1 ;;; calc-aent.el --- algebraic entry functions for Calc
3 ;; Copyright (C) 1990-1993, 2001-2014 Free Software Foundation, Inc.
5 ;; Author: Dave Gillespie <daveg@synaptics.com>
6 ;; Maintainer: Jay Belanger <jay.p.belanger@gmail.com>
8 ;; This file is part of GNU Emacs.
10 ;; GNU Emacs is free software: you can redistribute it and/or modify
11 ;; it under the terms of the GNU General Public License as published by
12 ;; the Free Software Foundation, either version 3 of the License, or
13 ;; (at your option) any later version.
15 ;; GNU Emacs is distributed in the hope that it will be useful,
16 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
17 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
18 ;; GNU General Public License for more details.
20 ;; You should have received a copy of the GNU General Public License
21 ;; along with GNU Emacs. If not, see <http://www.gnu.org/licenses/>.
27 ;; This file is autoloaded from calc.el.
32 ;; Declare functions which are defined elsewhere.
33 (declare-function calc-refresh-evaltos "calc-ext" (&optional which-var))
34 (declare-function calc-execute-kbd-macro "calc-prog" (mac arg &rest prefix))
35 (declare-function math-is-true "calc-ext" (expr))
36 (declare-function calc-explain-why "calc-stuff" (why &optional more))
37 (declare-function calc-alg-edit "calc-yank" (str))
38 (declare-function math-composite-inequalities "calc-prog" (x op))
39 (declare-function math-flatten-lands "calc-rewr" (expr))
40 (declare-function math-multi-subst "calc-map" (expr olds news))
41 (declare-function calcFunc-vmatches "calc-rewr" (expr pat))
42 (declare-function math-simplify "calc-alg" (top-expr))
43 (declare-function math-known-matrixp "calc-arith" (a))
44 (declare-function math-parse-fortran-subscr "calc-lang" (sym args))
45 (declare-function math-to-radians-2 "calc-math" (a &optional force-symbolic))
46 (declare-function math-read-string "calc-ext" ())
47 (declare-function math-read-brackets "calc-vec" (space-sep math-rb-close))
48 (declare-function math-read-angle-brackets "calc-forms" ())
49 (declare-function math-to-percentsigns "calccomp" (x))
51 (defvar calc-quick-calc-history nil
52 "The history list for quick-calc.")
55 (defun calc-do-quick-calc ()
58 (if (eq major-mode 'calc-mode)
59 (calc-algebraic-entry t)
63 (let* ((calc-command-flags nil)
64 (calc-dollar-values calc-quick-prev-results)
66 (enable-recursive-minibuffers t)
67 (calc-language (if (memq calc-language '(nil big))
69 (entry (calc-do-alg-entry "" "Quick calc: " t 'calc-quick-calc-history))
70 (alg-exp (mapcar 'math-evaluate-expr entry)))
71 (when (and (= (length alg-exp) 1)
72 (eq (car-safe (car alg-exp)) 'calcFunc-assign)
73 (= (length (car alg-exp)) 3)
74 (eq (car-safe (nth 1 (car alg-exp))) 'var))
75 (set (nth 2 (nth 1 (car alg-exp))) (nth 2 (car alg-exp)))
76 (calc-refresh-evaltos (nth 2 (nth 1 (car alg-exp))))
77 (setq alg-exp (list (nth 2 (car alg-exp)))))
78 (setq calc-quick-prev-results alg-exp
79 buf (mapconcat (function (lambda (x)
80 (math-format-value x 1000)))
84 (if (and (= (length alg-exp) 1)
85 (memq (car-safe (car alg-exp)) '(nil bigpos bigneg))
87 (= calc-number-radix 10))
88 (setq buf (concat buf " ("
89 (let ((calc-number-radix 16))
90 (math-format-value (car alg-exp) 1000))
92 (let ((calc-number-radix 8))
93 (math-format-value (car alg-exp) 1000))
95 (let ((calc-number-radix 2))
96 (math-format-value (car alg-exp) 1000))
97 (if (and (integerp (car alg-exp))
99 (< (car alg-exp) 127))
100 (format ", \"%c\"" (car alg-exp))
103 (if (and (< (length buf) (frame-width)) (= (length entry) 1)
104 (featurep 'calc-ext))
105 (let ((long (concat (math-format-value (car entry) 1000)
107 (if (<= (length long) (- (frame-width) 8))
110 (message "Result: %s" buf)))
111 (if (eq last-command-event 10)
113 (kill-new shortbuf)))))
116 (defun calc-do-calc-eval (str separator args)
122 ((and (consp str) (not (symbolp (car str))))
123 (let ((calc-language nil)
124 (math-expr-opers (math-standard-ops))
125 (calc-internal-prec 12)
127 (calc-symbolic-mode nil)
128 (calc-matrix-mode nil)
129 (calc-angle-mode 'deg)
130 (calc-number-radix 10)
131 (calc-twos-complement-mode nil)
132 (calc-leading-zeros nil)
133 (calc-group-digits nil)
134 (calc-point-char ".")
135 (calc-frac-format '(":" nil))
136 (calc-prefer-frac nil)
137 (calc-hms-format "%s@ %s' %s\"")
138 (calc-date-format '((H ":" mm C SS pp " ")
139 Www " " Mmm " " D ", " YYYY))
140 (calc-float-format '(float 0))
141 (calc-full-float-format '(float 0))
142 (calc-complex-format nil)
143 (calc-matrix-just nil)
144 (calc-full-vectors t)
145 (calc-break-vectors nil)
146 (calc-vector-commas ",")
147 (calc-vector-brackets "[]")
148 (calc-matrix-brackets '(R O))
149 (calc-complex-mode 'cplx)
150 (calc-infinite-mode nil)
151 (calc-display-strings nil)
152 (calc-simplify-mode nil)
153 (calc-display-working-message 'lots)
156 (set (car strp) (nth 1 strp))
157 (setq strp (cdr (cdr strp))))
158 (calc-do-calc-eval (car str) separator args)))
159 ((eq separator 'eval)
161 ((eq separator 'macro)
163 (let* ((calc-buffer (current-buffer))
164 (calc-window (get-buffer-window calc-buffer))
165 (save-window (selected-window)))
169 (select-window calc-window)
170 (calc-execute-kbd-macro str nil (car args)))
171 (and (window-point save-window)
172 (select-window save-window)))
173 (save-window-excursion
174 (select-window (get-largest-window))
175 (switch-to-buffer calc-buffer)
176 (calc-execute-kbd-macro str nil (car args)))))
179 (or (not (integerp str))
181 (calc-pop (min str (calc-stack-size))))
186 (<= str (calc-stack-size))
187 (math-format-value (calc-top-n str (car args)) 1000)))
188 ((eq separator 'rawtop)
191 (<= str (calc-stack-size))
192 (calc-top-n str (car args))))
194 (let* ((calc-command-flags nil)
196 (calc-language (if (memq calc-language '(nil big))
197 'flat calc-language))
198 (calc-dollar-values (mapcar
203 (setq x (math-read-exprs x))
213 (res (if (stringp str)
214 (math-read-exprs str)
217 (if (eq (car res) 'error)
218 (calc-eval-error (cdr res))
219 (setq res (mapcar 'calc-normalize res))
220 (and (memq 'clear-message calc-command-flags)
222 (cond ((eq separator 'pred)
224 (if (= (length res) 1)
225 (math-is-true (car res))
226 (calc-eval-error '(0 "Single value expected"))))
228 (if (= (length res) 1)
230 (calc-eval-error '(0 "Single value expected"))))
231 ((eq separator 'list)
233 ((memq separator '(num rawnum))
234 (if (= (length res) 1)
235 (if (math-constp (car res))
236 (if (eq separator 'num)
237 (math-format-value (car res) 1000)
242 (calc-explain-why (car calc-next-why))
243 "Number expected"))))
244 (calc-eval-error '(0 "Single value expected"))))
245 ((eq separator 'push)
249 (setq buf (concat buf
250 (and buf (or separator ", "))
251 (math-format-value (car res) 1000))
255 (defvar calc-eval-error nil
256 "Determines how calc handles errors.
257 If nil, return a list containing the character position of error.
258 STRING means return error message as string rather than list.
259 The value t means abort and give an error message.")
261 (defun calc-eval-error (msg)
263 (if (eq calc-eval-error 'string)
265 (error "%s" (nth 1 msg)))
269 ;;;; Reading an expression in algebraic form.
272 (defun calc-auto-algebraic-entry (&optional prefix)
274 (calc-algebraic-entry prefix t))
277 (defun calc-algebraic-entry (&optional prefix auto)
280 (let ((calc-language (if prefix nil calc-language))
281 (math-expr-opers (if prefix (math-standard-ops) (math-expr-ops))))
282 (calc-alg-entry (and auto (char-to-string last-command-event))))))
284 (defvar calc-alg-entry-history nil
285 "History for algebraic entry.")
288 (defun calc-alg-entry (&optional initial prompt)
289 (let* ((calc-dollar-values (mapcar #'calc-get-stack-element
290 (nthcdr calc-stack-top calc-stack)))
293 (alg-exp (calc-do-alg-entry initial prompt t 'calc-alg-entry-history)))
294 (if (stringp alg-exp)
297 (calc-alg-edit alg-exp))
298 (let* ((calc-simplify-mode (if (eq last-command-event ?\C-j)
301 (nvals (mapcar 'calc-normalize alg-exp)))
303 (calc-record (if (featurep 'calc-ext) (car alg-exp) (car nvals))
305 (calc-pop-push-record-list calc-dollar-used
306 (and (not (equal (car alg-exp)
311 (setq alg-exp (cdr alg-exp)
313 calc-dollar-used 0)))
314 (calc-handle-whys))))
316 (defvar calc-alg-ent-map
317 (let ((map (make-sparse-keymap)))
318 (set-keymap-parent map minibuffer-local-map)
319 (define-key map "'" 'calcAlg-previous)
320 (define-key map "`" 'calcAlg-edit)
321 (define-key map "\C-m" 'calcAlg-enter)
322 (define-key map "\C-j" 'calcAlg-enter)
324 "The keymap used for algebraic entry.")
326 (defvar calc-alg-ent-esc-map
327 (let ((map (make-keymap))
329 (set-keymap-parent map esc-map)
331 (define-key map (vector i) 'calcAlg-escape)
334 "The keymap used for escapes in algebraic entry.")
336 (defvar calc-alg-exp)
339 (defun calc-do-alg-entry (&optional initial prompt no-normalize history)
340 (let* ((calc-buffer (current-buffer))
341 (blink-matching-check-function 'calcAlg-blink-matching-check)
342 (calc-alg-exp 'error))
343 (define-key calc-alg-ent-map "\e" nil)
344 (if (eq calc-algebraic-mode 'total)
345 (define-key calc-alg-ent-map "\e" calc-alg-ent-esc-map)
346 (define-key calc-alg-ent-map "\e+" 'calcAlg-plus-minus)
347 (define-key calc-alg-ent-map "\em" 'calcAlg-mod)
348 (define-key calc-alg-ent-map "\e=" 'calcAlg-equals)
349 (define-key calc-alg-ent-map "\e\r" 'calcAlg-equals)
350 (define-key calc-alg-ent-map "\ep" 'previous-history-element)
351 (define-key calc-alg-ent-map "\en" 'next-history-element)
352 (define-key calc-alg-ent-map "\e%" 'self-insert-command))
353 (setq calc-aborted-prefix nil)
354 (let ((buf (read-from-minibuffer (or prompt "Algebraic: ")
356 calc-alg-ent-map nil history)))
357 (when (eq calc-alg-exp 'error)
358 (when (eq (car-safe (setq calc-alg-exp (math-read-exprs buf))) 'error)
359 (setq calc-alg-exp nil)))
360 (setq calc-aborted-prefix "alg'")
362 (and calc-alg-exp (setq calc-alg-exp (mapcar 'calc-normalize calc-alg-exp))))
365 (defun calcAlg-plus-minus ()
367 (if (calc-minibuffer-contains ".* \\'")
371 (defun calcAlg-mod ()
373 (if (not (calc-minibuffer-contains ".* \\'"))
375 (if (calc-minibuffer-contains ".* mod +\\'")
376 (if calc-previous-modulo
377 (insert (math-format-flat-expr calc-previous-modulo 0))
381 (defun calcAlg-previous ()
383 (if (calc-minibuffer-contains "\\'")
384 (previous-history-element 1)
387 (defun calcAlg-equals ()
391 (if (consp calc-alg-exp)
392 (progn (setq prefix-arg (length calc-alg-exp))
393 (calc-unread-command ?=)))))
395 (defun calcAlg-escape ()
397 (calc-unread-command)
400 (use-local-map calc-mode-map))
403 (defvar calc-plain-entry nil)
404 (defun calcAlg-edit ()
406 (if (or (not calc-plain-entry)
407 (calc-minibuffer-contains
408 "\\`\\([^\"]*\"[^\"]*\"\\)*[^\"]*\"[^\"]*\\'"))
410 (setq calc-alg-exp (minibuffer-contents))
415 (defun calcAlg-enter ()
417 (let* ((str (minibuffer-contents))
418 (exp (and (> (length str) 0)
419 (with-current-buffer calc-buffer
420 (math-read-exprs str)))))
421 (if (eq (car-safe exp) 'error)
423 (goto-char (minibuffer-prompt-end))
424 (forward-char (nth 1 exp))
426 (calc-temp-minibuffer-message
427 (concat " [" (or (nth 2 exp) "Error") "]"))
428 (calc-clear-unread-commands))
429 (setq calc-alg-exp (if (calc-minibuffer-contains "\\` *\\[ *\\'")
434 (defun calcAlg-blink-matching-check (leftpt rightpt)
435 (let ((rightchar (char-before rightpt))
436 (leftchar (if leftpt (char-after leftpt))))
438 (or (and (= rightchar ?\))
440 (and (= rightchar ?\])
444 (looking-at ".+\\(\\.\\.\\|\\\\dots\\|\\\\ldots\\)")))
445 ;; [2..5) perfectly valid!
447 (blink-matching-check-mismatch leftpt rightpt))))
450 (defun calc-alg-digit-entry ()
452 (cond ((eq last-command-event ?e)
453 (if (> calc-number-radix 14) (format "%d.^" calc-number-radix) "1e"))
454 ((eq last-command-event ?#) (format "%d#" calc-number-radix))
455 ((eq last-command-event ?_) "-")
456 ((eq last-command-event ?@) "0@ ")
457 (t (char-to-string last-command-event)))))
459 ;; The variable calc-digit-value is initially declared in calc.el,
460 ;; but can be set by calcDigit-algebraic and calcDigit-edit.
461 (defvar calc-digit-value)
464 (defun calcDigit-algebraic ()
466 (if (calc-minibuffer-contains ".*[@oh] *[^'m ]+[^'m]*\\'")
468 (setq calc-digit-value (minibuffer-contents))
472 (defun calcDigit-edit ()
474 (calc-unread-command)
475 (setq calc-digit-value (minibuffer-contents))
479 ;;; Algebraic expression parsing. [Public]
481 (defvar math-read-replacement-list
483 ("±" "+/-") ; plus or minus
484 ("×" "*") ; multiplication sign
485 ("÷" ":") ; division sign
486 ("−" "-") ; subtraction sign
487 ("∕" "/") ; division sign
488 ("∗" "*") ; asterisk multiplication
489 ("∞" "inf") ; infinity symbol
544 "A list whose elements (old new) indicate replacements to make
545 in Calc algebraic input.")
547 (defvar math-read-superscripts
548 "⁰¹²³⁴⁵⁶⁷⁸⁹⁺⁻⁽⁾ⁿⁱ" ; 0123456789+-()ni
549 "A string consisting of the superscripts allowed by Calc.")
551 (defvar math-read-subscripts
552 "₀₁₂₃₄₅₆₇₈₉₊₋₍₎" ; 0123456789+-()
553 "A string consisting of the subscripts allowed by Calc.")
556 (defun math-read-preprocess-string (str)
557 "Replace some substrings of STR by Calc equivalents."
559 (replace-regexp-in-string (concat "[" math-read-superscripts "]+")
562 (replace-regexp-in-string (concat "[" math-read-subscripts "]+")
564 (let ((rep-list math-read-replacement-list))
567 (replace-regexp-in-string (nth 0 (car rep-list))
568 (nth 1 (car rep-list)) str))
569 (setq rep-list (cdr rep-list))))
572 ;; The next few variables are local to math-read-exprs (and math-read-expr
573 ;; in calc-ext.el), but are set in functions they call.
575 (defvar math-exp-pos)
576 (defvar math-exp-str)
577 (defvar math-exp-old-pos)
578 (defvar math-exp-token)
579 (defvar math-exp-keep-spaces)
580 (defvar math-expr-data)
583 (defun math-read-exprs (math-exp-str)
584 (let ((math-exp-pos 0)
586 (math-exp-keep-spaces nil)
587 math-exp-token math-expr-data)
588 (setq math-exp-str (math-read-preprocess-string math-exp-str))
589 (if (memq calc-language calc-lang-allow-percentsigns)
590 (setq math-exp-str (math-remove-percentsigns math-exp-str)))
591 (if calc-language-input-filter
592 (setq math-exp-str (funcall calc-language-input-filter math-exp-str)))
593 (while (setq math-exp-token
594 (string-match "\\.\\.\\([^.]\\|.[^.]\\)" math-exp-str))
596 (concat (substring math-exp-str 0 math-exp-token) "\\dots"
597 (substring math-exp-str (+ math-exp-token 2)))))
598 (math-build-parse-table)
600 (let ((val (catch 'syntax (math-read-expr-list))))
602 (list 'error math-exp-old-pos val)
603 (if (equal math-exp-token 'end)
605 (list 'error math-exp-old-pos "Syntax error"))))))
608 (defun math-read-expr-list ()
609 (let* ((math-exp-keep-spaces nil)
610 (val (list (math-read-expr-level 0)))
612 (while (equal math-expr-data ",")
614 (let ((rest (list (math-read-expr-level 0))))
619 (defvar calc-user-parse-table nil)
620 (defvar calc-last-main-parse-table nil)
621 (defvar calc-last-user-lang-parse-table nil)
622 (defvar calc-last-lang-parse-table nil)
623 (defvar calc-user-tokens nil)
624 (defvar calc-user-token-chars nil)
626 (defvar math-toks nil
627 "Tokens to pass between math-build-parse-table and math-find-user-tokens.")
630 (defun math-build-parse-table ()
631 (let ((mtab (cdr (assq nil calc-user-parse-tables)))
632 (ltab (cdr (assq calc-language calc-user-parse-tables)))
633 (lltab (get calc-language 'math-parse-table)))
634 (or (and (eq mtab calc-last-main-parse-table)
635 (eq ltab calc-last-user-lang-parse-table)
636 (eq lltab calc-last-lang-parse-table))
637 (let ((p (append mtab ltab lltab))
639 (setq calc-user-parse-table p)
640 (setq calc-user-token-chars nil)
642 (math-find-user-tokens (car (car p)))
644 (setq calc-user-tokens (mapconcat 'identity
645 (sort (mapcar 'car math-toks)
646 (function (lambda (x y)
650 calc-last-main-parse-table mtab
651 calc-last-user-lang-parse-table ltab
652 calc-last-lang-parse-table lltab)))))
655 (defun math-find-user-tokens (p)
657 (cond ((and (stringp (car p))
658 (or (> (length (car p)) 1) (equal (car p) "$")
659 (equal (car p) "\""))
660 (string-match "[^a-zA-Zα-ωΑ-Ω0-9]" (car p)))
661 (let ((s (regexp-quote (car p))))
662 (if (string-match "\\`[a-zA-Zα-ωΑ-Ω0-9]" s)
663 (setq s (concat "\\<" s)))
664 (if (string-match "[a-zA-Zα-ωΑ-Ω0-9]\\'" s)
665 (setq s (concat s "\\>")))
666 (or (assoc s math-toks)
668 (setq math-toks (cons (list s) math-toks))
669 (or (memq (aref (car p) 0) calc-user-token-chars)
670 (setq calc-user-token-chars
671 (cons (aref (car p) 0)
672 calc-user-token-chars)))))))
674 (math-find-user-tokens (nth 1 (car p)))
675 (or (eq (car (car p)) '\?)
676 (math-find-user-tokens (nth 2 (car p))))))
680 (defun math-read-token ()
681 (if (>= math-exp-pos (length math-exp-str))
682 (setq math-exp-old-pos math-exp-pos
684 math-expr-data "\000")
686 (ch (aref math-exp-str math-exp-pos)))
687 (setq math-exp-old-pos math-exp-pos)
688 (cond ((memq ch '(32 10 9))
689 (setq math-exp-pos (1+ math-exp-pos))
690 (if math-exp-keep-spaces
691 (setq math-exp-token 'space
694 ((and (memq ch calc-user-token-chars)
695 (let ((case-fold-search nil))
697 calc-user-tokens math-exp-str math-exp-pos)
699 (setq math-exp-token 'punc
700 math-expr-data (math-match-substring math-exp-str 0)
701 math-exp-pos (match-end 0)))
702 ((or (and (>= ch ?a) (<= ch ?z))
703 (and (>= ch ?A) (<= ch ?Z))
704 (and (>= ch ?α) (<= ch ?ω))
705 (and (>= ch ?Α) (<= ch ?Ω)))
708 ((and (memq calc-language calc-lang-allow-underscores)
709 (memq calc-language calc-lang-allow-percentsigns))
710 "[a-zA-Zα-ωΑ-Ω0-9_'#]*")
711 ((memq calc-language calc-lang-allow-underscores)
712 "[a-zA-Zα-ωΑ-Ω0-9_#]*")
713 (t "[a-zA-Zα-ωΑ-Ω0-9'#]*"))
714 math-exp-str math-exp-pos)
715 (setq math-exp-token 'symbol
716 math-exp-pos (match-end 0)
717 math-expr-data (math-restore-dashes
718 (math-match-substring math-exp-str 0)))
719 (if (setq adfn (get calc-language 'math-lang-adjust-words))
721 ((or (and (>= ch ?0) (<= ch ?9))
723 (eq (string-match "\\.[0-9]" math-exp-str math-exp-pos)
726 (eq (string-match "_\\.?[0-9]" math-exp-str math-exp-pos)
728 (or (eq math-exp-pos 0)
729 (and (not (memq calc-language
730 calc-lang-allow-underscores))
731 (eq (string-match "[^])}\"a-zA-Zα-ωΑ-Ω0-9'$]_"
732 math-exp-str (1- math-exp-pos))
733 (1- math-exp-pos))))))
734 (or (and (memq calc-language calc-lang-c-type-hex)
735 (string-match "0[xX][0-9a-fA-F]+" math-exp-str math-exp-pos))
736 (string-match "_?\\([0-9]+.?0*@ *\\)?\\([0-9]+.?0*' *\\)?\\(0*\\([2-9]\\|1[0-4]\\)\\(#[#]?\\|\\^\\^\\)[0-9a-dA-D.]+[eE][-+_]?[0-9]+\\|0*\\([2-9]\\|[0-2][0-9]\\|3[0-6]\\)\\(#[#]?\\|\\^\\^\\)[0-9a-zA-Zα-ωΑ-Ω:.]+\\|[0-9]+:[0-9:]+\\|[0-9.]+\\([eE][-+_]?[0-9]+\\)?\"?\\)?"
737 math-exp-str math-exp-pos))
738 (setq math-exp-token 'number
739 math-expr-data (math-match-substring math-exp-str 0)
740 math-exp-pos (match-end 0)))
742 (assq ch (get calc-language 'math-lang-read-symbol)))
746 (if (eq (string-match "\\$\\([1-9][0-9]*\\)" math-exp-str math-exp-pos)
748 (setq math-expr-data (- (string-to-number (math-match-substring
750 (string-match "\\$+" math-exp-str math-exp-pos)
751 (setq math-expr-data (- (match-end 0) (match-beginning 0))))
752 (setq math-exp-token 'dollar
753 math-exp-pos (match-end 0)))
755 (if (eq (string-match "#\\([1-9][0-9]*\\)" math-exp-str math-exp-pos)
757 (setq math-expr-data (string-to-number
758 (math-match-substring math-exp-str 1))
759 math-exp-pos (match-end 0))
760 (setq math-expr-data 1
761 math-exp-pos (1+ math-exp-pos)))
762 (setq math-exp-token 'hash))
763 ((eq (string-match "~=\\|<=\\|>=\\|<>\\|/=\\|\\+/-\\|\\\\dots\\|\\\\ldots\\|\\*\\*\\|<<\\|>>\\|==\\|!=\\|&&&\\||||\\|!!!\\|&&\\|||\\|!!\\|:=\\|::\\|=>"
764 math-exp-str math-exp-pos)
766 (setq math-exp-token 'punc
767 math-expr-data (math-match-substring math-exp-str 0)
768 math-exp-pos (match-end 0)))
770 (string-match "\\(\"\\([^\"\\]\\|\\\\.\\)*\\)\\(\"\\|\\'\\)"
771 math-exp-str math-exp-pos))
772 (setq math-exp-token 'string
773 math-expr-data (math-match-substring math-exp-str 1)
774 math-exp-pos (match-end 0)))
775 ((and (setq adfn (get calc-language 'math-lang-read))
777 (eval (nth 1 adfn))))
778 ((eq (string-match "%%.*$" math-exp-str math-exp-pos) math-exp-pos)
779 (setq math-exp-pos (match-end 0))
782 (if (setq adfn (assq ch (get calc-language 'math-punc-table)))
783 (setq ch (cdr adfn)))
784 (setq math-exp-token 'punc
785 math-expr-data (char-to-string ch)
786 math-exp-pos (1+ math-exp-pos)))))))
788 (defconst math-alg-inequalities
789 '(calcFunc-lt calcFunc-gt calcFunc-leq calcFunc-geq
790 calcFunc-eq calcFunc-neq))
792 (defun math-read-expr-level (exp-prec &optional exp-term)
793 (let* ((math-expr-opers (math-expr-ops))
794 (x (math-read-factor))
797 (while (and (or (and calc-user-parse-table
798 (setq op (calc-check-user-syntax x exp-prec))
800 op '("2x" ident 999999 -1)))
801 (and (setq op (assoc math-expr-data math-expr-opers))
803 (or (and (setq op2 (assoc
805 (cdr (memq op math-expr-opers))))
806 (eq (= (nth 3 op) -1)
808 (eq (= (nth 3 op2) -1)
809 (not (math-factor-after)))
812 (and (or (eq (nth 2 op) -1)
813 (memq math-exp-token '(symbol number dollar hash))
814 (equal math-expr-data "(")
815 (and (equal math-expr-data "[")
818 'math-function-open) "["))
819 (not (and math-exp-keep-spaces
820 (eq (car-safe x) 'vec)))))
821 (or (not (setq op (assoc math-expr-data math-expr-opers)))
823 (or (not calc-user-parse-table)
824 (not (eq math-exp-token 'symbol))
825 (let ((p calc-user-parse-table))
828 (car (car (car p)))))
830 (nth 1 (car (car p)))
834 (setq op (assoc "2x" math-expr-opers))))
835 (not (and exp-term (equal math-expr-data exp-term)))
836 (>= (nth 2 op) exp-prec))
837 (if (not (equal (car op) "2x"))
839 (and (memq (nth 1 op) '(sdev mod))
841 (setq x (cond ((consp (nth 1 op))
842 (funcall (car (nth 1 op)) x op))
844 (if (eq (nth 1 op) 'ident)
846 (if (eq (nth 1 op) 'closing)
847 (if (eq (nth 2 op) exp-prec)
851 (throw 'syntax "Mismatched delimiters"))
852 (list (nth 1 op) x))))
854 (memq (nth 1 op) math-alg-inequalities)
855 (memq (car-safe x) math-alg-inequalities))
857 (math-composite-inequalities x op))
860 (math-read-expr-level (nth 3 op) exp-term))))
864 ;; calc-arg-values is defined in calc-ext.el, but is used here.
865 (defvar calc-arg-values)
868 (defun calc-check-user-syntax (&optional x prec)
869 (let ((p calc-user-parse-table)
874 (setq rule (car (car p)))
876 (and (integerp (car rule))
878 (equal math-expr-data
879 (car (setq rule (cdr rule)))))
880 (equal math-expr-data (car rule)))))
881 (let ((save-exp-pos math-exp-pos)
882 (save-exp-old-pos math-exp-old-pos)
883 (save-exp-token math-exp-token)
884 (save-exp-data math-expr-data))
886 (setq matches (calc-match-user-syntax rule))))
893 (setq matches (cons x matches)))
894 (setq match (cdr (car p)))
895 (while (and (eq (car-safe match)
897 (= (length match) 3))
898 (setq conds (append (math-flatten-lands
901 match (nth 1 match)))
902 (while (and conds match)
904 (cond ((eq (car-safe (car conds))
906 (setq temp (car conds))
907 (or (= (length temp) 3)
908 (and (= (length temp) 2)
909 (eq (car-safe (nth 1 temp))
911 (= (length (nth 1 temp)) 3)
912 (setq temp (nth 1 temp)))
920 args (cons (nth 1 temp)
922 ((and (eq (car-safe (car conds))
924 (= (length (car conds)) 3))
925 (setq temp (calcFunc-vmatches
929 (nth 2 (car conds))))
932 (while (setq temp (cdr temp))
933 (setq matches (cons (nth 2 (car temp))
935 args (cons (nth 1 (car temp))
938 (or (math-is-true (math-simplify
943 (setq conds (cdr conds)))
945 (not (setq match (math-multi-subst
946 match args matches)))
947 (setq math-exp-old-pos save-exp-old-pos
948 math-exp-token save-exp-token
949 math-expr-data save-exp-data
950 math-exp-pos save-exp-pos)))))))
955 (defun calc-match-user-syntax (p &optional term)
957 (save-exp-pos math-exp-pos)
958 (save-exp-old-pos math-exp-old-pos)
959 (save-exp-token math-exp-token)
960 (save-exp-data math-expr-data)
963 (cond ((stringp (car p))
964 (and (equal math-expr-data (car p))
969 (and (setq m (catch 'syntax
970 (math-read-expr-level
973 (if (consp (nth 1 p))
974 (car (nth 1 (nth 1 p)))
978 (setq matches (nconc matches (list m)))))
979 ((eq (car (car p)) '\?)
980 (setq m (calc-match-user-syntax (nth 1 (car p))))
985 (cons 'vec (and (listp m) m))))))
986 (or (listp m) (not (nth 2 (car p)))
987 (not (eq (aref (car (nth 2 (car p))) 0) ?\$))
988 (eq math-exp-token 'end)))
990 (setq m (calc-match-user-syntax (nth 1 (car p))
991 (car (nth 2 (car p)))))
993 (let ((vec (cons 'vec m))
996 (setq opos math-exp-pos
997 mm (calc-match-user-syntax
1000 (car (nth 2 (car p))))))
1001 (> math-exp-pos opos))
1002 (setq vec (nconc vec mm)))
1003 (setq matches (nconc matches (list vec))))
1004 (and (eq (car (car p)) '*)
1005 (setq matches (nconc matches (list '(vec)))))))))
1008 (setq math-exp-pos save-exp-pos
1009 math-exp-old-pos save-exp-old-pos
1010 math-exp-token save-exp-token
1011 math-expr-data save-exp-data
1016 (defun math-remove-dashes (x)
1017 (if (string-match "\\`\\(.*\\)-\\(.*\\)\\'" x)
1019 (concat (math-match-substring x 1) "#" (math-match-substring x 2)))
1022 (defun math-remove-percentsigns (x)
1023 (if (string-match "\\`\\(.*\\)%\\(.*\\)\\'" x)
1024 (math-remove-percentsigns
1025 (concat (math-match-substring x 1) "o'o" (math-match-substring x 2)))
1028 (defun math-restore-dashes (x)
1029 (if (string-match "\\`\\(.*\\)[#_]\\(.*\\)\\'" x)
1030 (math-restore-dashes
1031 (concat (math-match-substring x 1) "-" (math-match-substring x 2)))
1034 (defun math-restore-placeholders (x)
1035 "Replace placeholders by the proper characters in the symbol x.
1036 This includes `#' for `_' and `'' for `%'.
1037 If the current Calc language does not use placeholders, return nil."
1038 (if (or (memq calc-language calc-lang-allow-underscores)
1039 (memq calc-language calc-lang-allow-percentsigns))
1040 (let ((sx (symbol-name x)))
1041 (when (memq calc-language calc-lang-allow-percentsigns)
1043 (setq sx (math-to-percentsigns sx)))
1044 (if (memq calc-language calc-lang-allow-underscores)
1045 (setq sx (math-string-restore-underscores sx)))
1048 (defun math-string-restore-underscores (x)
1049 "Replace pound signs by underscores in the string x."
1050 (if (string-match "\\`\\(.*\\)#\\(.*\\)\\'" x)
1051 (math-string-restore-underscores
1052 (concat (math-match-substring x 1) "_" (math-match-substring x 2)))
1056 (defun math-read-if (cond op)
1057 (let ((then (math-read-expr-level 0)))
1058 (or (equal math-expr-data ":")
1059 (throw 'syntax "Expected ':'"))
1061 (list 'calcFunc-if cond then (math-read-expr-level (nth 3 op)))))
1063 (defun math-factor-after ()
1064 (let ((math-exp-pos math-exp-pos)
1065 math-exp-old-pos math-exp-token math-expr-data)
1067 (or (memq math-exp-token '(number symbol dollar hash string))
1068 (and (assoc math-expr-data '(("-") ("+") ("!") ("|") ("/")))
1069 (assoc (concat "u" math-expr-data) math-expr-opers))
1070 (eq (nth 2 (assoc math-expr-data math-expr-opers)) -1)
1071 (assoc math-expr-data '(("(") ("[") ("{"))))))
1073 (defun math-read-factor ()
1074 (let ((math-expr-opers (math-expr-ops))
1076 (cond ((eq math-exp-token 'number)
1077 (let ((num (math-read-number math-expr-data)))
1080 (setq math-exp-old-pos math-exp-pos)
1081 (throw 'syntax "Bad format")))
1083 (if (and math-read-expr-quotes
1087 ((and calc-user-parse-table
1088 (setq op (calc-check-user-syntax)))
1090 ((or (equal math-expr-data "-")
1091 (equal math-expr-data "+")
1092 (equal math-expr-data "!")
1093 (equal math-expr-data "|")
1094 (equal math-expr-data "/"))
1095 (setq math-expr-data (concat "u" math-expr-data))
1097 ((and (setq op (assoc math-expr-data math-expr-opers))
1099 (if (consp (nth 1 op))
1100 (funcall (car (nth 1 op)) op)
1102 (let ((val (math-read-expr-level (nth 3 op))))
1103 (cond ((eq (nth 1 op) 'ident)
1105 ((and (Math-numberp val)
1106 (equal (car op) "u-"))
1108 (t (list (nth 1 op) val))))))
1109 ((eq math-exp-token 'symbol)
1110 (let ((sym (intern math-expr-data)))
1112 (if (equal math-expr-data calc-function-open)
1113 (let ((f (assq sym math-expr-function-mapping)))
1116 (funcall (car (cdr f)) f sym)
1117 (let ((args (if (or (equal math-expr-data calc-function-close)
1118 (eq math-exp-token 'end))
1120 (math-read-expr-list))))
1121 (if (not (or (equal math-expr-data calc-function-close)
1122 (eq math-exp-token 'end)))
1123 (throw 'syntax "Expected `)'"))
1125 (if (and (memq calc-language
1126 calc-lang-parens-are-subscripts)
1129 (let ((calc-matrix-mode 'scalar))
1134 (symbol-name sym)))))))
1135 (math-parse-fortran-subscr sym args)
1138 (and (= (aref (symbol-name sym) 0) ?\\)
1139 (< (prefix-numeric-value calc-language-option)
1141 (setq sym (intern (substring (symbol-name sym)
1143 (or (string-match "-" (symbol-name sym))
1146 (symbol-name sym))))))
1148 (if math-read-expr-quotes
1150 (let ((val (list 'var
1151 (intern (math-remove-dashes
1153 (if (string-match "-" (symbol-name sym))
1155 (intern (concat "var-"
1156 (symbol-name sym)))))))
1158 (assq (nth 1 val) math-expr-variable-mapping)
1159 (assq (math-restore-placeholders (nth 1 val))
1160 math-expr-variable-mapping))))
1161 (and v (setq val (if (consp (cdr v))
1162 (funcall (car (cdr v)) v val)
1165 (substring (symbol-name (cdr v))
1168 (while (and (memq calc-language
1169 calc-lang-brackets-are-subscripts)
1170 (equal math-expr-data "["))
1172 (let ((el (math-read-expr-list)))
1174 (setq val (append (list 'calcFunc-subscr val)
1176 (setq el (cdr el))))
1177 (if (equal math-expr-data "]")
1179 (throw 'syntax "Expected ']'")))
1181 ((eq math-exp-token 'dollar)
1182 (let ((abs (if (> math-expr-data 0) math-expr-data (- math-expr-data))))
1183 (if (>= (length calc-dollar-values) abs)
1184 (let ((num math-expr-data))
1186 (setq calc-dollar-used (max calc-dollar-used num))
1187 (math-check-complete (nth (1- abs) calc-dollar-values)))
1188 (throw 'syntax (if calc-dollar-values
1190 "$'s not allowed in this context")))))
1191 ((eq math-exp-token 'hash)
1192 (or calc-hashes-used
1193 (throw 'syntax "#'s not allowed in this context"))
1195 (if (<= math-expr-data (length calc-arg-values))
1196 (let ((num math-expr-data))
1198 (setq calc-hashes-used (max calc-hashes-used num))
1199 (nth (1- num) calc-arg-values))
1200 (throw 'syntax "Too many # arguments")))
1201 ((equal math-expr-data "(")
1202 (let* ((exp (let ((math-exp-keep-spaces nil))
1204 (if (or (equal math-expr-data "\\dots")
1205 (equal math-expr-data "\\ldots"))
1206 '(neg (var inf var-inf))
1207 (math-read-expr-level 0)))))
1208 (let ((math-exp-keep-spaces nil))
1210 ((equal math-expr-data ",")
1213 (let ((exp2 (math-read-expr-level 0)))
1215 (if (and exp2 (Math-realp exp) (Math-realp exp2))
1216 (math-normalize (list 'cplx exp exp2))
1217 (list '+ exp (list '* exp2 '(var i var-i))))))))
1218 ((equal math-expr-data ";")
1221 (let ((exp2 (math-read-expr-level 0)))
1222 (setq exp (if (and exp2 (Math-realp exp)
1224 (math-normalize (list 'polar exp exp2))
1229 (math-to-radians-2 exp2)
1230 '(var i var-i)))))))))
1231 ((or (equal math-expr-data "\\dots")
1232 (equal math-expr-data "\\ldots"))
1235 (let ((exp2 (if (or (equal math-expr-data ")")
1236 (equal math-expr-data "]")
1237 (eq math-exp-token 'end))
1239 (math-read-expr-level 0))))
1242 (if (equal math-expr-data ")") 0 1)
1245 (if (not (or (equal math-expr-data ")")
1246 (and (equal math-expr-data "]") (eq (car-safe exp) 'intv))
1247 (eq math-exp-token 'end)))
1248 (throw 'syntax "Expected `)'"))
1251 ((eq math-exp-token 'string)
1254 ((equal math-expr-data "[")
1256 (math-read-brackets t "]"))
1257 ((equal math-expr-data "{")
1259 (math-read-brackets nil "}"))
1260 ((equal math-expr-data "<")
1262 (math-read-angle-brackets))
1263 (t (throw 'syntax "Expected a number")))))
1265 (provide 'calc-aent)
1269 ;; generated-autoload-file: "calc-loaddefs.el"
1272 ;;; calc-aent.el ends here