1 ;;; calc-stuff.el --- miscellaneous functions for Calc
3 ;; Copyright (C) 1990-1993, 2001-2012 Free Software Foundation, Inc.
5 ;; Author: David 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-ext.el.
32 (defun calc-num-prefix (n)
33 "Use the number at the top of stack as the numeric prefix for the next command.
34 With a prefix, push that prefix as a number onto the stack."
38 (calc-enter-result 0 "" (prefix-numeric-value n
))
39 (let ((num (calc-top 1)))
40 (if (math-messy-integerp num
)
41 (setq num
(math-trunc num
)))
43 (error "Argument must be a small integer"))
46 (message "%d-" num
))))) ; a (lame) simulation of the real thing...
49 (defun calc-more-recursion-depth (n)
53 (calc-less-recursion-depth n
)
54 (let ((n (if n
(prefix-numeric-value n
) 2)))
56 (setq max-specpdl-size
(* max-specpdl-size n
)
57 max-lisp-eval-depth
(* max-lisp-eval-depth n
))))
58 (message "max-lisp-eval-depth is now %d" max-lisp-eval-depth
))))
60 (defun calc-less-recursion-depth (n)
62 (let ((n (if n
(prefix-numeric-value n
) 2)))
64 (setq max-specpdl-size
65 (max (/ max-specpdl-size n
) 600)
67 (max (/ max-lisp-eval-depth n
) 200))))
68 (message "max-lisp-eval-depth is now %d" max-lisp-eval-depth
))
71 (defvar calc-which-why nil
)
72 (defvar calc-last-why-command nil
)
73 (defun calc-explain-why (why &optional more
)
76 (let* ((pred (car why
))
78 (msg (cond ((not pred
) "Wrong type of argument")
80 ((eq pred
'integerp
) "Integer expected")
82 (if (and arg
(Math-objvecp arg
) (not (Math-integerp arg
)))
84 "Nonnegative integer expected"))
86 (if (and arg
(Math-objvecp arg
) (not (Math-integerp arg
)))
88 "Positive integer expected"))
90 (if (and arg
(Math-integerp arg
))
91 "Small integer expected"
93 ((eq pred
'fixnatnump
)
94 (if (and arg
(Math-natnump arg
))
95 "Small integer expected"
96 (if (and arg
(Math-objvecp arg
)
97 (not (Math-integerp arg
)))
99 "Nonnegative integer expected")))
100 ((eq pred
'fixposintp
)
101 (if (and arg
(Math-integerp arg
) (Math-posp arg
))
102 "Small integer expected"
103 (if (and arg
(Math-objvecp arg
)
104 (not (Math-integerp arg
)))
106 "Positive integer expected")))
107 ((eq pred
'posp
) "Positive number expected")
108 ((eq pred
'negp
) "Negative number expected")
109 ((eq pred
'nonzerop
) "Nonzero number expected")
110 ((eq pred
'realp
) "Real number expected")
111 ((eq pred
'anglep
) "Real number expected")
112 ((eq pred
'hmsp
) "HMS form expected")
114 (if (and arg
(Math-objectp arg
)
115 (not (Math-realp arg
)))
116 "Real number or date form expected"
117 "Date form expected"))
118 ((eq pred
'numberp
) "Number expected")
119 ((eq pred
'scalarp
) "Number expected")
120 ((eq pred
'vectorp
) "Vector or matrix expected")
121 ((eq pred
'numvecp
) "Number or vector expected")
122 ((eq pred
'matrixp
) "Matrix expected")
123 ((eq pred
'square-matrixp
)
124 (if (and arg
(math-matrixp arg
))
125 "Square matrix expected"
127 ((eq pred
'objectp
) "Number expected")
128 ((eq pred
'constp
) "Constant expected")
129 ((eq pred
'range
) "Argument out of range")
130 (t (format "%s expected" pred
))))
132 (calc-can-abbrev-vectors t
))
133 (while (setq why
(cdr why
))
135 (setq msg
(concat msg punc
(if (stringp (car why
))
137 (math-format-flat-expr (car why
) 0)))
139 (message "%s%s" msg
(if more
" [w=more]" ""))))
143 (if (not (eq this-command last-command
))
144 (if (eq last-command calc-last-why-command
)
145 (setq calc-which-why
(cdr calc-why
))
146 (setq calc-which-why calc-why
)))
149 (calc-explain-why (car calc-which-why
) (cdr calc-which-why
))
150 (setq calc-which-why
(cdr calc-which-why
)))
153 (message "(No further explanations available)")
154 (setq calc-which-why calc-why
))
155 (message "No explanations available"))))
157 ;; The following caches are declared in other files, but are
159 (defvar math-lud-cache
) ; calc-mtx.el
160 (defvar math-log2-cache
) ; calc-bin.el
161 (defvar math-radix-digits-cache
) ; calc-bin.el
162 (defvar math-radix-float-cache-tag
) ; calc-bin.el
163 (defvar math-random-cache
) ; calc-comb.el
164 (defvar math-max-digits-cache
) ; calc-bin.el
165 (defvar math-integral-cache
) ; calcalg2.el
166 (defvar math-units-table
) ; calc-units.el
167 (defvar math-decls-cache-tag
) ; calc-arith.el
168 (defvar math-format-date-cache
) ; calc-forms.el
169 (defvar math-holidays-cache-tag
) ; calc-forms.el
171 (defun calc-flush-caches (&optional inhibit-msg
)
174 (setq math-lud-cache nil
176 math-radix-digits-cache nil
177 math-radix-float-cache-tag nil
178 math-random-cache nil
179 math-max-digits-cache nil
180 math-integral-cache nil
182 math-decls-cache-tag nil
183 math-eval-rules-cache-tag t
184 math-format-date-cache nil
185 math-holidays-cache-tag t
)
186 (mapc (function (lambda (x) (set x -
100))) math-cache-list
)
188 (message "All internal calculator caches have been reset"))))
193 (defun calc-clean (n)
196 (calc-with-default-simplification
197 (let ((func (if (calc-is-hyperbolic) 'calcFunc-clean
'calcFunc-pclean
)))
198 (calc-enter-result 1 "cln"
200 (let ((n (prefix-numeric-value n
)))
204 (+ n calc-internal-prec
)
206 (list func
(calc-top-n 1))))))))
208 (defun calc-clean-num (num)
210 (calc-clean (- (if num
211 (prefix-numeric-value num
)
212 (if (and (>= last-command-event ?
0)
213 (<= last-command-event ?
9))
214 (- last-command-event ?
0)
215 (error "Number required"))))))
218 (defvar math-chopping-small nil
)
219 (defun calcFunc-clean (a &optional prec
) ; [X X S] [Public]
221 (cond ((Math-messy-integerp prec
)
222 (calcFunc-clean a
(math-trunc prec
)))
223 ((or (not (integerp prec
))
225 (calc-record-why "*Precision must be an integer 3 or above")
226 (list 'calcFunc-clean a prec
))
227 ((not (Math-objvecp a
))
228 (list 'calcFunc-clean a prec
))
229 (t (let ((calc-internal-prec prec
)
230 (math-chopping-small t
))
231 (calcFunc-clean (math-normalize a
)))))
232 (cond ((eq (car-safe a
) 'polar
)
233 (let ((theta (math-mod (nth 2 a
)
234 (if (eq calc-angle-mode
'rad
)
241 (calcFunc-clean (nth 1 a
))
242 (calcFunc-clean theta
)))))))
243 ((memq (car-safe a
) '(vec date hms
))
244 (cons (car a
) (mapcar 'calcFunc-clean
(cdr a
))))
245 ((memq (car-safe a
) '(cplx mod sdev intv
))
246 (math-normalize (cons (car a
) (mapcar 'calcFunc-clean
(cdr a
)))))
247 ((eq (car-safe a
) 'float
)
248 (if math-chopping-small
249 (if (or (> (nth 2 a
) (- calc-internal-prec
))
250 (Math-lessp (- calc-internal-prec
) (calcFunc-xpon a
)))
251 (if (and (math-num-integerp a
)
252 (math-lessp (calcFunc-xpon a
) calc-internal-prec
))
258 ((math-infinitep a
) a
)
259 (t (list 'calcFunc-clean a
)))))
261 (defun calcFunc-pclean (a &optional prec
)
262 (math-map-over-constants (function (lambda (x) (calcFunc-clean x prec
)))
265 (defun calcFunc-pfloat (a)
266 (math-map-over-constants 'math-float a
))
268 (defun calcFunc-pfrac (a &optional tol
)
269 (math-map-over-constants (function (lambda (x) (calcFunc-frac x tol
)))
272 ;; The variable math-moc-func is local to math-map-over-constants,
273 ;; but is used by math-map-over-constants-rec, which is called by
274 ;; math-map-over-constants.
275 (defvar math-moc-func
)
277 (defun math-map-over-constants (math-moc-func expr
)
278 (math-map-over-constants-rec expr
))
280 (defun math-map-over-constants-rec (expr)
281 (cond ((or (Math-primp expr
)
282 (memq (car expr
) '(intv sdev
)))
283 (or (and (Math-objectp expr
)
284 (funcall math-moc-func expr
))
286 ((and (memq (car expr
) '(^ calcFunc-subscr
))
287 (eq math-moc-func
'math-float
)
289 (Math-integerp (nth 2 expr
)))
291 (math-map-over-constants-rec (nth 1 expr
))
293 (t (cons (car expr
) (mapcar 'math-map-over-constants-rec
(cdr expr
))))))
295 (provide 'calc-stuff
)
297 ;;; calc-stuff.el ends here