hyperbolic
241 ( ?R 1 calcFunc-fround )
242 ( ?S 1 calcFunc-sinh )
243 ( ?C 1 calcFunc-cosh )
244 ( ?T 1 calcFunc-tanh )
245 ( ?L 1 calcFunc-log10 )
246 ( ?E 1 calcFunc-exp10 )
247 ( ?| 2 calcFunc-append ) )
248 ( ( ?F 1 calcFunc-fceil ) ; inverse-hyperbolic
249 ( ?R 1 calcFunc-ftrunc )
250 ( ?S 1 calcFunc-arcsinh )
251 ( ?C 1 calcFunc-arccosh )
252 ( ?T 1 calcFunc-arctanh )
253 ( ?L 1 calcFunc-exp10 )
254 ( ?E 1 calcFunc-log10 )
255 ( ?| 2 calcFunc-appendrev ) )))
256
257 (defconst calc-a-oper-keys '( ( ( ?a 3 calcFunc-apart )
258 ( ?b 3 calcFunc-subst )
259 ( ?c 2 calcFunc-collect )
260 ( ?d 2 calcFunc-deriv )
261 ( ?e 1 calcFunc-esimplify )
262 ( ?f 2 calcFunc-factor )
263 ( ?g 2 calcFunc-pgcd )
264 ( ?i 2 calcFunc-integ )
265 ( ?m 2 calcFunc-match )
266 ( ?n 1 calcFunc-nrat )
267 ( ?r 2 calcFunc-rewrite )
268 ( ?s 1 calcFunc-simplify )
269 ( ?t 3 calcFunc-taylor )
270 ( ?x 1 calcFunc-expand )
271 ( ?M 2 calcFunc-mapeq )
272 ( ?N 3 calcFunc-minimize )
273 ( ?P 2 calcFunc-roots )
274 ( ?R 3 calcFunc-root )
275 ( ?S 2 calcFunc-solve )
276 ( ?T 4 calcFunc-table )
277 ( ?X 3 calcFunc-maximize )
278 ( ?= 2 calcFunc-eq )
279 ( ?\# 2 calcFunc-neq )
280 ( ?< 2 calcFunc-lt )
281 ( ?> 2 calcFunc-gt )
282 ( ?\[ 2 calcFunc-leq )
283 ( ?\] 2 calcFunc-geq )
284 ( ?{ 2 calcFunc-in )
285 ( ?! 1 calcFunc-lnot )
286 ( ?& 2 calcFunc-land )
287 ( ?\| 2 calcFunc-lor )
288 ( ?: 3 calcFunc-if )
289 ( ?. 2 calcFunc-rmeq )
290 ( ?+ 4 calcFunc-sum )
291 ( ?- 4 calcFunc-asum )
292 ( ?* 4 calcFunc-prod )
293 ( ?_ 2 calcFunc-subscr )
294 ( ?\\ 2 calcFunc-pdiv )
295 ( ?% 2 calcFunc-prem )
296 ( ?/ 2 calcFunc-pdivrem ) )
297 ( ( ?m 2 calcFunc-matchnot )
298 ( ?M 2 calcFunc-mapeqr )
299 ( ?S 2 calcFunc-finv ) )
300 ( ( ?d 2 calcFunc-tderiv )
301 ( ?f 2 calcFunc-factors )
302 ( ?M 2 calcFunc-mapeqp )
303 ( ?N 3 calcFunc-wminimize )
304 ( ?R 3 calcFunc-wroot )
305 ( ?S 2 calcFunc-fsolve )
306 ( ?X 3 calcFunc-wmaximize )
307 ( ?/ 2 calcFunc-pdivide ) )
308 ( ( ?S 2 calcFunc-ffinv ) )))
309
310 (defconst calc-b-oper-keys '( ( ( ?a 2 calcFunc-and )
311 ( ?o 2 calcFunc-or )
312 ( ?x 2 calcFunc-xor )
313 ( ?d 2 calcFunc-diff )
314 ( ?n 1 calcFunc-not )
315 ( ?c 1 calcFunc-clip )
316 ( ?l 2 calcFunc-lsh )
317 ( ?r 2 calcFunc-rsh )
318 ( ?L 2 calcFunc-ash )
319 ( ?R 2 calcFunc-rash )
320 ( ?t 2 calcFunc-rot )
321 ( ?p 1 calcFunc-vpack )
322 ( ?u 1 calcFunc-vunpack )
323 ( ?D 4 calcFunc-ddb )
324 ( ?F 3 calcFunc-fv )
325 ( ?I 1 calcFunc-irr )
326 ( ?M 3 calcFunc-pmt )
327 ( ?N 2 calcFunc-npv )
328 ( ?P 3 calcFunc-pv )
329 ( ?S 3 calcFunc-sln )
330 ( ?T 3 calcFunc-rate )
331 ( ?Y 4 calcFunc-syd )
332 ( ?\# 3 calcFunc-nper )
333 ( ?\% 2 calcFunc-relch ) )
334 ( ( ?F 3 calcFunc-fvb )
335 ( ?I 1 calcFunc-irrb )
336 ( ?M 3 calcFunc-pmtb )
337 ( ?N 2 calcFunc-npvb )
338 ( ?P 3 calcFunc-pvb )
339 ( ?T 3 calcFunc-rateb )
340 ( ?\# 3 calcFunc-nperb ) )
341 ( ( ?F 3 calcFunc-fvl )
342 ( ?M 3 calcFunc-pmtl )
343 ( ?P 3 calcFunc-pvl )
344 ( ?T 3 calcFunc-ratel )
345 ( ?\# 3 calcFunc-nperl ) )))
346
347 (defconst calc-c-oper-keys '( ( ( ?d 1 calcFunc-deg )
348 ( ?r 1 calcFunc-rad )
349 ( ?h 1 calcFunc-hms )
350 ( ?f 1 calcFunc-float )
351 ( ?F 1 calcFunc-frac ) )))
352
353 (defconst calc-f-oper-keys '( ( ( ?b 2 calcFunc-beta )
354 ( ?e 1 calcFunc-erf )
355 ( ?g 1 calcFunc-gamma )
356 ( ?h 2 calcFunc-hypot )
357 ( ?i 1 calcFunc-im )
358 ( ?j 2 calcFunc-besJ )
359 ( ?n 2 calcFunc-min )
360 ( ?r 1 calcFunc-re )
361 ( ?s 1 calcFunc-sign )
362 ( ?x 2 calcFunc-max )
363 ( ?y 2 calcFunc-besY )
364 ( ?A 1 calcFunc-abssqr )
365 ( ?B 3 calcFunc-betaI )
366 ( ?E 1 calcFunc-expm1 )
367 ( ?G 2 calcFunc-gammaP )
368 ( ?I 2 calcFunc-ilog )
369 ( ?L 1 calcFunc-lnp1 )
370 ( ?M 1 calcFunc-mant )
371 ( ?Q 1 calcFunc-isqrt )
372 ( ?S 1 calcFunc-scf )
373 ( ?T 2 calcFunc-arctan2 )
374 ( ?X 1 calcFunc-xpon )
375 ( ?\[ 2 calcFunc-decr )
376 ( ?\] 2 calcFunc-incr ) )
377 ( ( ?e 1 calcFunc-erfc )
378 ( ?E 1 calcFunc-lnp1 )
379 ( ?G 2 calcFunc-gammaQ )
380 ( ?L 1 calcFunc-expm1 ) )
381 ( ( ?B 3 calcFunc-betaB )
382 ( ?G 2 calcFunc-gammag) )
383 ( ( ?G 2 calcFunc-gammaG ) )))
384
385 (defconst calc-k-oper-keys '( ( ( ?b 1 calcFunc-bern )
386 ( ?c 2 calcFunc-choose )
387 ( ?d 1 calcFunc-dfact )
388 ( ?e 1 calcFunc-euler )
389 ( ?f 1 calcFunc-prfac )
390 ( ?g 2 calcFunc-gcd )
391 ( ?h 2 calcFunc-shuffle )
392 ( ?l 2 calcFunc-lcm )
393 ( ?m 1 calcFunc-moebius )
394 ( ?n 1 calcFunc-nextprime )
395 ( ?r 1 calcFunc-random )
396 ( ?s 2 calcFunc-stir1 )
397 ( ?t 1 calcFunc-totient )
398 ( ?B 3 calcFunc-utpb )
399 ( ?C 2 calcFunc-utpc )
400 ( ?F 3 calcFunc-utpf )
401 ( ?N 3 calcFunc-utpn )
402 ( ?P 2 calcFunc-utpp )
403 ( ?T 2 calcFunc-utpt ) )
404 ( ( ?n 1 calcFunc-prevprime )
405 ( ?B 3 calcFunc-ltpb )
406 ( ?C 2 calcFunc-ltpc )
407 ( ?F 3 calcFunc-ltpf )
408 ( ?N 3 calcFunc-ltpn )
409 ( ?P 2 calcFunc-ltpp )
410 ( ?T 2 calcFunc-ltpt ) )
411 ( ( ?b 2 calcFunc-bern )
412 ( ?c 2 calcFunc-perm )
413 ( ?e 2 calcFunc-euler )
414 ( ?s 2 calcFunc-stir2 ) )))
415
416 (defconst calc-s-oper-keys '( ( ( ?: 2 calcFunc-assign )
417 ( ?= 1 calcFunc-evalto ) )))
418
419 (defconst calc-t-oper-keys '( ( ( ?C 3 calcFunc-tzconv )
420 ( ?D 1 calcFunc-date )
421 ( ?I 2 calcFunc-incmonth )
422 ( ?J 1 calcFunc-julian )
423 ( ?M 1 calcFunc-newmonth )
424 ( ?W 1 calcFunc-newweek )
425 ( ?U 1 calcFunc-unixtime )
426 ( ?Y 1 calcFunc-newyear ) )))
427
428 (defconst calc-u-oper-keys '( ( ( ?C 2 calcFunc-vcov )
429 ( ?G 1 calcFunc-vgmean )
430 ( ?M 1 calcFunc-vmean )
431 ( ?N 1 calcFunc-vmin )
432 ( ?S 1 calcFunc-vsdev )
433 ( ?X 1 calcFunc-vmax ) )
434 ( ( ?C 2 calcFunc-vpcov )
435 ( ?M 1 calcFunc-vmeane )
436 ( ?S 1 calcFunc-vpsdev ) )
437 ( ( ?C 2 calcFunc-vcorr )
438 ( ?G 1 calcFunc-agmean )
439 ( ?M 1 calcFunc-vmedian )
440 ( ?S 1 calcFunc-vvar ) )
441 ( ( ?M 1 calcFunc-vhmean )
442 ( ?S 1 calcFunc-vpvar ) )))
443
444 (defconst calc-v-oper-keys '( ( ( ?a 2 calcFunc-arrange )
445 ( ?b 2 calcFunc-cvec )
446 ( ?c 2 calcFunc-mcol )
447 ( ?d 2 calcFunc-diag )
448 ( ?e 2 calcFunc-vexp )
449 ( ?f 2 calcFunc-find )
450 ( ?h 1 calcFunc-head )
451 ( ?k 2 calcFunc-cons )
452 ( ?l 1 calcFunc-vlen )
453 ( ?m 2 calcFunc-vmask )
454 ( ?n 1 calcFunc-rnorm )
455 ( ?p 2 calcFunc-pack )
456 ( ?r 2 calcFunc-mrow )
457 ( ?s 3 calcFunc-subvec )
458 ( ?t 1 calcFunc-trn )
459 ( ?u 1 calcFunc-unpack )
460 ( ?v 1 calcFunc-rev )
461 ( ?x 1 calcFunc-index )
462 ( ?A 1 calcFunc-apply )
463 ( ?C 1 calcFunc-cross )
464 ( ?D 1 calcFunc-det )
465 ( ?E 1 calcFunc-venum )
466 ( ?F 1 calcFunc-vfloor )
467 ( ?G 1 calcFunc-grade )
468 ( ?H 2 calcFunc-histogram )
469 ( ?I 2 calcFunc-inner )
470 ( ?L 1 calcFunc-lud )
471 ( ?M 0 calcFunc-map )
472 ( ?N 1 calcFunc-cnorm )
473 ( ?O 2 calcFunc-outer )
474 ( ?R 1 calcFunc-reduce )
475 ( ?S 1 calcFunc-sort )
476 ( ?T 1 calcFunc-tr )
477 ( ?U 1 calcFunc-accum )
478 ( ?V 2 calcFunc-vunion )
479 ( ?X 2 calcFunc-vxor )
480 ( ?- 2 calcFunc-vdiff )
481 ( ?^ 2 calcFunc-vint )
482 ( ?~ 1 calcFunc-vcompl )
483 ( ?# 1 calcFunc-vcard )
484 ( ?: 1 calcFunc-vspan )
485 ( ?+ 1 calcFunc-rdup ) )
486 ( ( ?h 1 calcFunc-tail )
487 ( ?s 3 calcFunc-rsubvec )
488 ( ?G 1 calcFunc-rgrade )
489 ( ?R 1 calcFunc-rreduce )
490 ( ?S 1 calcFunc-rsort )
491 ( ?U 1 calcFunc-raccum ) )
492 ( ( ?e 3 calcFunc-vexp )
493 ( ?h 1 calcFunc-rhead )
494 ( ?k 2 calcFunc-rcons )
495 ( ?H 3 calcFunc-histogram )
496 ( ?R 2 calcFunc-nest )
497 ( ?U 2 calcFunc-anest ) )
498 ( ( ?h 1 calcFunc-rtail )
499 ( ?R 1 calcFunc-fixp )
500 ( ?U 1 calcFunc-afixp ) )))
501
502
503 ;;; Return a list of the form (nargs func name)
504 (defun calc-get-operator (msg &optional nargs)
505 (setq calc-aborted-prefix nil)
506 (let ((inv nil) (hyp nil) (prefix nil) (forcenargs nil)
507 done key oper (which 0)
508 (msgs '( "(Press ? for help)"
509 "+, -, *, /, ^, %, \\, :, &, !, |, Neg"
510 "SHIFT + Abs, conJ, arG; maX, miN; Floor, Round; sQrt"
511 "SHIFT + Inv, Hyp; Sin, Cos, Tan; Exp, Ln, logB"
512 "Algebra + Simp, Esimp, Deriv, Integ, !, =, etc."
513 "Binary + And, Or, Xor, Diff; l/r/t/L/R shifts; Not, Clip"
514 "Conversions + Deg, Rad, HMS; Float; SHIFT + Fraction"
515 "Functions + Re, Im; Hypot; Mant, Expon, Scale; etc."
516 "Kombinatorics + Dfact, Lcm, Gcd, Choose; Random; etc."
517 "Time/date + newYear, Incmonth, etc."
518 "Vectors + Length, Row, Col, Diag, Mask, etc."
519 "_ = mapr/reducea, : = mapc/reduced, = = reducer"
520 "X or Z = any function by name; ' = alg entry; $ = stack")))
521 (while (not done)
522 (message "%s%s: %s: %s%s%s"
523 msg
524 (cond ((equal calc-mapping-dir "r") " rows")
525 ((equal calc-mapping-dir "c") " columns")
526 ((equal calc-mapping-dir "a") " across")
527 ((equal calc-mapping-dir "d") " down")
528 (t ""))
529 (if forcenargs
530 (format "(%d arg%s)"
531 forcenargs (if (= forcenargs 1) "" "s"))
532 (nth which msgs))
533 (if inv "Inv " "") (if hyp "Hyp " "")
534 (if prefix (concat (char-to-string prefix) "-") ""))
535 (setq key (read-char))
536 (if (>= key 128) (setq key (- key 128)))
537 (cond ((memq key '(?\C-g ?q))
538 (keyboard-quit))
539 ((memq key '(?\C-u ?\e)))
540 ((= key ??)
541 (setq which (% (1+ which) (length msgs))))
542 ((and (= key ?I) (null prefix))
543 (setq inv (not inv)))
544 ((and (= key ?H) (null prefix))
545 (setq hyp (not hyp)))
546 ((and (eq key prefix) (not (eq key ?v)))
547 (setq prefix nil))
548 ((and (memq key '(?a ?b ?c ?f ?k ?s ?t ?u ?v ?V))
549 (null prefix))
550 (setq prefix (downcase key)))
551 ((and (eq key ?\=) (null prefix))
552 (if calc-mapping-dir
553 (setq calc-mapping-dir (if (equal calc-mapping-dir "r")
554 "" "r"))
555 (beep)))
556 ((and (eq key ?\_) (null prefix))
557 (if calc-mapping-dir
558 (if (string-match "map$" msg)
559 (setq calc-mapping-dir (if (equal calc-mapping-dir "r")
560 "" "r"))
561 (setq calc-mapping-dir (if (equal calc-mapping-dir "a")
562 "" "a")))
563 (beep)))
564 ((and (eq key ?\:) (null prefix))
565 (if calc-mapping-dir
566 (if (string-match "map$" msg)
567 (setq calc-mapping-dir (if (equal calc-mapping-dir "c")
568 "" "c"))
569 (setq calc-mapping-dir (if (equal calc-mapping-dir "d")
570 "" "d")))
571 (beep)))
572 ((and (>= key ?0) (<= key ?9) (null prefix))
573 (setq forcenargs (if (eq forcenargs (- key ?0)) nil (- key ?0)))
574 (and nargs forcenargs (/= nargs forcenargs) (>= nargs 0)
575 (error "Must be a %d-argument operator" nargs)))
576 ((memq key '(?\$ ?\'))
577 (let* ((arglist nil)
578 (has-args nil)
579 (record-entry nil)
580 (expr (if (eq key ?\$)
581 (progn
582 (setq calc-dollar-used 1)
583 (if calc-dollar-values
584 (car calc-dollar-values)
585 (error "Stack underflow")))
586 (let* ((calc-dollar-values calc-arg-values)
587 (calc-dollar-used 0)
588 (calc-hashes-used 0)
589 (func (calc-do-alg-entry "" "Function: ")))
590 (setq record-entry t)
591 (or (= (length func) 1)
592 (error "Bad format"))
593 (if (> calc-dollar-used 0)
594 (progn
595 (setq has-args calc-dollar-used
596 arglist (calc-invent-args has-args))
597 (math-multi-subst (car func)
598 (reverse arglist)
599 arglist))
600 (if (> calc-hashes-used 0)
601 (setq has-args calc-hashes-used
602 arglist (calc-invent-args has-args)))
603 (car func))))))
604 (if (eq (car-safe expr) 'calcFunc-lambda)
605 (setq oper (list "$" (- (length expr) 2) expr)
606 done t)
607 (or has-args
608 (progn
609 (calc-default-formula-arglist expr)
610 (setq record-entry t
611 arglist (sort arglist 'string-lessp))
612 (if calc-verify-arglist
613 (setq arglist (read-from-minibuffer
614 "Function argument list: "
615 (if arglist
616 (prin1-to-string arglist)
617 "()")
618 minibuffer-local-map
619 t)))
620 (setq arglist (mapcar (function
621 (lambda (x)
622 (list 'var
623 x
624 (intern
625 (concat
626 "var-"
627 (symbol-name x))))))
628 arglist))))
629 (setq oper (list "$"
630 (length arglist)
631 (append '(calcFunc-lambda) arglist
632 (list expr)))
633 done t))
634 (if record-entry
635 (calc-record (nth 2 oper) "oper"))))
636 ((setq oper (assq key (nth (if inv (if hyp 3 1) (if hyp 2 0))
637 (if prefix
638 (symbol-value
639 (intern (format "calc-%c-oper-keys"
640 prefix)))
641 calc-oper-keys))))
642 (if (eq (nth 1 oper) 'user)
643 (let ((func (intern
644 (completing-read "Function name: "
645 obarray 'fboundp
646 nil "calcFunc-"))))
647 (if (or forcenargs nargs)
648 (setq oper (list "z" (or forcenargs nargs) func)
649 done t)
650 (if (fboundp func)
651 (let* ((defn (symbol-function func)))
652 (and (symbolp defn)
653 (setq defn (symbol-function defn)))
654 (if (eq (car-safe defn) 'lambda)
655 (let ((args (nth 1 defn))
656 (nargs 0))
657 (while (not (memq (car args) '(&optional
658 &rest nil)))
659 (setq nargs (1+ nargs)
660 args (cdr args)))
661 (setq oper (list "z" nargs func)
662 done t))
663 (error
664 "Function is not suitable for this operation")))
665 (message "Number of arguments: ")
666 (let ((nargs (read-char)))
667 (if (and (>= nargs ?0) (<= nargs ?9))
668 (setq oper (list "z" (- nargs ?0) func)
669 done t)
670 (beep))))))
671 (if (or (and (eq prefix ?v) (memq key '(?A ?I ?M ?O ?R ?U)))
672 (and (eq prefix ?a) (eq key ?M)))
673 (let* ((dir (cond ((and (equal calc-mapping-dir "")
674 (string-match "map$" msg))
675 (setq calc-mapping-dir "r")
676 " rows")
677 ((equal calc-mapping-dir "r") " rows")
678 ((equal calc-mapping-dir "c") " columns")
679 ((equal calc-mapping-dir "a") " across")
680 ((equal calc-mapping-dir "d") " down")
681 (t "")))
682 (calc-mapping-dir (and (memq (nth 2 oper)
683 '(calcFunc-map
684 calcFunc-reduce
685 calcFunc-rreduce))
686 ""))
687 (oper2 (calc-get-operator
688 (format "%s%s, %s%s" msg dir
689 (substring (symbol-name (nth 2 oper))
690 9)
691 (if (eq key ?I) " (mult)" ""))
692 (cdr (assq (nth 2 oper)
693 '((calcFunc-reduce . 2)
694 (calcFunc-rreduce . 2)
695 (calcFunc-accum . 2)
696 (calcFunc-raccum . 2)
697 (calcFunc-nest . 2)
698 (calcFunc-anest . 2)
699 (calcFunc-fixp . 2)
700 (calcFunc-afixp . 2))))))
701 (oper3 (if (eq (nth 2 oper) 'calcFunc-inner)
702 (calc-get-operator
703 (format "%s%s, inner (add)" msg dir
704 (substring
705 (symbol-name (nth 2 oper))
706 9)))
707 '(0 0 0)))
708 (args nil)
709 (nargs (if (> (nth 1 oper) 0)
710 (nth 1 oper)
711 (car oper2)))
712 (n nargs)
713 (p calc-arg-values))
714 (while (and p (> n 0))
715 (or (math-expr-contains (nth 1 oper2) (car p))
716 (math-expr-contains (nth 1 oper3) (car p))
717 (setq args (nconc args (list (car p)))
718 n (1- n)))
719 (setq p (cdr p)))
720 (setq oper (list "" nargs
721 (append
722 '(calcFunc-lambda)
723 args
724 (list (math-build-call
725 (intern
726 (concat
727 (symbol-name (nth 2 oper))
728 calc-mapping-dir))
729 (cons (math-calcFunc-to-var
730 (nth 1 oper2))
731 (if (eq key ?I)
732 (cons
733 (math-calcFunc-to-var
734 (nth 1 oper3))
735 args)
736 args))))))
737 done t))
738 (setq done t))))
739 (t (beep))))
740 (and nargs (>= nargs 0)
741 (/= nargs (nth 1 oper))
742 (error "Must be a %d-argument operator" nargs))
743 (append (if forcenargs
744 (cons forcenargs (cdr (cdr oper)))
745 (cdr oper))
746 (list
747 (let ((name (concat (if inv "I" "") (if hyp "H" "")
748 (if prefix (char-to-string prefix) "")
749 (char-to-string key))))
750 (if (> (length name) 3)
751 (substring name 0 3)
752 name))))))
753
754
755 ;;; Convert a variable name (as a formula) into a like-looking function name.
756 (defun math-var-to-calcFunc (f)
757 (if (eq (car-safe f) 'var)
758 (if (fboundp (nth 2 f))
759 (nth 2 f)
760 (intern (concat "calcFunc-" (symbol-name (nth 1 f)))))
761 (if (memq (car-safe f) '(lambda calcFunc-lambda))
762 f
763 (math-reject-arg f "*Expected a function name"))))
764
765 ;;; Convert a function name into a like-looking variable name formula.
766 (defun math-calcFunc-to-var (f)
767 (if (symbolp f)
768 (let* ((func (or (cdr (assq f '( ( + . calcFunc-add )
769 ( - . calcFunc-sub )
770 ( * . calcFunc-mul )
771 ( / . calcFunc-div )
772 ( ^ . calcFunc-pow )
773 ( % . calcFunc-mod )
774 ( neg . calcFunc-neg )
775 ( | . calcFunc-vconcat ) )))
776 f))
777 (base (if (string-match "\\`calcFunc-\\(.+\\)\\'"
778 (symbol-name func))
779 (math-match-substring (symbol-name func) 1)
780 (symbol-name func))))
781 (list 'var
782 (intern base)
783 (intern (concat "var-" base))))
784 f))
785
786 ;;; Expand a function call using "lambda" notation.
787 (defun math-build-call (f args)
788 (if (eq (car-safe f) 'calcFunc-lambda)
789 (if (= (length args) (- (length f) 2))
790 (math-multi-subst (nth (1- (length f)) f) (cdr f) args)
791 (calc-record-why "*Wrong number of arguments" f)
792 (cons 'calcFunc-call (cons (math-calcFunc-to-var f) args)))
793 (if (and (eq f 'calcFunc-neg)
794 (= (length args) 1))
795 (list 'neg (car args))
796 (let ((func (assq f '( ( calcFunc-add . + )
797 ( calcFunc-sub . - )
798 ( calcFunc-mul . * )
799 ( calcFunc-div . / )
800 ( calcFunc-pow . ^ )
801 ( calcFunc-mod . % )
802 ( calcFunc-vconcat . | ) ))))
803 (if (and func (= (length args) 2))
804 (cons (cdr func) args)
805 (cons f args))))))
806
807 ;;; Do substitutions in parallel to avoid crosstalk.
808 (defun math-multi-subst (expr olds news)
809 (let ((args nil)
810 temp)
811 (while (and olds news)
812 (setq args (cons (cons (car olds) (car news)) args)
813 olds (cdr olds)
814 news (cdr news)))
815 (math-multi-subst-rec expr)))
816
817 (defun math-multi-subst-rec (expr)
818 (cond ((setq temp (assoc expr args)) (cdr temp))
819 ((Math-primp expr) expr)
820 ((and (eq (car expr) 'calcFunc-lambda) (> (length expr) 2))
821 (let ((new (list (car expr)))
822 (args args))
823 (while (cdr (setq expr (cdr expr)))
824 (setq new (cons (car expr) new))
825 (if (assoc (car expr) args)
826 (setq args (cons (cons (car expr) (car expr)) args))))
827 (nreverse (cons (math-multi-subst-rec (car expr)) new))))
828 (t
829 (cons (car expr)
830 (mapcar 'math-multi-subst-rec (cdr expr))))))
831
832 (defun calcFunc-call (f &rest args)
833 (setq args (math-build-call (math-var-to-calcFunc f) args))
834 (if (eq (car-safe args) 'calcFunc-call)
835 args
836 (math-normalize args)))
837
838 (defun calcFunc-apply (f args)
839 (or (Math-vectorp args)
840 (math-reject-arg args 'vectorp))
841 (apply 'calcFunc-call (cons f (cdr args))))
842
843
844
845
846 ;;; Map a function over a vector symbolically. [Public]
847 (defun math-symb-map (f mode args)
848 (let* ((func (math-var-to-calcFunc f))
849 (nargs (length args))
850 (ptrs (vconcat args))
851 (vflags (make-vector nargs nil))
852 (heads '(vec))
853 (head nil)
854 (vec nil)
855 (i -1)
856 (math-working-step 0)
857 (math-working-step-2 nil)
858 len cols obj expr)
859 (if (eq mode 'eqn)
860 (setq mode 'elems
861 heads '(calcFunc-eq calcFunc-neq calcFunc-lt calcFunc-gt
862 calcFunc-leq calcFunc-geq))
863 (while (and (< (setq i (1+ i)) nargs)
864 (not (math-matrixp (aref ptrs i)))))
865 (if (< i nargs)
866 (if (eq mode 'elems)
867 (setq func (list 'lambda '(&rest x)
868 (list 'math-symb-map
869 (list 'quote f) '(quote elems) 'x))
870 mode 'rows)
871 (if (eq mode 'cols)
872 (while (< i nargs)
873 (if (math-matrixp (aref ptrs i))
874 (aset ptrs i (math-transpose (aref ptrs i))))
875 (setq i (1+ i)))))
876 (setq mode 'elems))
877 (setq i -1))
878 (while (< (setq i (1+ i)) nargs)
879 (setq obj (aref ptrs i))
880 (if (and (memq (car-safe obj) heads)
881 (or (eq mode 'elems)
882 (math-matrixp obj)))
883 (progn
884 (aset vflags i t)
885 (if head
886 (if (cdr heads)
887 (setq head (nth
888 (aref (aref [ [0 1 2 3 4 5]
889 [1 1 2 3 2 3]
890 [2 2 2 1 2 1]
891 [3 3 1 3 1 3]
892 [4 2 2 1 4 1]
893 [5 3 1 3 1 5] ]
894 (- 6 (length (memq head heads))))
895 (- 6 (length (memq (car obj) heads))))
896 heads)))
897 (setq head (car obj)))
898 (if len
899 (or (= (length obj) len)
900 (math-dimension-error))
901 (setq len (length obj))))))
902 (or len
903 (if (= nargs 1)
904 (math-reject-arg (aref ptrs 0) 'vectorp)
905 (math-reject-arg nil "At least one argument must be a vector")))
906 (setq math-working-step-2 (1- len))
907 (while (> (setq len (1- len)) 0)
908 (setq expr nil
909 i -1)
910 (while (< (setq i (1+ i)) nargs)
911 (if (aref vflags i)
912 (progn
913 (aset ptrs i (cdr (aref ptrs i)))
914 (setq expr (nconc expr (list (car (aref ptrs i))))))
915 (setq expr (nconc expr (list (aref ptrs i))))))
916 (setq math-working-step (1+ math-working-step)
917 vec (cons (math-normalize (math-build-call func expr)) vec)))
918 (setq vec (cons head (nreverse vec)))
919 (if (and (eq mode 'cols) (math-matrixp vec))
920 (math-transpose vec)
921 vec)))
922
923 (defun calcFunc-map (func &rest args)
924 (math-symb-map func 'elems args))
925
926 (defun calcFunc-mapr (func &rest args)
927 (math-symb-map func 'rows args))
928
929 (defun calcFunc-mapc (func &rest args)
930 (math-symb-map func 'cols args))
931
932 (defun calcFunc-mapa (func arg)
933 (if (math-matrixp arg)
934 (math-symb-map func 'elems (cdr (math-transpose arg)))
935 (math-symb-map func 'elems arg)))
936
937 (defun calcFunc-mapd (func arg)
938 (if (math-matrixp arg)
939 (math-symb-map func 'elems (cdr arg))
940 (math-symb-map func 'elems arg)))
941
942 (defun calcFunc-mapeq (func &rest args)
943 (if (and (or (equal func '(var mul var-mul))
944 (equal func '(var div var-div)))
945 (= (length args) 2))
946 (if (math-negp (car args))
947 (let ((func (nth 1 (assq (car-safe (nth 1 args))
948 calc-tweak-eqn-table))))
949 (and func (setq args (list (car args)
950 (cons func (cdr (nth 1 args)))))))
951 (if (math-negp (nth 1 args))
952 (let ((func (nth 1 (assq (car-safe (car args))
953 calc-tweak-eqn-table))))
954 (and func (setq args (list (cons func (cdr (car args)))
955 (nth 1 args))))))))
956 (if (or (and (equal func '(var div var-div))
957 (assq (car-safe (nth 1 args)) calc-tweak-eqn-table))
958 (equal func '(var neg var-neg))
959 (equal func '(var inv var-inv)))
960 (apply 'calcFunc-mapeqr func args)
961 (apply 'calcFunc-mapeqp func args)))
962
963 (defun calcFunc-mapeqr (func &rest args)
964 (setq args (mapcar (function (lambda (x)
965 (let ((func (assq (car-safe x)
966 calc-tweak-eqn-table)))
967 (if func
968 (cons (nth 1 func) (cdr x))
969 x))))
970 args))
971 (apply 'calcFunc-mapeqp func args))
972
973 (defun calcFunc-mapeqp (func &rest args)
974 (if (or (and (memq (car-safe (car args)) '(calcFunc-lt calcFunc-leq))
975 (memq (car-safe (nth 1 args)) '(calcFunc-gt calcFunc-geq)))
976 (and (memq (car-safe (car args)) '(calcFunc-gt calcFunc-geq))
977 (memq (car-safe (nth 1 args)) '(calcFunc-lt calcFunc-leq))))
978 (setq args (cons (car args)
979 (cons (list (nth 1 (assq (car (nth 1 args))
980 calc-tweak-eqn-table))
981 (nth 2 (nth 1 args))
982 (nth 1 (nth 1 args)))
983 (cdr (cdr args))))))
984 (math-symb-map func 'eqn args))
985
986
987
988 ;;; Reduce a function over a vector symbolically. [Public]
989 (defun calcFunc-reduce (func vec)
990 (if (math-matrixp vec)
991 (let (expr row)
992 (setq func (math-var-to-calcFunc func))
993 (while (setq vec (cdr vec))
994 (setq row (car vec))
995 (while (setq row (cdr row))
996 (setq expr (if expr
997 (if (Math-numberp expr)
998 (math-normalize
999 (math-build-call func (list expr (car row))))
1000 (math-build-call func (list expr (car row))))
1001 (car row)))))
1002 (math-normalize expr))
1003 (calcFunc-reducer func vec)))
1004
1005 (defun calcFunc-rreduce (func vec)
1006 (if (math-matrixp vec)
1007 (let (expr row)
1008 (setq func (math-var-to-calcFunc func)
1009 vec (reverse (cdr vec)))
1010 (while vec
1011 (setq row (reverse (cdr (car vec))))
1012 (while row
1013 (setq expr (if expr
1014 (math-build-call func (list (car row) expr))
1015 (car row))
1016 row (cdr row)))
1017 (setq vec (cdr vec)))
1018 (math-normalize expr))
1019 (calcFunc-rreducer func vec)))
1020
1021 (defun calcFunc-reducer (func vec)
1022 (setq func (math-var-to-calcFunc func))
1023 (or (math-vectorp vec)
1024 (math-reject-arg vec 'vectorp))
1025 (let ((expr (car (setq vec (cdr vec)))))
1026 (if expr
1027 (progn
1028 (condition-case err
1029 (and (symbolp func)
1030 (let ((lfunc (or (cdr (assq func
1031 '( (calcFunc-add . math-add)
1032 (calcFunc-sub . math-sub)
1033 (calcFunc-mul . math-mul)
1034 (calcFunc-div . math-div)
1035 (calcFunc-pow . math-pow)
1036 (calcFunc-mod . math-mod)
1037 (calcFunc-vconcat .
1038 math-concat) )))
1039 lfunc)))
1040 (while (cdr vec)
1041 (setq expr (funcall lfunc expr (nth 1 vec))
1042 vec (cdr vec)))))
1043 (error nil))
1044 (while (setq vec (cdr vec))
1045 (setq expr (math-build-call func (list expr (car vec)))))
1046 (math-normalize expr))
1047 (or (math-identity-value func)
1048 (math-reject-arg vec "*Vector is empty")))))
1049
1050 (defun math-identity-value (func)
1051 (cdr (assq func '( (calcFunc-add . 0) (calcFunc-sub . 0)
1052 (calcFunc-mul . 1) (calcFunc-div . 1)
1053 (calcFunc-idiv . 1) (calcFunc-fdiv . 1)
1054 (calcFunc-min . (var inf var-inf))
1055 (calcFunc-max . (neg (var inf var-inf)))
1056 (calcFunc-vconcat . (vec))
1057 (calcFunc-append . (vec)) ))))
1058
1059 (defun calcFunc-rreducer (func vec)
1060 (setq func (math-var-to-calcFunc func))
1061 (or (math-vectorp vec)
1062 (math-reject-arg vec 'vectorp))
1063 (if (eq func 'calcFunc-sub) ; do this in a way that looks nicer
1064 (let ((expr (car (setq vec (cdr vec)))))
1065 (if expr
1066 (progn
1067 (while (setq vec (cdr vec))
1068 (setq expr (math-build-call func (list expr (car vec)))
1069 func (if (eq func 'calcFunc-sub)
1070 'calcFunc-add 'calcFunc-sub)))
1071 (math-normalize expr))
1072 0))
1073 (let ((expr (car (setq vec (reverse (cdr vec))))))
1074 (if expr
1075 (progn
1076 (while (setq vec (cdr vec))
1077 (setq expr (math-build-call func (list (car vec) expr))))
1078 (math-normalize expr))
1079 (or (math-identity-value func)
1080 (math-reject-arg vec "*Vector is empty"))))))
1081
1082 (defun calcFunc-reducec (func vec)
1083 (if (math-matrixp vec)
1084 (calcFunc-reducer func (math-transpose vec))
1085 (calcFunc-reducer func vec)))
1086
1087 (defun calcFunc-rreducec (func vec)
1088 (if (math-matrixp vec)
1089 (calcFunc-rreducer func (math-transpose vec))
1090 (calcFunc-rreducer func vec)))
1091
1092 (defun calcFunc-reducea (func vec)
1093 (if (math-matrixp vec)
1094 (cons 'vec
1095 (mapcar (function (lambda (x) (calcFunc-reducer func x)))
1096 (cdr vec)))
1097 (calcFunc-reducer func vec)))
1098
1099 (defun calcFunc-rreducea (func vec)
1100 (if (math-matrixp vec)
1101 (cons 'vec
1102 (mapcar (function (lambda (x) (calcFunc-rreducer func x)))
1103 (cdr vec)))
1104 (calcFunc-rreducer func vec)))
1105
1106 (defun calcFunc-reduced (func vec)
1107 (if (math-matrixp vec)
1108 (cons 'vec
1109 (mapcar (function (lambda (x) (calcFunc-reducer func x)))
1110 (cdr (math-transpose vec))))
1111 (calcFunc-reducer func vec)))
1112
1113 (defun calcFunc-rreduced (func vec)
1114 (if (math-matrixp vec)
1115 (cons 'vec
1116 (mapcar (function (lambda (x) (calcFunc-rreducer func x)))
1117 (cdr (math-transpose vec))))
1118 (calcFunc-rreducer func vec)))
1119
1120 (defun calcFunc-accum (func vec)
1121 (setq func (math-var-to-calcFunc func))
1122 (or (math-vectorp vec)
1123 (math-reject-arg vec 'vectorp))
1124 (let* ((expr (car (setq vec (cdr vec))))
1125 (res (list 'vec expr)))
1126 (or expr
1127 (math-reject-arg vec "*Vector is empty"))
1128 (while (setq vec (cdr vec))
1129 (setq expr (math-build-call func (list expr (car vec)))
1130 res (nconc res (list expr))))
1131 (math-normalize res)))
1132
1133 (defun calcFunc-raccum (func vec)
1134 (setq func (math-var-to-calcFunc func))
1135 (or (math-vectorp vec)
1136 (math-reject-arg vec 'vectorp))
1137 (let* ((expr (car (setq vec (reverse (cdr vec)))))
1138 (res (list expr)))
1139 (or expr
1140 (math-reject-arg vec "*Vector is empty"))
1141 (while (setq vec (cdr vec))
1142 (setq expr (math-build-call func (list (car vec) expr))
1143 res (cons (list expr) res)))
1144 (math-normalize (cons 'vec res))))
1145
1146
1147 (defun math-nest-calls (func base iters accum tol)
1148 (or (symbolp tol)
1149 (if (math-realp tol)
1150 (or (math-numberp base) (math-reject-arg base 'numberp))
1151 (math-reject-arg tol 'realp)))
1152 (setq func (math-var-to-calcFunc func))
1153 (or (null iters)
1154 (if (equal iters '(var inf var-inf))
1155 (setq iters nil)
1156 (progn
1157 (if (math-messy-integerp iters)
1158 (setq iters (math-trunc iters)))
1159 (or (integerp iters) (math-reject-arg iters 'fixnump))
1160 (or (not tol) (natnump iters) (math-reject-arg iters 'fixnatnump))
1161 (if (< iters 0)
1162 (let* ((dummy '(var DummyArg var-DummyArg))
1163 (dummy2 '(var DummyArg2 var-DummyArg2))
1164 (finv (math-solve-for (math-build-call func (list dummy2))
1165 dummy dummy2 nil)))
1166 (or finv (math-reject-arg nil "*Unable to find an inverse"))
1167 (if (and (= (length finv) 2)
1168 (equal (nth 1 finv) dummy))
1169 (setq func (car finv))
1170 (setq func (list 'calcFunc-lambda dummy finv)))
1171 (setq iters (- iters)))))))
1172 (math-with-extra-prec 1
1173 (let ((value base)
1174 (ovalue nil)
1175 (avalues (list base))
1176 (math-working-step 0)
1177 (math-working-step-2 iters))
1178 (while (and (or (null iters)
1179 (>= (setq iters (1- iters)) 0))
1180 (or (null tol)
1181 (null ovalue)
1182 (if (eq tol t)
1183 (not (if (and (Math-numberp value)
1184 (Math-numberp ovalue))
1185 (math-nearly-equal value ovalue)
1186 (Math-equal value ovalue)))
1187 (if (math-numberp value)
1188 (Math-lessp tol (math-abs (math-sub value ovalue)))
1189 (math-reject-arg value 'numberp)))))
1190 (setq ovalue value
1191 math-working-step (1+ math-working-step)
1192 value (math-normalize (math-build-call func (list value))))
1193 (if accum
1194 (setq avalues (cons value avalues))))
1195 (if accum
1196 (cons 'vec (nreverse avalues))
1197 value))))
1198
1199 (defun calcFunc-nest (func base iters)
1200 (math-nest-calls func base iters nil nil))
1201
1202 (defun calcFunc-anest (func base iters)
1203 (math-nest-calls func base iters t nil))
1204
1205 (defun calcFunc-fixp (func base &optional iters tol)
1206 (math-nest-calls func base iters nil (or tol t)))
1207
1208 (defun calcFunc-afixp (func base &optional iters tol)
1209 (math-nest-calls func base iters t (or tol t)))
1210
1211
1212 (defun calcFunc-outer (func a b)
1213 (or (math-vectorp a) (math-reject-arg a 'vectorp))
1214 (or (math-vectorp b) (math-reject-arg b 'vectorp))
1215 (setq func (math-var-to-calcFunc func))
1216 (let ((mat nil))
1217 (while (setq a (cdr a))
1218 (setq mat (cons (cons 'vec
1219 (mapcar (function (lambda (x)
1220 (math-build-call func
1221 (list (car a)
1222 x))))
1223 (cdr b)))
1224 mat)))
1225 (math-normalize (cons 'vec (nreverse mat)))))
1226
1227
1228 (defun calcFunc-inner (mul-func add-func a b)
1229 (or (math-vectorp a) (math-reject-arg a 'vectorp))
1230 (or (math-vectorp b) (math-reject-arg b 'vectorp))
1231 (if (math-matrixp a)
1232 (if (math-matrixp b)
1233 (if (= (length (nth 1 a)) (length b))
1234 (math-inner-mats a b)
1235 (math-dimension-error))
1236 (if (= (length (nth 1 a)) 2)
1237 (if (= (length a) (length b))
1238 (math-inner-mats a (list 'vec b))
1239 (math-dimension-error))
1240 (if (= (length (nth 1 a)) (length b))
1241 (math-mat-col (math-inner-mats a (math-col-matrix b))
1242 1)
1243 (math-dimension-error))))
1244 (if (math-matrixp b)
1245 (nth 1 (math-inner-mats (list 'vec a) b))
1246 (calcFunc-reduce add-func (calcFunc-map mul-func a b)))))
1247
1248 (defun math-inner-mats (a b)
1249 (let ((mat nil)
1250 (cols (length (nth 1 b)))
1251 row col ap bp accum)
1252 (while (setq a (cdr a))
1253 (setq col cols
1254 row nil)
1255 (while (> (setq col (1- col)) 0)
1256 (setq row (cons (calcFunc-reduce add-func
1257 (calcFunc-map mul-func
1258 (car a)
1259 (math-mat-col b col)))
1260 row)))
1261 (setq mat (cons (cons 'vec row) mat)))
1262 (cons 'vec (nreverse mat))))
1263
1264 ;;; calc-map.el ends here
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