1 ;;; calc-arith.el --- arithmetic functions for Calc
3 ;; Copyright (C) 1990-1993, 2001-2018 Free Software Foundation, Inc.
5 ;; Author: David Gillespie <daveg@synaptics.com>
7 ;; This file is part of GNU Emacs.
9 ;; GNU Emacs is free software: you can redistribute it and/or modify
10 ;; it under the terms of the GNU General Public License as published by
11 ;; the Free Software Foundation, either version 3 of the License, or
12 ;; (at your option) any later version.
14 ;; GNU Emacs is distributed in the hope that it will be useful,
15 ;; but WITHOUT ANY WARRANTY; without even the implied warranty of
16 ;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 ;; GNU General Public License for more details.
19 ;; You should have received a copy of the GNU General Public License
20 ;; along with GNU Emacs. If not, see <https://www.gnu.org/licenses/>.
26 ;; This file is autoloaded from calc-ext.el.
31 ;;; The following lists are not exhaustive.
32 (defvar math-scalar-functions
'(calcFunc-det
33 calcFunc-cnorm calcFunc-rnorm
34 calcFunc-vlen calcFunc-vcount
35 calcFunc-vsum calcFunc-vprod
36 calcFunc-vmin calcFunc-vmax
))
38 (defvar math-nonscalar-functions
'(vec calcFunc-idn calcFunc-diag
39 calcFunc-cvec calcFunc-index
42 calcFunc-cons calcFunc-rcons
43 calcFunc-tail calcFunc-rhead
))
45 (defvar math-scalar-if-args-functions
'(+ -
* / neg
))
47 (defvar math-real-functions
'(calcFunc-arg
48 calcFunc-re calcFunc-im
49 calcFunc-floor calcFunc-ceil
50 calcFunc-trunc calcFunc-round
51 calcFunc-rounde calcFunc-roundu
52 calcFunc-ffloor calcFunc-fceil
53 calcFunc-ftrunc calcFunc-fround
54 calcFunc-frounde calcFunc-froundu
))
56 (defvar math-positive-functions
'())
58 (defvar math-nonnegative-functions
'(calcFunc-cnorm calcFunc-rnorm
59 calcFunc-vlen calcFunc-vcount
))
61 (defvar math-real-scalar-functions
'(% calcFunc-idiv calcFunc-abs
62 calcFunc-choose calcFunc-perm
63 calcFunc-eq calcFunc-neq
64 calcFunc-lt calcFunc-gt
65 calcFunc-leq calcFunc-geq
67 calcFunc-max calcFunc-min
))
69 (defvar math-real-if-arg-functions
'(calcFunc-sin calcFunc-cos
70 calcFunc-tan calcFunc-sec
71 calcFunc-csc calcFunc-cot
73 calcFunc-sinh calcFunc-cosh
74 calcFunc-tanh calcFunc-sech
75 calcFunc-csch calcFunc-coth
77 calcFunc-gamma calcFunc-fact
))
79 (defvar math-integer-functions
'(calcFunc-idiv
80 calcFunc-isqrt calcFunc-ilog
81 calcFunc-vlen calcFunc-vcount
))
83 (defvar math-num-integer-functions
'())
85 (defvar math-rounding-functions
'(calcFunc-floor
87 calcFunc-round calcFunc-trunc
88 calcFunc-rounde calcFunc-roundu
))
90 (defvar math-float-rounding-functions
'(calcFunc-ffloor
92 calcFunc-fround calcFunc-ftrunc
93 calcFunc-frounde calcFunc-froundu
))
95 (defvar math-integer-if-args-functions
'(+ -
* % neg calcFunc-abs
96 calcFunc-min calcFunc-max
97 calcFunc-choose calcFunc-perm
))
102 (defun calc-min (arg)
105 (calc-binary-op "min" 'calcFunc-min arg
'(var inf var-inf
))))
107 (defun calc-max (arg)
110 (calc-binary-op "max" 'calcFunc-max arg
'(neg (var inf var-inf
)))))
112 (defun calc-abs (arg)
115 (calc-unary-op "abs" 'calcFunc-abs arg
)))
118 (defun calc-idiv (arg)
121 (calc-binary-op "\\" 'calcFunc-idiv arg
1)))
124 (defun calc-floor (arg)
127 (if (calc-is-inverse)
128 (if (calc-is-hyperbolic)
129 (calc-unary-op "ceil" 'calcFunc-fceil arg
)
130 (calc-unary-op "ceil" 'calcFunc-ceil arg
))
131 (if (calc-is-hyperbolic)
132 (calc-unary-op "flor" 'calcFunc-ffloor arg
)
133 (calc-unary-op "flor" 'calcFunc-floor arg
)))))
135 (defun calc-ceiling (arg)
140 (defun calc-round (arg)
143 (if (calc-is-inverse)
144 (if (calc-is-hyperbolic)
145 (calc-unary-op "trnc" 'calcFunc-ftrunc arg
)
146 (calc-unary-op "trnc" 'calcFunc-trunc arg
))
147 (if (calc-is-hyperbolic)
148 (calc-unary-op "rond" 'calcFunc-fround arg
)
149 (calc-unary-op "rond" 'calcFunc-round arg
)))))
151 (defun calc-trunc (arg)
156 (defun calc-mant-part (arg)
159 (calc-unary-op "mant" 'calcFunc-mant arg
)))
161 (defun calc-xpon-part (arg)
164 (calc-unary-op "xpon" 'calcFunc-xpon arg
)))
166 (defun calc-scale-float (arg)
169 (calc-binary-op "scal" 'calcFunc-scf arg
)))
171 (defun calc-abssqr (arg)
174 (calc-unary-op "absq" 'calcFunc-abssqr arg
)))
176 (defun calc-sign (arg)
179 (calc-unary-op "sign" 'calcFunc-sign arg
)))
181 (defun calc-increment (arg)
184 (calc-enter-result 1 "incr" (list 'calcFunc-incr
(calc-top-n 1) arg
))))
186 (defun calc-decrement (arg)
189 (calc-enter-result 1 "decr" (list 'calcFunc-decr
(calc-top-n 1) arg
))))
192 (defun math-abs-approx (a)
198 (math-add (math-abs (nth 1 a
)) (math-abs (nth 2 a
))))
202 (math-abs-approx (nth 1 a
)))
204 (math-max (math-abs (nth 2 a
)) (math-abs (nth 3 a
))))
208 (math-reduce-vec 'math-add-abs-approx a
))
209 ((eq (car a
) 'calcFunc-abs
)
213 (defun math-add-abs-approx (a b
)
214 (math-add (math-abs-approx a
) (math-abs-approx b
)))
219 (defvar math-decls-cache-tag nil
)
220 (defvar math-decls-cache nil
)
221 (defvar math-decls-all nil
)
223 ;;; Math-decls-cache is an a-list where each entry is a list of the form:
224 ;;; (VAR TYPES RANGE)
225 ;;; where VAR is a variable name (with var- prefix) or function name;
226 ;;; TYPES is a list of type symbols (any, int, frac, ...)
227 ;;; RANGE is a sorted vector of intervals describing the range.
229 (defvar math-super-types
230 '((int numint rat real number
)
232 (frac rat real number
)
238 (sqmatrix matrix vector
)
243 (defun math-setup-declarations ()
244 (or (eq math-decls-cache-tag
(calc-var-value 'var-Decls
))
245 (let ((p (calc-var-value 'var-Decls
))
247 (setq math-decls-cache-tag p
248 math-decls-cache nil
)
249 (and (eq (car-safe p
) 'vec
)
250 (while (setq p
(cdr p
))
251 (and (eq (car-safe (car p
)) 'vec
)
252 (setq vec
(nth 2 (car p
)))
254 (let ((v (nth 1 (car p
))))
255 (setq type nil range nil
)
256 (or (eq (car-safe vec
) 'vec
)
257 (setq vec
(list 'vec vec
)))
258 (while (and (setq vec
(cdr vec
))
259 (not (Math-objectp (car vec
))))
260 (and (eq (car-safe (car vec
)) 'var
)
261 (let ((st (assq (nth 1 (car vec
))
263 (cond (st (setq type
(append type st
)))
264 ((eq (nth 1 (car vec
)) 'pos
)
265 (setq type
(append type
268 '(intv 1 0 (var inf var-inf
))))
269 ((eq (nth 1 (car vec
)) 'nonneg
)
270 (setq type
(append type
274 (var inf var-inf
))))))))
276 (setq type
(append type
'(real number
))
277 range
(math-prepare-set (cons 'vec vec
))))
278 (setq type
(list type range
))
279 (or (eq (car-safe v
) 'vec
)
280 (setq v
(list 'vec v
)))
281 (while (setq v
(cdr v
))
282 (if (or (eq (car-safe (car v
)) 'var
)
283 (not (Math-primp (car v
))))
284 (setq math-decls-cache
285 (cons (cons (if (eq (car (car v
)) 'var
)
289 math-decls-cache
)))))
291 (setq math-decls-all
(assq 'var-All math-decls-cache
)))))
293 (defun math-known-scalarp (a &optional assume-scalar
)
294 (math-setup-declarations)
295 (if (if calc-matrix-mode
296 (eq calc-matrix-mode
'scalar
)
298 (not (math-check-known-matrixp a
))
299 (math-check-known-scalarp a
)))
301 (defun math-known-matrixp (a)
302 (and (not (Math-scalarp a
))
303 (not (math-known-scalarp a t
))))
305 (defun math-known-square-matrixp (a)
306 (and (math-known-matrixp a
)
307 (math-check-known-square-matrixp a
)))
309 ;;; Try to prove that A is a scalar (i.e., a non-vector).
310 (defun math-check-known-scalarp (a)
311 (cond ((Math-objectp a
) t
)
312 ((memq (car a
) math-scalar-functions
)
314 ((memq (car a
) math-real-scalar-functions
)
316 ((memq (car a
) math-scalar-if-args-functions
)
317 (while (and (setq a
(cdr a
))
318 (math-check-known-scalarp (car a
))))
321 (math-check-known-scalarp (nth 1 a
)))
322 ((math-const-var a
) t
)
324 (let ((decl (if (eq (car a
) 'var
)
325 (or (assq (nth 2 a
) math-decls-cache
)
327 (assq (car a
) math-decls-cache
)))
330 ((memq 'scalar
(nth 1 decl
))
332 ((and (eq (car a
) 'var
)
335 (setq val
(symbol-value (nth 2 a
))))
336 (math-check-known-scalarp val
))
340 ;;; Try to prove that A is *not* a scalar.
341 (defun math-check-known-matrixp (a)
342 (cond ((Math-objectp a
) nil
)
343 ((memq (car a
) math-nonscalar-functions
)
345 ((memq (car a
) math-scalar-if-args-functions
)
346 (while (and (setq a
(cdr a
))
347 (not (math-check-known-matrixp (car a
)))))
350 (math-check-known-matrixp (nth 1 a
)))
351 ((math-const-var a
) nil
)
353 (let ((decl (if (eq (car a
) 'var
)
354 (or (assq (nth 2 a
) math-decls-cache
)
356 (assq (car a
) math-decls-cache
)))
359 ((memq 'matrix
(nth 1 decl
))
361 ((and (eq (car a
) 'var
)
364 (setq val
(symbol-value (nth 2 a
))))
365 (math-check-known-matrixp val
))
369 ;;; Given that A is a matrix, try to prove that it is a square matrix.
370 (defun math-check-known-square-matrixp (a)
371 (cond ((math-square-matrixp a
)
373 ((eq (car-safe a
) '^
)
374 (math-check-known-square-matrixp (nth 1 a
)))
378 (eq (car-safe a
) '-
))
380 (math-check-known-square-matrixp (nth 1 a
))
381 (math-check-known-square-matrixp (nth 2 a
))))
383 (let ((decl (if (eq (car a
) 'var
)
384 (or (assq (nth 2 a
) math-decls-cache
)
386 (assq (car a
) math-decls-cache
)))
389 ((memq 'sqmatrix
(nth 1 decl
))
391 ((and (eq (car a
) 'var
)
393 (setq val
(symbol-value (nth 2 a
))))
394 (math-check-known-square-matrixp val
))
396 (integerp calc-matrix-mode
)
397 (eq calc-matrix-mode
'sqmatrix
))
398 (eq (car-safe a
) 'var
))
400 ((memq 'matrix
(nth 1 decl
))
405 ;;; Try to prove that A is a real (i.e., not complex).
406 (defun math-known-realp (a)
407 (< (math-possible-signs a
) 8))
409 ;;; Try to prove that A is real and positive.
410 (defun math-known-posp (a)
411 (eq (math-possible-signs a
) 4))
413 ;;; Try to prove that A is real and negative.
414 (defun math-known-negp (a)
415 (eq (math-possible-signs a
) 1))
417 ;;; Try to prove that A is real and nonnegative.
418 (defun math-known-nonnegp (a)
419 (memq (math-possible-signs a
) '(2 4 6)))
421 ;;; Try to prove that A is real and nonpositive.
422 (defun math-known-nonposp (a)
423 (memq (math-possible-signs a
) '(1 2 3)))
425 ;;; Try to prove that A is nonzero.
426 (defun math-known-nonzerop (a)
427 (memq (math-possible-signs a
) '(1 4 5 8 9 12 13)))
429 ;;; Return true if A is negative, or looks negative but we don't know.
430 (defun math-guess-if-neg (a)
431 (let ((sgn (math-possible-signs a
)))
432 (if (memq sgn
'(1 3))
434 (if (memq sgn
'(2 4 6))
436 (math-looks-negp a
)))))
438 ;;; Find the possible signs of A, assuming A is a number of some kind.
439 ;;; Returns an integer with bits: 1 may be negative,
441 ;;; 4 may be positive,
442 ;;; 8 may be nonreal.
444 (defun math-possible-signs (a &optional origin
)
445 (cond ((Math-objectp a
)
446 (if origin
(setq a
(math-sub a origin
)))
447 (cond ((Math-posp a
) 4)
452 ((math-known-posp (nth 2 a
)) 4)
453 ((math-known-negp (nth 3 a
)) 1)
454 ((Math-zerop (nth 2 a
)) 6)
455 ((Math-zerop (nth 3 a
)) 3)
458 (if (math-known-realp (nth 1 a
)) 7 15))
460 ((memq (car a
) '(+ -
))
461 (cond ((Math-realp (nth 1 a
))
464 (math-possible-signs (nth 2 a
)
466 (math-add origin
(nth 1 a
))
468 (math-possible-signs (nth 2 a
)
470 (math-sub origin
(nth 1 a
))
471 (math-neg (nth 1 a
))))))
472 ((Math-realp (nth 2 a
))
473 (let ((org (if (eq (car a
) '-
)
475 (math-neg (nth 2 a
)))))
476 (math-possible-signs (nth 1 a
)
478 (math-add origin org
)
481 (let ((s1 (math-possible-signs (nth 1 a
) origin
))
482 (s2 (math-possible-signs (nth 2 a
))))
483 (if (eq (car a
) '-
) (setq s2
(math-neg-signs s2
)))
484 (cond ((eq s1 s2
) s1
)
489 ((and (eq s1
4) (eq s2
6)) 4)
490 ((and (eq s2
4) (eq s1
6)) 4)
491 ((and (eq s1
1) (eq s2
3)) 1)
492 ((and (eq s2
1) (eq s1
3)) 1)
495 (math-neg-signs (math-possible-signs
497 (and origin
(math-neg origin
)))))
498 ((and origin
(Math-zerop origin
) (setq origin nil
)
500 ((and (or (eq (car a
) '*)
501 (and (eq (car a
) '/) origin
))
502 (Math-realp (nth 1 a
)))
503 (let ((s (if (eq (car a
) '*)
504 (if (Math-zerop (nth 1 a
))
505 (math-possible-signs 0 origin
)
506 (math-possible-signs (nth 2 a
)
507 (math-div (or origin
0)
510 (math-possible-signs (nth 2 a
)
513 (if (Math-negp (nth 1 a
)) (math-neg-signs s
) s
)))
514 ((and (memq (car a
) '(* /)) (Math-realp (nth 2 a
)))
515 (let ((s (math-possible-signs (nth 1 a
)
517 (math-mul (or origin
0) (nth 2 a
))
518 (math-div (or origin
0) (nth 2 a
))))))
519 (if (Math-negp (nth 2 a
)) (math-neg-signs s
) s
)))
522 (while (and (setq a
(cdr a
)) (< signs
15))
523 (setq signs
(logior signs
(math-possible-signs
528 ((memq (car a
) '(* /))
529 (let ((s1 (math-possible-signs (nth 1 a
)))
530 (s2 (math-possible-signs (nth 2 a
))))
533 ((and (eq (car a
) '/) (memq s2
'(2 3 6 7))) 15)
535 (logior (if (memq s1
'(4 5 6 7)) s2
0)
536 (if (memq s1
'(2 3 6 7)) 2 0)
537 (if (memq s1
'(1 3 5 7))
538 (math-neg-signs s2
) 0))))))
540 (let ((s1 (math-possible-signs (nth 1 a
)))
541 (s2 (math-possible-signs (nth 2 a
))))
545 ((eq s1
2) (if (eq s2
4) 2 15))
546 ((eq s2
2) (if (memq s1
'(1 5)) 2 15))
547 ((Math-integerp (nth 2 a
))
548 (if (math-evenp (nth 2 a
))
549 (if (memq s1
'(3 6 7)) 6 4)
551 ((eq s1
6) (if (eq s2
4) 6 15))
554 (let ((s2 (math-possible-signs (nth 2 a
))))
560 ((and (memq (car a
) '(calcFunc-abs calcFunc-abssqr
))
562 (let ((s1 (math-possible-signs (nth 1 a
))))
564 ((memq s1
'(1 4 5)) 4)
566 ((and (eq (car a
) 'calcFunc-exp
) (= (length a
) 2))
567 (let ((s1 (math-possible-signs (nth 1 a
))))
570 (if (or (not origin
) (math-negp origin
))
572 (setq origin
(math-sub (or origin
0) 1))
573 (if (Math-zerop origin
) (setq origin nil
))
575 ((or (and (memq (car a
) '(calcFunc-ln calcFunc-log10
))
577 (and (eq (car a
) 'calcFunc-log
)
579 (math-known-posp (nth 2 a
))))
580 (if (math-known-nonnegp (nth 1 a
))
581 (math-possible-signs (nth 1 a
) 1)
583 ((and (eq (car a
) 'calcFunc-sqrt
) (= (length a
) 2))
584 (let ((s1 (math-possible-signs (nth 1 a
))))
585 (if (memq s1
'(2 4 6)) s1
15)))
586 ((memq (car a
) math-nonnegative-functions
) 6)
587 ((memq (car a
) math-positive-functions
) 4)
588 ((memq (car a
) math-real-functions
) 7)
589 ((memq (car a
) math-real-scalar-functions
) 7)
590 ((and (memq (car a
) math-real-if-arg-functions
)
592 (if (math-known-realp (nth 1 a
)) 7 15)))))
596 (if (Math-posp origin
)
597 (if (memq sign
'(1 2 3 8 9 10 11)) 1 7)
598 (if (memq sign
'(2 4 6 8 10 12 14)) 4 7)))
601 (cond ((eq (nth 2 a
) 'var-pi
)
603 (math-possible-signs (math-pi) origin
)
605 ((eq (nth 2 a
) 'var-e
)
607 (math-possible-signs (math-e) origin
)
609 ((eq (nth 2 a
) 'var-inf
) 4)
610 ((eq (nth 2 a
) 'var-uinf
) 13)
611 ((eq (nth 2 a
) 'var-i
) 8)
614 (math-setup-declarations)
615 (let ((decl (if (eq (car a
) 'var
)
616 (or (assq (nth 2 a
) math-decls-cache
)
618 (assq (car a
) math-decls-cache
))))
620 (memq 'int
(nth 1 decl
))
621 (not (Math-num-integerp origin
)))
624 (math-possible-signs (nth 2 decl
) origin
)
625 (if (memq 'real
(nth 1 decl
))
629 (defun math-neg-signs (s1)
631 (+ 8 (math-neg-signs (- s1
8)))
632 (+ (if (memq s1
'(1 3 5 7)) 4 0)
633 (if (memq s1
'(2 3 6 7)) 2 0)
634 (if (memq s1
'(4 5 6 7)) 1 0))))
637 ;;; Try to prove that A is an integer.
638 (defun math-known-integerp (a)
639 (eq (math-possible-types a
) 1))
641 (defun math-known-num-integerp (a)
642 (<= (math-possible-types a t
) 3))
644 (defun math-known-imagp (a)
645 (= (math-possible-types a
) 16))
648 ;;; Find the possible types of A.
649 ;;; Returns an integer with bits: 1 may be integer.
650 ;;; 2 may be integer-valued float.
651 ;;; 4 may be fraction.
652 ;;; 8 may be non-integer-valued float.
653 ;;; 16 may be imaginary.
654 ;;; 32 may be non-real, non-imaginary.
655 ;;; Real infinities count as integers for the purposes of this function.
656 (defun math-possible-types (a &optional num
)
657 (cond ((Math-objectp a
)
658 (cond ((Math-integerp a
) (if num
3 1))
659 ((Math-messy-integerp a
) (if num
3 2))
660 ((eq (car a
) 'frac
) (if num
12 4))
661 ((eq (car a
) 'float
) (if num
12 8))
663 (if (equal (nth 2 a
) (nth 3 a
))
664 (math-possible-types (nth 2 a
))
667 (if (math-known-realp (nth 1 a
)) 15 63))
669 (if (math-zerop (nth 1 a
)) 16 32))
671 (if (or (Math-equal (nth 2 a
) (math-quarter-circle nil
))
672 (Math-equal (nth 2 a
)
673 (math-neg (math-quarter-circle nil
))))
677 (let* ((t1 (math-possible-types (nth 1 a
) num
))
678 (t2 (math-possible-types (nth 2 a
) num
))
679 (t12 (logior t1 t2
)))
681 (if (> (logand t12
10) 0)
683 (if (or (= t1
4) (= t2
4) calc-prefer-frac
)
689 (if (< t2
16) 16 31))
694 ((memq (car a
) '(+ -
* %
))
695 (let* ((t1 (math-possible-types (nth 1 a
) num
))
696 (t2 (math-possible-types (nth 2 a
) num
))
697 (t12 (logior t1 t2
)))
699 (setq t1
(logand t1
15) t2
(logand t2
15) t12
(logand t12
15)))
701 (let ((mask (if (<= t12
3)
703 (if (and (or (and (<= t1
3) (= (logand t2
3) 0))
704 (and (<= t2
3) (= (logand t1
3) 0)))
705 (memq (car a
) '(+ -
)))
710 (logior (if (and (> (logand t1
5) 0) (> (logand t2
5) 0))
712 (if (> (logand t12
10) 0)
718 (if (< t2
16) 16 31))
723 (if (or (and (= t1
16) (< t2
16))
724 (and (= t2
16) (< t1
16))) 32 63)))
727 (math-possible-types (nth 1 a
)))
729 (let* ((t1 (math-possible-types (nth 1 a
) num
))
730 (t2 (math-possible-types (nth 2 a
) num
))
731 (t12 (logior t1 t2
)))
732 (if (and (<= t2
3) (math-known-nonnegp (nth 2 a
)) (< t1
16))
733 (let ((mask (logior (if (> (logand t1
3) 0) 1 0)
735 (if (> (logand t1
12) 0) 5 0))))
738 (logior (if (and (> (logand t1
5) 0) (> (logand t2
5) 0))
740 (if (> (logand t12
10) 0)
742 (if (and (math-known-nonnegp (nth 1 a
))
743 (math-known-posp (nth 2 a
)))
746 ((eq (car a
) 'calcFunc-sqrt
)
747 (let ((t1 (math-possible-signs (nth 1 a
))))
748 (logior (if (> (logand t1
2) 0) 3 0)
749 (if (> (logand t1
1) 0) 16 0)
750 (if (> (logand t1
4) 0) 15 0)
751 (if (> (logand t1
8) 0) 32 0))))
754 (while (and (setq a
(cdr a
)) (< types
63))
755 (setq types
(logior types
(math-possible-types (car a
) t
))))
757 ((or (memq (car a
) math-integer-functions
)
758 (and (memq (car a
) math-rounding-functions
)
759 (math-known-nonnegp (or (nth 2 a
) 0))))
761 ((or (memq (car a
) math-num-integer-functions
)
762 (and (memq (car a
) math-float-rounding-functions
)
763 (math-known-nonnegp (or (nth 2 a
) 0))))
765 ((eq (car a
) 'calcFunc-frac
)
767 ((and (eq (car a
) 'calcFunc-float
) (= (length a
) 2))
768 (let ((t1 (math-possible-types (nth 1 a
))))
769 (logior (if (> (logand t1
3) 0) 2 0)
770 (if (> (logand t1
12) 0) 8 0)
772 ((and (memq (car a
) '(calcFunc-abs calcFunc-abssqr
))
774 (let ((t1 (math-possible-types (nth 1 a
))))
779 (cond ((memq (nth 2 a
) '(var-e var-pi var-phi var-gamma
)) 8)
780 ((eq (nth 2 a
) 'var-inf
) 1)
781 ((eq (nth 2 a
) 'var-i
) 16)
784 (math-setup-declarations)
785 (let ((decl (if (eq (car a
) 'var
)
786 (or (assq (nth 2 a
) math-decls-cache
)
788 (assq (car a
) math-decls-cache
))))
789 (cond ((memq 'int
(nth 1 decl
))
791 ((memq 'numint
(nth 1 decl
))
793 ((memq 'frac
(nth 1 decl
))
795 ((memq 'rat
(nth 1 decl
))
797 ((memq 'float
(nth 1 decl
))
800 (math-possible-types (nth 2 decl
)))
801 ((memq 'real
(nth 1 decl
))
805 (defun math-known-evenp (a)
806 (cond ((Math-integerp a
)
808 ((Math-messy-integerp a
)
810 (math-evenp (math-trunc a
))))
812 (if (math-known-evenp (nth 1 a
))
813 (math-known-num-integerp (nth 2 a
))
814 (if (math-known-num-integerp (nth 1 a
))
815 (math-known-evenp (nth 2 a
)))))
816 ((memq (car a
) '(+ -
))
817 (or (and (math-known-evenp (nth 1 a
))
818 (math-known-evenp (nth 2 a
)))
819 (and (math-known-oddp (nth 1 a
))
820 (math-known-oddp (nth 2 a
)))))
822 (math-known-evenp (nth 1 a
)))))
824 (defun math-known-oddp (a)
825 (cond ((Math-integerp a
)
827 ((Math-messy-integerp a
)
828 (and (<= (nth 2 a
) 0)
829 (math-oddp (math-trunc a
))))
830 ((memq (car a
) '(+ -
))
831 (or (and (math-known-evenp (nth 1 a
))
832 (math-known-oddp (nth 2 a
)))
833 (and (math-known-oddp (nth 1 a
))
834 (math-known-evenp (nth 2 a
)))))
836 (math-known-oddp (nth 1 a
)))))
839 (defun calcFunc-dreal (expr)
840 (let ((types (math-possible-types expr
)))
842 (if (= (logand types
15) 0) 0
843 (math-reject-arg expr
'realp
'quiet
)))))
845 (defun calcFunc-dimag (expr)
846 (let ((types (math-possible-types expr
)))
848 (if (= (logand types
16) 0) 0
849 (math-reject-arg expr
"Expected an imaginary number")))))
851 (defun calcFunc-dpos (expr)
852 (let ((signs (math-possible-signs expr
)))
854 (if (memq signs
'(1 2 3)) 0
855 (math-reject-arg expr
'posp
'quiet
)))))
857 (defun calcFunc-dneg (expr)
858 (let ((signs (math-possible-signs expr
)))
860 (if (memq signs
'(2 4 6)) 0
861 (math-reject-arg expr
'negp
'quiet
)))))
863 (defun calcFunc-dnonneg (expr)
864 (let ((signs (math-possible-signs expr
)))
865 (if (memq signs
'(2 4 6)) 1
867 (math-reject-arg expr
'posp
'quiet
)))))
869 (defun calcFunc-dnonzero (expr)
870 (let ((signs (math-possible-signs expr
)))
871 (if (memq signs
'(1 4 5 8 9 12 13)) 1
873 (math-reject-arg expr
'nonzerop
'quiet
)))))
875 (defun calcFunc-dint (expr)
876 (let ((types (math-possible-types expr
)))
878 (if (= (logand types
1) 0) 0
879 (math-reject-arg expr
'integerp
'quiet
)))))
881 (defun calcFunc-dnumint (expr)
882 (let ((types (math-possible-types expr t
)))
884 (if (= (logand types
3) 0) 0
885 (math-reject-arg expr
'integerp
'quiet
)))))
887 (defun calcFunc-dnatnum (expr)
888 (let ((res (calcFunc-dint expr
)))
890 (calcFunc-dnonneg expr
)
893 (defun calcFunc-deven (expr)
894 (if (math-known-evenp expr
)
896 (if (or (math-known-oddp expr
)
897 (= (logand (math-possible-types expr
) 3) 0))
899 (math-reject-arg expr
"Can't tell if expression is odd or even"))))
901 (defun calcFunc-dodd (expr)
902 (if (math-known-oddp expr
)
904 (if (or (math-known-evenp expr
)
905 (= (logand (math-possible-types expr
) 3) 0))
907 (math-reject-arg expr
"Can't tell if expression is odd or even"))))
909 (defun calcFunc-drat (expr)
910 (let ((types (math-possible-types expr
)))
911 (if (memq types
'(1 4 5)) 1
912 (if (= (logand types
5) 0) 0
913 (math-reject-arg expr
"Rational number expected")))))
915 (defun calcFunc-drange (expr)
916 (math-setup-declarations)
918 (if (Math-realp expr
)
920 (if (eq (car-safe expr
) 'intv
)
922 (if (eq (car-safe expr
) 'var
)
923 (setq range
(nth 2 (or (assq (nth 2 expr
) math-decls-cache
)
925 (setq range
(nth 2 (assq (car-safe expr
) math-decls-cache
))))
927 (math-clean-set (copy-sequence range
))
928 (setq range
(math-possible-signs expr
))
931 (intv 2 (neg (var inf var-inf
)) 0)
933 (intv 3 (neg (var inf var-inf
)) 0)
934 (intv 1 0 (var inf var-inf
))
935 (vec (intv 2 (neg (var inf var-inf
)) 0)
936 (intv 1 0 (var inf var-inf
)))
937 (intv 3 0 (var inf var-inf
))
938 (intv 3 (neg (var inf var-inf
)) (var inf var-inf
))] range
)
939 (math-reject-arg expr
'realp
'quiet
)))))))
941 (defun calcFunc-dscalar (a)
942 (if (math-known-scalarp a
) 1
943 (if (math-known-matrixp a
) 0
944 (math-reject-arg a
'objectp
'quiet
))))
949 (defsubst calcFunc-neg
(a)
950 (math-normalize (list 'neg a
)))
952 (defun math-neg-fancy (a)
953 (cond ((eq (car a
) 'polar
)
956 (if (math-posp (nth 2 a
))
957 (math-sub (nth 2 a
) (math-half-circle nil
))
958 (math-add (nth 2 a
) (math-half-circle nil
)))))
960 (if (math-zerop (nth 1 a
))
962 (list 'mod
(math-sub (nth 2 a
) (nth 1 a
)) (nth 2 a
))))
964 (list 'sdev
(math-neg (nth 1 a
)) (nth 2 a
)))
966 (math-make-intv (aref [0 2 1 3] (nth 1 a
))
968 (math-neg (nth 2 a
))))
969 ((and math-simplify-only
970 (not (equal a math-simplify-only
)))
973 (math-sub (math-neg (nth 1 a
)) (nth 2 a
)))
975 (math-sub (nth 2 a
) (nth 1 a
)))
976 ((and (memq (car a
) '(* /))
977 (math-okay-neg (nth 1 a
)))
978 (list (car a
) (math-neg (nth 1 a
)) (nth 2 a
)))
979 ((and (memq (car a
) '(* /))
980 (math-okay-neg (nth 2 a
)))
981 (list (car a
) (nth 1 a
) (math-neg (nth 2 a
))))
982 ((and (memq (car a
) '(* /))
983 (or (math-objectp (nth 1 a
))
984 (and (eq (car (nth 1 a
)) '*)
985 (math-objectp (nth 1 (nth 1 a
))))))
986 (list (car a
) (math-neg (nth 1 a
)) (nth 2 a
)))
987 ((and (eq (car a
) '/)
988 (or (math-objectp (nth 2 a
))
989 (and (eq (car (nth 2 a
)) '*)
990 (math-objectp (nth 1 (nth 2 a
))))))
991 (list (car a
) (nth 1 a
) (math-neg (nth 2 a
))))
992 ((and (eq (car a
) 'var
) (memq (nth 2 a
) '(var-uinf var-nan
)))
998 (defun math-okay-neg (a)
999 (or (math-looks-negp a
)
1000 (eq (car-safe a
) '-
)))
1002 (defun math-neg-float (a)
1003 (list 'float
(Math-integer-neg (nth 1 a
)) (nth 2 a
)))
1006 (defun calcFunc-add (&rest rest
)
1008 (let ((a (car rest
)))
1009 (while (setq rest
(cdr rest
))
1010 (setq a
(list '+ a
(car rest
))))
1014 (defun calcFunc-sub (&rest rest
)
1016 (let ((a (car rest
)))
1017 (while (setq rest
(cdr rest
))
1018 (setq a
(list '- a
(car rest
))))
1022 (defun math-add-objects-fancy (a b
)
1023 (cond ((and (Math-numberp a
) (Math-numberp b
))
1024 (let ((aa (math-complex a
))
1025 (bb (math-complex b
)))
1027 (let ((res (list 'cplx
1028 (math-add (nth 1 aa
) (nth 1 bb
))
1029 (math-add (nth 2 aa
) (nth 2 bb
)))))
1030 (if (math-want-polar a b
)
1033 ((or (Math-vectorp a
) (Math-vectorp b
))
1034 (math-map-vec-2 'math-add a b
))
1035 ((eq (car-safe a
) 'sdev
)
1036 (if (eq (car-safe b
) 'sdev
)
1037 (math-make-sdev (math-add (nth 1 a
) (nth 1 b
))
1038 (math-hypot (nth 2 a
) (nth 2 b
)))
1039 (and (or (Math-scalarp b
)
1040 (not (Math-objvecp b
)))
1041 (math-make-sdev (math-add (nth 1 a
) b
) (nth 2 a
)))))
1042 ((and (eq (car-safe b
) 'sdev
)
1043 (or (Math-scalarp a
)
1044 (not (Math-objvecp a
))))
1045 (math-make-sdev (math-add a
(nth 1 b
)) (nth 2 b
)))
1046 ((eq (car-safe a
) 'intv
)
1047 (if (eq (car-safe b
) 'intv
)
1048 (math-make-intv (logior (logand (nth 1 a
) (nth 1 b
))
1049 (if (equal (nth 2 a
)
1050 '(neg (var inf var-inf
)))
1051 (logand (nth 1 a
) 2) 0)
1052 (if (equal (nth 2 b
)
1053 '(neg (var inf var-inf
)))
1054 (logand (nth 1 b
) 2) 0)
1055 (if (equal (nth 3 a
) '(var inf var-inf
))
1056 (logand (nth 1 a
) 1) 0)
1057 (if (equal (nth 3 b
) '(var inf var-inf
))
1058 (logand (nth 1 b
) 1) 0))
1059 (math-add (nth 2 a
) (nth 2 b
))
1060 (math-add (nth 3 a
) (nth 3 b
)))
1061 (and (or (Math-anglep b
)
1063 (not (Math-objvecp b
)))
1064 (math-make-intv (nth 1 a
)
1065 (math-add (nth 2 a
) b
)
1066 (math-add (nth 3 a
) b
)))))
1067 ((and (eq (car-safe b
) 'intv
)
1070 (not (Math-objvecp a
))))
1071 (math-make-intv (nth 1 b
)
1072 (math-add a
(nth 2 b
))
1073 (math-add a
(nth 3 b
))))
1074 ((eq (car-safe a
) 'date
)
1075 (cond ((eq (car-safe b
) 'date
)
1076 (math-add (nth 1 a
) (nth 1 b
)))
1077 ((eq (car-safe b
) 'hms
)
1078 (let ((parts (math-date-parts (nth 1 a
))))
1080 (math-add (car parts
) ; this minimizes roundoff
1082 (math-add (nth 1 parts
)
1085 (math-mul (nth 1 b
) 3600)
1086 (math-add (math-mul (nth 2 b
) 60)
1090 (list 'date
(math-add (nth 1 a
) b
)))
1092 ((eq (car-safe b
) 'date
)
1093 (math-add-objects-fancy b a
))
1094 ((and (eq (car-safe a
) 'mod
)
1095 (eq (car-safe b
) 'mod
)
1096 (equal (nth 2 a
) (nth 2 b
)))
1097 (math-make-mod (math-add (nth 1 a
) (nth 1 b
)) (nth 2 a
)))
1098 ((and (eq (car-safe a
) 'mod
)
1100 (math-make-mod (math-add (nth 1 a
) b
) (nth 2 a
)))
1101 ((and (eq (car-safe b
) 'mod
)
1103 (math-make-mod (math-add a
(nth 1 b
)) (nth 2 b
)))
1104 ((and (or (eq (car-safe a
) 'hms
) (eq (car-safe b
) 'hms
))
1105 (and (Math-anglep a
) (Math-anglep b
)))
1106 (or (eq (car-safe a
) 'hms
) (setq a
(math-to-hms a
)))
1107 (or (eq (car-safe b
) 'hms
) (setq b
(math-to-hms b
)))
1110 (math-neg (math-add (math-neg a
) (math-neg b
)))
1112 (let* ((s (math-add (nth 3 a
) (nth 3 b
)))
1113 (m (math-add (nth 2 a
) (nth 2 b
)))
1114 (h (math-add (nth 1 a
) (nth 1 b
))))
1116 (setq s
(math-add s
60)
1119 (setq m
(math-add m
60)
1124 (let* ((s (math-add (nth 3 a
) (nth 3 b
)))
1125 (m (math-add (nth 2 a
) (nth 2 b
)))
1126 (h (math-add (nth 1 a
) (nth 1 b
))))
1127 (list 'hms h m s
))))))
1128 (t (calc-record-why "*Incompatible arguments for +" a b
))))
1130 (defun math-add-symb-fancy (a b
)
1131 (or (and math-simplify-only
1132 (not (equal a math-simplify-only
))
1134 (and (eq (car-safe b
) '+)
1135 (math-add (math-add a
(nth 1 b
))
1137 (and (eq (car-safe b
) '-
)
1138 (math-sub (math-add a
(nth 1 b
))
1140 (and (eq (car-safe b
) 'neg
)
1141 (eq (car-safe (nth 1 b
)) '+)
1142 (math-sub (math-sub a
(nth 1 (nth 1 b
)))
1144 (and (or (and (Math-vectorp a
) (math-known-scalarp b
))
1145 (and (Math-vectorp b
) (math-known-scalarp a
)))
1146 (math-map-vec-2 'math-add a b
))
1147 (let ((inf (math-infinitep a
)))
1150 (let ((inf2 (math-infinitep b
)))
1152 (if (or (memq (nth 2 inf
) '(var-uinf var-nan
))
1153 (memq (nth 2 inf2
) '(var-uinf var-nan
)))
1155 (let ((dir (math-infinite-dir a inf
))
1156 (dir2 (math-infinite-dir b inf2
)))
1157 (if (and (Math-objectp dir
) (Math-objectp dir2
))
1158 (if (Math-equal dir dir2
)
1160 '(var nan var-nan
)))))
1161 (if (and (equal a
'(var inf var-inf
))
1162 (eq (car-safe b
) 'intv
)
1163 (memq (nth 1 b
) '(2 3))
1164 (equal (nth 2 b
) '(neg (var inf var-inf
))))
1165 (list 'intv
3 (nth 2 b
) a
)
1166 (if (and (equal a
'(neg (var inf var-inf
)))
1167 (eq (car-safe b
) 'intv
)
1168 (memq (nth 1 b
) '(1 3))
1169 (equal (nth 3 b
) '(var inf var-inf
)))
1170 (list 'intv
3 a
(nth 3 b
))
1173 (if (eq (car-safe a
) 'intv
)
1176 ((eq (car-safe a
) '+)
1177 (let ((temp (math-combine-sum (nth 2 a
) b nil nil t
)))
1179 (math-add (nth 1 a
) temp
))))
1180 ((eq (car-safe a
) '-
)
1181 (let ((temp (math-combine-sum (nth 2 a
) b t nil t
)))
1183 (math-add (nth 1 a
) temp
))))
1184 ((and (Math-objectp a
) (Math-objectp b
))
1187 (math-combine-sum a b nil nil nil
))))
1188 (and (Math-looks-negp b
)
1189 (list '- a
(math-neg b
)))
1190 (and (Math-looks-negp a
)
1191 (list '- b
(math-neg a
)))
1192 (and (eq (car-safe a
) 'calcFunc-idn
)
1194 (or (and (eq (car-safe b
) 'calcFunc-idn
)
1196 (list 'calcFunc-idn
(math-add (nth 1 a
) (nth 1 b
))))
1197 (and (math-square-matrixp b
)
1198 (math-add (math-mimic-ident (nth 1 a
) b
) b
))
1199 (and (math-known-scalarp b
)
1200 (math-add (nth 1 a
) b
))))
1201 (and (eq (car-safe b
) 'calcFunc-idn
)
1203 (or (and (math-square-matrixp a
)
1204 (math-add a
(math-mimic-ident (nth 1 b
) a
)))
1205 (and (math-known-scalarp a
)
1206 (math-add a
(nth 1 b
)))))
1210 (defun calcFunc-mul (&rest rest
)
1212 (let ((a (car rest
)))
1213 (while (setq rest
(cdr rest
))
1214 (setq a
(list '* a
(car rest
))))
1218 (defun math-mul-objects-fancy (a b
)
1219 (cond ((and (Math-numberp a
) (Math-numberp b
))
1221 (if (math-want-polar a b
)
1222 (let ((a (math-polar a
))
1225 (math-mul (nth 1 a
) (nth 1 b
))
1226 (math-fix-circular (math-add (nth 2 a
) (nth 2 b
)))))
1227 (setq a
(math-complex a
)
1230 (math-sub (math-mul (nth 1 a
) (nth 1 b
))
1231 (math-mul (nth 2 a
) (nth 2 b
)))
1232 (math-add (math-mul (nth 1 a
) (nth 2 b
))
1233 (math-mul (nth 2 a
) (nth 1 b
)))))))
1235 (if (Math-vectorp b
)
1236 (if (math-matrixp a
)
1237 (if (math-matrixp b
)
1238 (if (= (length (nth 1 a
)) (length b
))
1240 (math-dimension-error))
1241 (if (= (length (nth 1 a
)) 2)
1242 (if (= (length a
) (length b
))
1243 (math-mul-mats a
(list 'vec b
))
1244 (math-dimension-error))
1245 (if (= (length (nth 1 a
)) (length b
))
1246 (math-mul-mat-vec a b
)
1247 (math-dimension-error))))
1248 (if (math-matrixp b
)
1249 (if (= (length a
) (length b
))
1250 (nth 1 (math-mul-mats (list 'vec a
) b
))
1251 (math-dimension-error))
1252 (if (= (length a
) (length b
))
1253 (math-dot-product a b
)
1254 (math-dimension-error))))
1255 (math-map-vec-2 'math-mul a b
)))
1257 (math-map-vec-2 'math-mul a b
))
1258 ((eq (car-safe a
) 'sdev
)
1259 (if (eq (car-safe b
) 'sdev
)
1260 (math-make-sdev (math-mul (nth 1 a
) (nth 1 b
))
1261 (math-hypot (math-mul (nth 2 a
) (nth 1 b
))
1262 (math-mul (nth 2 b
) (nth 1 a
))))
1263 (and (or (Math-scalarp b
)
1264 (not (Math-objvecp b
)))
1265 (math-make-sdev (math-mul (nth 1 a
) b
)
1266 (math-mul (nth 2 a
) b
)))))
1267 ((and (eq (car-safe b
) 'sdev
)
1268 (or (Math-scalarp a
)
1269 (not (Math-objvecp a
))))
1270 (math-make-sdev (math-mul a
(nth 1 b
)) (math-mul a
(nth 2 b
))))
1271 ((and (eq (car-safe a
) 'intv
) (Math-anglep b
))
1273 (math-neg (math-mul a
(math-neg b
)))
1274 (math-make-intv (nth 1 a
)
1275 (math-mul (nth 2 a
) b
)
1276 (math-mul (nth 3 a
) b
))))
1277 ((and (eq (car-safe b
) 'intv
) (Math-anglep a
))
1279 ((and (eq (car-safe a
) 'intv
) (math-intv-constp a
)
1280 (eq (car-safe b
) 'intv
) (math-intv-constp b
))
1281 (let ((lo (math-mul a
(nth 2 b
)))
1282 (hi (math-mul a
(nth 3 b
))))
1283 (or (eq (car-safe lo
) 'intv
)
1284 (setq lo
(list 'intv
(if (memq (nth 1 b
) '(2 3)) 3 0) lo lo
)))
1285 (or (eq (car-safe hi
) 'intv
)
1286 (setq hi
(list 'intv
(if (memq (nth 1 b
) '(1 3)) 3 0) hi hi
)))
1287 (math-combine-intervals
1288 (nth 2 lo
) (and (or (memq (nth 1 b
) '(2 3))
1289 (math-infinitep (nth 2 lo
)))
1290 (memq (nth 1 lo
) '(2 3)))
1291 (nth 3 lo
) (and (or (memq (nth 1 b
) '(2 3))
1292 (math-infinitep (nth 3 lo
)))
1293 (memq (nth 1 lo
) '(1 3)))
1294 (nth 2 hi
) (and (or (memq (nth 1 b
) '(1 3))
1295 (math-infinitep (nth 2 hi
)))
1296 (memq (nth 1 hi
) '(2 3)))
1297 (nth 3 hi
) (and (or (memq (nth 1 b
) '(1 3))
1298 (math-infinitep (nth 3 hi
)))
1299 (memq (nth 1 hi
) '(1 3))))))
1300 ((and (eq (car-safe a
) 'mod
)
1301 (eq (car-safe b
) 'mod
)
1302 (equal (nth 2 a
) (nth 2 b
)))
1303 (math-make-mod (math-mul (nth 1 a
) (nth 1 b
)) (nth 2 a
)))
1304 ((and (eq (car-safe a
) 'mod
)
1306 (math-make-mod (math-mul (nth 1 a
) b
) (nth 2 a
)))
1307 ((and (eq (car-safe b
) 'mod
)
1309 (math-make-mod (math-mul a
(nth 1 b
)) (nth 2 b
)))
1310 ((and (eq (car-safe a
) 'hms
) (Math-realp b
))
1311 (math-with-extra-prec 2
1312 (math-to-hms (math-mul (math-from-hms a
'deg
) b
) 'deg
)))
1313 ((and (eq (car-safe b
) 'hms
) (Math-realp a
))
1315 (t (calc-record-why "*Incompatible arguments for *" a b
))))
1317 ;;; Fast function to multiply floating-point numbers.
1318 (defun math-mul-float (a b
) ; [F F F]
1319 (math-make-float (math-mul (nth 1 a
) (nth 1 b
))
1320 (+ (nth 2 a
) (nth 2 b
))))
1322 (defun math-sqr-float (a) ; [F F]
1323 (math-make-float (math-mul (nth 1 a
) (nth 1 a
))
1324 (+ (nth 2 a
) (nth 2 a
))))
1326 (defun math-intv-constp (a &optional finite
)
1327 (and (or (Math-anglep (nth 2 a
))
1328 (and (equal (nth 2 a
) '(neg (var inf var-inf
)))
1330 (memq (nth 1 a
) '(0 1)))))
1331 (or (Math-anglep (nth 3 a
))
1332 (and (equal (nth 3 a
) '(var inf var-inf
))
1334 (memq (nth 1 a
) '(0 2)))))))
1336 (defun math-mul-zero (a b
)
1337 (if (math-known-matrixp b
)
1338 (if (math-vectorp b
)
1339 (math-map-vec-2 'math-mul a b
)
1340 (math-mimic-ident 0 b
))
1341 (if (math-infinitep b
)
1343 (let ((aa nil
) (bb nil
))
1344 (if (and (eq (car-safe b
) 'intv
)
1346 (and (equal (nth 2 b
) '(neg (var inf var-inf
)))
1347 (memq (nth 1 b
) '(2 3))
1348 (setq aa
(nth 2 b
)))
1349 (and (equal (nth 3 b
) '(var inf var-inf
))
1350 (memq (nth 1 b
) '(1 3))
1351 (setq bb
(nth 3 b
)))
1353 (if (or (math-posp a
)
1355 (or (memq calc-infinite-mode
'(-1 1))
1356 (setq aa
'(neg (var inf var-inf
))
1357 bb
'(var inf var-inf
)))))
1358 (list 'intv
3 (or aa
0) (or bb
0))
1360 (math-neg (list 'intv
3 (or aa
0) (or bb
0)))
1361 '(var nan var-nan
)))
1362 (if (or (math-floatp a
) (math-floatp b
)) '(float 0 0) 0))))))
1365 (defun math-mul-symb-fancy (a b
)
1366 (or (and math-simplify-only
1367 (not (equal a math-simplify-only
))
1369 (and (Math-equal-int a
1)
1371 (and (Math-equal-int a -
1)
1373 (and (or (and (Math-vectorp a
) (math-known-scalarp b
))
1374 (and (Math-vectorp b
) (math-known-scalarp a
)))
1375 (math-map-vec-2 'math-mul a b
))
1376 (and (Math-objectp b
) (not (Math-objectp a
))
1378 (and (eq (car-safe a
) 'neg
)
1379 (math-neg (math-mul (nth 1 a
) b
)))
1380 (and (eq (car-safe b
) 'neg
)
1381 (math-neg (math-mul a
(nth 1 b
))))
1382 (and (eq (car-safe a
) '*)
1384 (math-mul (nth 2 a
) b
)))
1385 (and (eq (car-safe a
) '^
)
1386 (Math-looks-negp (nth 2 a
))
1387 (not (and (eq (car-safe b
) '^
) (Math-looks-negp (nth 2 b
))))
1388 (math-known-scalarp b t
)
1389 (math-div b
(math-normalize
1390 (list '^
(nth 1 a
) (math-neg (nth 2 a
))))))
1391 (and (eq (car-safe b
) '^
)
1392 (Math-looks-negp (nth 2 b
))
1393 (not (and (eq (car-safe a
) '^
) (Math-looks-negp (nth 2 a
))))
1394 (not (math-known-matrixp (nth 1 b
)))
1395 (math-div a
(math-normalize
1396 (list '^
(nth 1 b
) (math-neg (nth 2 b
))))))
1397 (and (eq (car-safe a
) '/)
1398 (or (math-known-scalarp a t
) (math-known-scalarp b t
))
1399 (let ((temp (math-combine-prod (nth 2 a
) b t nil t
)))
1401 (math-mul (nth 1 a
) temp
)
1402 (math-div (math-mul (nth 1 a
) b
) (nth 2 a
)))))
1403 (and (eq (car-safe b
) '/)
1404 (math-div (math-mul a
(nth 1 b
)) (nth 2 b
)))
1405 (and (eq (car-safe b
) '+)
1407 (or (Math-numberp (nth 1 b
))
1408 (Math-numberp (nth 2 b
)))
1409 (math-add (math-mul a
(nth 1 b
))
1410 (math-mul a
(nth 2 b
))))
1411 (and (eq (car-safe b
) '-
)
1413 (or (Math-numberp (nth 1 b
))
1414 (Math-numberp (nth 2 b
)))
1415 (math-sub (math-mul a
(nth 1 b
))
1416 (math-mul a
(nth 2 b
))))
1417 (and (eq (car-safe b
) '*)
1418 (Math-numberp (nth 1 b
))
1419 (not (Math-numberp a
))
1420 (math-mul (nth 1 b
) (math-mul a
(nth 2 b
))))
1421 (and (eq (car-safe a
) 'calcFunc-idn
)
1423 (or (and (eq (car-safe b
) 'calcFunc-idn
)
1425 (list 'calcFunc-idn
(math-mul (nth 1 a
) (nth 1 b
))))
1426 (and (math-known-scalarp b
)
1427 (list 'calcFunc-idn
(math-mul (nth 1 a
) b
)))
1428 (and (math-known-matrixp b
)
1429 (math-mul (nth 1 a
) b
))))
1430 (and (eq (car-safe b
) 'calcFunc-idn
)
1432 (or (and (math-known-scalarp a
)
1433 (list 'calcFunc-idn
(math-mul a
(nth 1 b
))))
1434 (and (math-known-matrixp a
)
1435 (math-mul a
(nth 1 b
)))))
1436 (and (math-identity-matrix-p a t
)
1437 (or (and (eq (car-safe b
) 'calcFunc-idn
)
1439 (list 'calcFunc-idn
(math-mul
1443 (and (math-known-scalarp b
)
1444 (list 'calcFunc-idn
(math-mul
1445 (nth 1 (nth 1 a
)) b
)
1447 (and (math-known-matrixp b
)
1448 (math-mul (nth 1 (nth 1 a
)) b
))))
1449 (and (math-identity-matrix-p b t
)
1450 (or (and (eq (car-safe a
) 'calcFunc-idn
)
1452 (list 'calcFunc-idn
(math-mul (nth 1 a
)
1455 (and (math-known-scalarp a
)
1456 (list 'calcFunc-idn
(math-mul a
(nth 1 (nth 1 b
)))
1458 (and (math-known-matrixp a
)
1459 (math-mul a
(nth 1 (nth 1 b
))))))
1460 (and (math-looks-negp b
)
1461 (math-mul (math-neg a
) (math-neg b
)))
1462 (and (eq (car-safe b
) '-
)
1464 (math-mul (math-neg a
) (math-neg b
)))
1466 ((eq (car-safe b
) '*)
1467 (let ((temp (math-combine-prod a
(nth 1 b
) nil nil t
)))
1469 (math-mul temp
(nth 2 b
)))))
1471 (math-combine-prod a b nil nil nil
)))
1472 (and (equal a
'(var nan var-nan
))
1474 (and (equal b
'(var nan var-nan
))
1476 (and (equal a
'(var uinf var-uinf
))
1478 (and (equal b
'(var uinf var-uinf
))
1480 (and (equal b
'(var inf var-inf
))
1481 (let ((s1 (math-possible-signs a
)))
1485 '(intv 3 0 (var inf var-inf
)))
1489 '(intv 3 (neg (var inf var-inf
)) 0))
1490 ((and (eq (car a
) 'intv
) (math-intv-constp a
))
1491 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
)))
1492 ((and (eq (car a
) 'cplx
)
1493 (math-zerop (nth 1 a
)))
1494 (list '* (list 'cplx
0 (calcFunc-sign (nth 2 a
))) b
))
1495 ((eq (car a
) 'polar
)
1496 (list '* (list 'polar
1 (nth 2 a
)) b
)))))
1497 (and (equal a
'(var inf var-inf
))
1502 (defun calcFunc-div (a &rest rest
)
1504 (setq a
(list '/ a
(car rest
))
1508 (defun math-div-objects-fancy (a b
)
1509 (cond ((and (Math-numberp a
) (Math-numberp b
))
1511 (cond ((math-want-polar a b
)
1512 (let ((a (math-polar a
))
1515 (math-div (nth 1 a
) (nth 1 b
))
1516 (math-fix-circular (math-sub (nth 2 a
)
1519 (setq a
(math-complex a
))
1520 (list 'cplx
(math-div (nth 1 a
) b
)
1521 (math-div (nth 2 a
) b
)))
1523 (setq a
(math-complex a
)
1527 (math-add (math-mul (nth 1 a
) (nth 1 b
))
1528 (math-mul (nth 2 a
) (nth 2 b
)))
1529 (math-sub (math-mul (nth 2 a
) (nth 1 b
))
1530 (math-mul (nth 1 a
) (nth 2 b
))))
1531 (math-add (math-sqr (nth 1 b
))
1532 (math-sqr (nth 2 b
))))))))
1534 (if (math-square-matrixp b
)
1535 (let ((n1 (length b
)))
1536 (if (Math-vectorp a
)
1537 (if (math-matrixp a
)
1538 (if (= (length a
) n1
)
1539 (math-lud-solve (math-matrix-lud b
) a b
)
1540 (if (= (length (nth 1 a
)) n1
)
1542 (math-lud-solve (math-matrix-lud
1544 (math-transpose a
) b
))
1545 (math-dimension-error)))
1546 (if (= (length a
) n1
)
1547 (math-mat-col (math-lud-solve (math-matrix-lud b
)
1548 (math-col-matrix a
) b
)
1550 (math-dimension-error)))
1551 (if (Math-equal-int a
1)
1553 (math-mul a
(calcFunc-inv b
)))))
1554 (math-reject-arg b
'square-matrixp
)))
1555 ((and (Math-vectorp a
) (Math-objectp b
))
1556 (math-map-vec-2 'math-div a b
))
1557 ((eq (car-safe a
) 'sdev
)
1558 (if (eq (car-safe b
) 'sdev
)
1559 (let ((x (math-div (nth 1 a
) (nth 1 b
))))
1561 (math-div (math-hypot (nth 2 a
)
1562 (math-mul (nth 2 b
) x
))
1564 (if (or (Math-scalarp b
)
1565 (not (Math-objvecp b
)))
1566 (math-make-sdev (math-div (nth 1 a
) b
) (math-div (nth 2 a
) b
))
1567 (math-reject-arg 'realp b
))))
1568 ((and (eq (car-safe b
) 'sdev
)
1569 (or (Math-scalarp a
)
1570 (not (Math-objvecp a
))))
1571 (let ((x (math-div a
(nth 1 b
))))
1573 (math-div (math-mul (nth 2 b
) x
) (nth 1 b
)))))
1574 ((and (eq (car-safe a
) 'intv
) (Math-anglep b
))
1576 (math-neg (math-div a
(math-neg b
)))
1577 (math-make-intv (nth 1 a
)
1578 (math-div (nth 2 a
) b
)
1579 (math-div (nth 3 a
) b
))))
1580 ((and (eq (car-safe b
) 'intv
) (Math-anglep a
))
1581 (if (or (Math-posp (nth 2 b
))
1582 (and (Math-zerop (nth 2 b
)) (or (memq (nth 1 b
) '(0 1))
1583 calc-infinite-mode
)))
1585 (math-neg (math-div (math-neg a
) b
))
1586 (let ((calc-infinite-mode 1))
1587 (math-make-intv (aref [0 2 1 3] (nth 1 b
))
1588 (math-div a
(nth 3 b
))
1589 (math-div a
(nth 2 b
)))))
1590 (if (or (Math-negp (nth 3 b
))
1591 (and (Math-zerop (nth 3 b
)) (or (memq (nth 1 b
) '(0 2))
1592 calc-infinite-mode
)))
1593 (math-neg (math-div a
(math-neg b
)))
1594 (if calc-infinite-mode
1595 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
))
1596 (math-reject-arg b
"*Division by zero")))))
1597 ((and (eq (car-safe a
) 'intv
) (math-intv-constp a
)
1598 (eq (car-safe b
) 'intv
) (math-intv-constp b
))
1599 (if (or (Math-posp (nth 2 b
))
1600 (and (Math-zerop (nth 2 b
)) (or (memq (nth 1 b
) '(0 1))
1601 calc-infinite-mode
)))
1602 (let* ((calc-infinite-mode 1)
1603 (lo (math-div a
(nth 2 b
)))
1604 (hi (math-div a
(nth 3 b
))))
1605 (or (eq (car-safe lo
) 'intv
)
1606 (setq lo
(list 'intv
(if (memq (nth 1 b
) '(2 3)) 3 0)
1608 (or (eq (car-safe hi
) 'intv
)
1609 (setq hi
(list 'intv
(if (memq (nth 1 b
) '(1 3)) 3 0)
1611 (math-combine-intervals
1612 (nth 2 lo
) (and (or (memq (nth 1 b
) '(2 3))
1613 (and (math-infinitep (nth 2 lo
))
1614 (not (math-zerop (nth 2 b
)))))
1615 (memq (nth 1 lo
) '(2 3)))
1616 (nth 3 lo
) (and (or (memq (nth 1 b
) '(2 3))
1617 (and (math-infinitep (nth 3 lo
))
1618 (not (math-zerop (nth 2 b
)))))
1619 (memq (nth 1 lo
) '(1 3)))
1620 (nth 2 hi
) (and (or (memq (nth 1 b
) '(1 3))
1621 (and (math-infinitep (nth 2 hi
))
1622 (not (math-zerop (nth 3 b
)))))
1623 (memq (nth 1 hi
) '(2 3)))
1624 (nth 3 hi
) (and (or (memq (nth 1 b
) '(1 3))
1625 (and (math-infinitep (nth 3 hi
))
1626 (not (math-zerop (nth 3 b
)))))
1627 (memq (nth 1 hi
) '(1 3)))))
1628 (if (or (Math-negp (nth 3 b
))
1629 (and (Math-zerop (nth 3 b
)) (or (memq (nth 1 b
) '(0 2))
1630 calc-infinite-mode
)))
1631 (math-neg (math-div a
(math-neg b
)))
1632 (if calc-infinite-mode
1633 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
))
1634 (math-reject-arg b
"*Division by zero")))))
1635 ((and (eq (car-safe a
) 'mod
)
1636 (eq (car-safe b
) 'mod
)
1637 (equal (nth 2 a
) (nth 2 b
)))
1638 (math-make-mod (math-div-mod (nth 1 a
) (nth 1 b
) (nth 2 a
))
1640 ((and (eq (car-safe a
) 'mod
)
1642 (math-make-mod (math-div-mod (nth 1 a
) b
(nth 2 a
)) (nth 2 a
)))
1643 ((and (eq (car-safe b
) 'mod
)
1645 (math-make-mod (math-div-mod a
(nth 1 b
) (nth 2 b
)) (nth 2 b
)))
1646 ((eq (car-safe a
) 'hms
)
1647 (if (eq (car-safe b
) 'hms
)
1648 (math-with-extra-prec 1
1649 (math-div (math-from-hms a
'deg
)
1650 (math-from-hms b
'deg
)))
1651 (math-with-extra-prec 2
1652 (math-to-hms (math-div (math-from-hms a
'deg
) b
) 'deg
))))
1653 (t (calc-record-why "*Incompatible arguments for /" a b
))))
1655 (defun math-div-by-zero (a b
)
1656 (if (math-infinitep a
)
1657 (if (or (equal a
'(var nan var-nan
))
1658 (equal b
'(var uinf var-uinf
))
1659 (memq calc-infinite-mode
'(-1 1)))
1661 '(var uinf var-uinf
))
1662 (if calc-infinite-mode
1665 (if (eq calc-infinite-mode
1)
1666 (math-mul a
'(var inf var-inf
))
1667 (if (eq calc-infinite-mode -
1)
1668 (math-mul a
'(neg (var inf var-inf
)))
1669 (if (eq (car-safe a
) 'intv
)
1670 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
))
1671 '(var uinf var-uinf
)))))
1672 (math-reject-arg a
"*Division by zero"))))
1674 (defun math-div-zero (a b
)
1675 (if (math-known-matrixp b
)
1676 (if (math-vectorp b
)
1677 (math-map-vec-2 'math-div a b
)
1678 (math-mimic-ident 0 b
))
1679 (if (equal b
'(var nan var-nan
))
1681 (if (and (eq (car-safe b
) 'intv
) (math-intv-constp b
)
1682 (not (math-posp b
)) (not (math-negp b
)))
1683 (if calc-infinite-mode
1685 (if (and (math-zerop (nth 2 b
))
1686 (memq calc-infinite-mode
'(1 -
1)))
1687 (nth 2 b
) '(neg (var inf var-inf
)))
1688 (if (and (math-zerop (nth 3 b
))
1689 (memq calc-infinite-mode
'(1 -
1)))
1690 (nth 3 b
) '(var inf var-inf
)))
1691 (math-reject-arg b
"*Division by zero"))
1694 ;; For math-div-symb-fancy
1695 (defvar math-trig-inverses
1696 '((calcFunc-sin . calcFunc-csc
)
1697 (calcFunc-cos . calcFunc-sec
)
1698 (calcFunc-tan . calcFunc-cot
)
1699 (calcFunc-sec . calcFunc-cos
)
1700 (calcFunc-csc . calcFunc-sin
)
1701 (calcFunc-cot . calcFunc-tan
)
1702 (calcFunc-sinh . calcFunc-csch
)
1703 (calcFunc-cosh . calcFunc-sech
)
1704 (calcFunc-tanh . calcFunc-coth
)
1705 (calcFunc-sech . calcFunc-cosh
)
1706 (calcFunc-csch . calcFunc-sinh
)
1707 (calcFunc-coth . calcFunc-tanh
)))
1709 (defvar math-div-trig
)
1710 (defvar math-div-non-trig
)
1712 (defun math-div-new-trig (tr)
1715 (list '* tr math-div-trig
))
1716 (setq math-div-trig tr
)))
1718 (defun math-div-new-non-trig (ntr)
1719 (if math-div-non-trig
1720 (setq math-div-non-trig
1721 (list '* ntr math-div-non-trig
))
1722 (setq math-div-non-trig ntr
)))
1724 (defun math-div-isolate-trig (expr)
1725 (if (eq (car-safe expr
) '*)
1727 (math-div-isolate-trig-term (nth 1 expr
))
1728 (math-div-isolate-trig (nth 2 expr
)))
1729 (math-div-isolate-trig-term expr
)))
1731 (defun math-div-isolate-trig-term (term)
1732 (let ((fn (assoc (car-safe term
) math-trig-inverses
)))
1735 (cons (cdr fn
) (cdr term
)))
1736 (math-div-new-non-trig term
))))
1738 (defun math-div-symb-fancy (a b
)
1739 (or (and (math-known-matrixp b
)
1740 (math-mul a
(math-pow b -
1)))
1741 (and math-simplify-only
1742 (not (equal a math-simplify-only
))
1744 (and (Math-equal-int b
1) a
)
1745 (and (Math-equal-int b -
1) (math-neg a
))
1746 (and (Math-vectorp a
) (math-known-scalarp b
)
1747 (math-map-vec-2 'math-div a b
))
1748 (and (eq (car-safe b
) '^
)
1749 (or (Math-looks-negp (nth 2 b
)) (Math-equal-int a
1))
1750 (math-mul a
(math-normalize
1751 (list '^
(nth 1 b
) (math-neg (nth 2 b
))))))
1752 (and (eq (car-safe a
) 'neg
)
1753 (math-neg (math-div (nth 1 a
) b
)))
1754 (and (eq (car-safe b
) 'neg
)
1755 (math-neg (math-div a
(nth 1 b
))))
1756 (and (eq (car-safe a
) '/)
1757 (math-div (nth 1 a
) (math-mul (nth 2 a
) b
)))
1758 (and (eq (car-safe b
) '/)
1759 (or (math-known-scalarp (nth 1 b
) t
)
1760 (math-known-scalarp (nth 2 b
) t
))
1761 (math-div (math-mul a
(nth 2 b
)) (nth 1 b
)))
1762 (and (eq (car-safe b
) 'frac
)
1763 (math-mul (math-make-frac (nth 2 b
) (nth 1 b
)) a
))
1764 (and (eq (car-safe a
) '+)
1765 (or (Math-numberp (nth 1 a
))
1766 (Math-numberp (nth 2 a
)))
1768 (math-add (math-div (nth 1 a
) b
)
1769 (math-div (nth 2 a
) b
)))
1770 (and (eq (car-safe a
) '-
)
1771 (or (Math-numberp (nth 1 a
))
1772 (Math-numberp (nth 2 a
)))
1774 (math-sub (math-div (nth 1 a
) b
)
1775 (math-div (nth 2 a
) b
)))
1776 (and (or (eq (car-safe a
) '-
)
1777 (math-looks-negp a
))
1779 (math-div (math-neg a
) (math-neg b
)))
1780 (and (eq (car-safe b
) '-
)
1782 (math-div (math-neg a
) (math-neg b
)))
1783 (and (eq (car-safe a
) 'calcFunc-idn
)
1785 (or (and (eq (car-safe b
) 'calcFunc-idn
)
1787 (list 'calcFunc-idn
(math-div (nth 1 a
) (nth 1 b
))))
1788 (and (math-known-scalarp b
)
1789 (list 'calcFunc-idn
(math-div (nth 1 a
) b
)))
1790 (and (math-known-matrixp b
)
1791 (math-div (nth 1 a
) b
))))
1792 (and (eq (car-safe b
) 'calcFunc-idn
)
1794 (or (and (math-known-scalarp a
)
1795 (list 'calcFunc-idn
(math-div a
(nth 1 b
))))
1796 (and (math-known-matrixp a
)
1797 (math-div a
(nth 1 b
)))))
1798 (and math-simplifying
1799 (let ((math-div-trig nil
)
1800 (math-div-non-trig nil
))
1801 (math-div-isolate-trig b
)
1803 (if math-div-non-trig
1804 (math-div (math-mul a math-div-trig
) math-div-non-trig
)
1805 (math-mul a math-div-trig
))
1807 (if (and calc-matrix-mode
1808 (or (math-known-matrixp a
) (math-known-matrixp b
)))
1809 (math-combine-prod a b nil t nil
)
1810 (if (eq (car-safe a
) '*)
1811 (if (eq (car-safe b
) '*)
1812 (let ((c (math-combine-prod (nth 1 a
) (nth 1 b
) nil t t
)))
1814 (math-div (math-mul c
(nth 2 a
)) (nth 2 b
))))
1815 (let ((c (math-combine-prod (nth 1 a
) b nil t t
)))
1817 (math-mul c
(nth 2 a
)))))
1818 (if (eq (car-safe b
) '*)
1819 (let ((c (math-combine-prod a
(nth 1 b
) nil t t
)))
1821 (math-div c
(nth 2 b
))))
1822 (math-combine-prod a b nil t nil
))))
1823 (and (math-infinitep a
)
1824 (if (math-infinitep b
)
1826 (if (or (equal a
'(var nan var-nan
))
1827 (equal a
'(var uinf var-uinf
)))
1829 (if (equal a
'(var inf var-inf
))
1830 (if (or (math-posp b
)
1831 (and (eq (car-safe b
) 'intv
)
1832 (math-zerop (nth 2 b
))))
1833 (if (and (eq (car-safe b
) 'intv
)
1834 (not (math-intv-constp b t
)))
1835 '(intv 3 0 (var inf var-inf
))
1837 (if (or (math-negp b
)
1838 (and (eq (car-safe b
) 'intv
)
1839 (math-zerop (nth 3 b
))))
1840 (if (and (eq (car-safe b
) 'intv
)
1841 (not (math-intv-constp b t
)))
1842 '(intv 3 (neg (var inf var-inf
)) 0)
1844 (if (and (eq (car-safe b
) 'intv
)
1845 (math-negp (nth 2 b
)) (math-posp (nth 3 b
)))
1846 '(intv 3 (neg (var inf var-inf
))
1847 (var inf var-inf
)))))))))
1848 (and (math-infinitep b
)
1849 (if (equal b
'(var nan var-nan
))
1851 (let ((calc-infinite-mode 1))
1852 (math-mul-zero b a
))))
1855 ;;; Division from the left.
1856 (defun calcFunc-ldiv (a b
)
1857 (if (math-known-scalarp a
)
1859 (math-mul (math-pow a -
1) b
)))
1861 (defun calcFunc-mod (a b
)
1862 (math-normalize (list '% a b
)))
1864 (defun math-mod-fancy (a b
)
1865 (cond ((equal b
'(var inf var-inf
))
1866 (if (or (math-posp a
) (math-zerop a
))
1870 (if (eq (car-safe a
) 'intv
)
1871 (if (math-negp (nth 2 a
))
1872 '(intv 3 0 (var inf var-inf
))
1875 ((and (eq (car-safe a
) 'mod
) (Math-realp b
) (math-posp b
))
1876 (math-make-mod (nth 1 a
) b
))
1877 ((and (eq (car-safe a
) 'intv
) (math-intv-constp a t
) (math-posp b
))
1878 (math-mod-intv a b
))
1881 (calc-record-why 'anglep b
)
1882 (calc-record-why 'anglep a
))
1886 (defun calcFunc-pow (a b
)
1887 (math-normalize (list '^ a b
)))
1889 (defun math-pow-of-zero (a b
)
1890 "Raise A to the power of B, where A is a form of zero."
1891 (if (math-floatp b
) (setq a
(math-float a
)))
1896 ;; 0^0.0, etc., are undetermined
1898 (if calc-infinite-mode
1900 (math-reject-arg (list '^ a b
) "*Indeterminate form")))
1902 ((math-known-posp b
)
1904 ;; 0^negative is undefined (let math-div handle it)
1905 ((math-known-negp b
)
1907 ;; 0^infinity is undefined
1911 ((and (eq (car b
) 'intv
)
1913 (math-negp (nth 2 b
))
1914 (math-posp (nth 3 b
)))
1915 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
)))
1916 ;; If none of the above, leave it alone.
1920 (defun math-pow-zero (a b
)
1921 (if (eq (car-safe a
) 'mod
)
1922 (math-make-mod 1 (nth 2 a
))
1923 (if (math-known-matrixp a
)
1924 (math-mimic-ident 1 a
)
1925 (if (math-infinitep a
)
1927 (if (and (eq (car a
) 'intv
) (math-intv-constp a
)
1928 (or (and (not (math-posp a
)) (not (math-negp a
)))
1929 (not (math-intv-constp a t
))))
1930 '(intv 3 (neg (var inf var-inf
)) (var inf var-inf
))
1931 (if (or (math-floatp a
) (math-floatp b
))
1932 '(float 1 0) 1))))))
1934 (defun math-pow-fancy (a b
)
1935 (cond ((and (Math-numberp a
) (Math-numberp b
))
1936 (or (if (memq (math-quarter-integer b
) '(1 2 3))
1937 (let ((sqrt (math-sqrt (if (math-floatp b
)
1938 (math-float a
) a
))))
1939 (and (Math-numberp sqrt
)
1940 (math-pow sqrt
(math-mul 2 b
))))
1941 (and (eq (car b
) 'frac
)
1942 (integerp (nth 2 b
))
1944 (let ((root (math-nth-root a
(nth 2 b
))))
1945 (and root
(math-ipow root
(nth 1 b
))))))
1946 (and (or (eq a
10) (equal a
'(float 1 1)))
1947 (math-num-integerp b
)
1948 (calcFunc-scf '(float 1 0) b
))
1949 (and calc-symbolic-mode
1951 (math-with-extra-prec 2
1953 (math-float (math-mul b
(math-ln-raw (math-float a
))))))))
1954 ((or (not (Math-objvecp a
))
1955 (not (Math-objectp b
)))
1957 (cond ((and math-simplify-only
1958 (not (equal a math-simplify-only
)))
1960 ((and (eq (car-safe a
) '*)
1963 (math-known-matrixp (nth 1 a
))
1964 (math-known-matrixp (nth 2 a
)))
1967 (not (eq calc-matrix-mode
'scalar
))
1968 (and (not (math-known-scalarp (nth 1 a
)))
1969 (not (math-known-scalarp (nth 2 a
)))))))
1971 (math-known-square-matrixp (nth 1 a
))
1972 (math-known-square-matrixp (nth 2 a
)))
1973 (math-mul (math-pow-fancy (nth 2 a
) -
1)
1974 (math-pow-fancy (nth 1 a
) -
1))
1976 ((and (eq (car-safe a
) '*)
1977 (or (math-known-num-integerp b
)
1978 (math-known-nonnegp (nth 1 a
))
1979 (math-known-nonnegp (nth 2 a
))))
1980 (math-mul (math-pow (nth 1 a
) b
)
1981 (math-pow (nth 2 a
) b
)))
1982 ((and (eq (car-safe a
) '/)
1983 (or (math-known-num-integerp b
)
1984 (math-known-nonnegp (nth 2 a
))))
1985 (math-div (math-pow (nth 1 a
) b
)
1986 (math-pow (nth 2 a
) b
)))
1987 ((and (eq (car-safe a
) '/)
1988 (math-known-nonnegp (nth 1 a
))
1989 (not (math-equal-int (nth 1 a
) 1)))
1990 (math-mul (math-pow (nth 1 a
) b
)
1991 (math-pow (math-div 1 (nth 2 a
)) b
)))
1992 ((and (eq (car-safe a
) '^
)
1993 (or (math-known-num-integerp b
)
1994 (math-known-nonnegp (nth 1 a
))))
1995 (math-pow (nth 1 a
) (math-mul (nth 2 a
) b
)))
1996 ((and (eq (car-safe a
) 'calcFunc-sqrt
)
1997 (or (math-known-num-integerp b
)
1998 (math-known-nonnegp (nth 1 a
))))
1999 (math-pow (nth 1 a
) (math-div b
2)))
2000 ((and (eq (car-safe a
) '^
)
2001 (math-known-evenp (nth 2 a
))
2002 (memq (math-quarter-integer b
) '(1 2 3))
2003 (math-known-realp (nth 1 a
)))
2004 (math-abs (math-pow (nth 1 a
) (math-mul (nth 2 a
) b
))))
2005 ((and (math-looks-negp a
)
2006 (math-known-integerp b
)
2007 (setq temp
(or (and (math-known-evenp b
)
2008 (math-pow (math-neg a
) b
))
2009 (and (math-known-oddp b
)
2010 (math-neg (math-pow (math-neg a
)
2013 ((and (eq (car-safe a
) 'calcFunc-abs
)
2014 (math-known-realp (nth 1 a
))
2015 (math-known-evenp b
))
2016 (math-pow (nth 1 a
) b
))
2018 (cond ((equal a
'(var nan var-nan
))
2021 (math-mul (math-pow -
1 b
) (math-pow (nth 1 a
) b
)))
2025 (if (math-floatp b
) '(float 0 0) 0))
2026 ((and (eq (car-safe b
) 'intv
)
2027 (math-intv-constp b
))
2028 '(intv 3 0 (var inf var-inf
)))
2030 '(var nan var-nan
))))
2033 (cond ((math-negp b
)
2034 (math-pow (math-div 1 a
) (math-neg b
)))
2035 ((not (math-posp b
))
2037 ((math-equal-int (setq scale
(calcFunc-abssqr a
)) 1)
2039 ((Math-lessp scale
1)
2040 (if (math-floatp a
) '(float 0 0) 0))
2044 '(var uinf var-uinf
))
2045 ((and (eq (car a
) 'intv
)
2046 (math-intv-constp a
))
2047 (if (Math-lessp -
1 a
)
2048 (if (math-equal-int (nth 3 a
) 1)
2050 '(intv 3 0 (var inf var-inf
)))
2051 '(intv 3 (neg (var inf var-inf
))
2052 (var inf var-inf
))))
2053 (t (list '^ a b
)))))
2054 ((and (eq (car-safe a
) 'calcFunc-idn
)
2056 (math-known-num-integerp b
))
2057 (list 'calcFunc-idn
(math-pow (nth 1 a
) b
)))
2058 (t (if (Math-objectp a
)
2059 (calc-record-why 'objectp b
)
2060 (calc-record-why 'objectp a
))
2062 ((and (eq (car-safe a
) 'sdev
) (eq (car-safe b
) 'sdev
))
2063 (if (and (math-constp a
) (math-constp b
))
2064 (math-with-extra-prec 2
2065 (let* ((ln (math-ln-raw (math-float (nth 1 a
))))
2067 (math-float (math-mul (nth 1 b
) ln
)))))
2072 (math-hypot (math-mul (nth 2 a
)
2073 (math-div (nth 1 b
) (nth 1 a
)))
2074 (math-mul (nth 2 b
) ln
))))))
2075 (let ((pow (math-pow (nth 1 a
) (nth 1 b
))))
2079 (math-hypot (math-mul (nth 2 a
)
2080 (math-div (nth 1 b
) (nth 1 a
)))
2081 (math-mul (nth 2 b
) (calcFunc-ln
2083 ((and (eq (car-safe a
) 'sdev
) (Math-numberp b
))
2085 (math-with-extra-prec 2
2086 (let ((pow (math-pow (nth 1 a
) (math-sub b
1))))
2087 (math-make-sdev (math-mul pow
(nth 1 a
))
2088 (math-mul pow
(math-mul (nth 2 a
) b
)))))
2089 (math-make-sdev (math-pow (nth 1 a
) b
)
2090 (math-mul (math-pow (nth 1 a
) (math-add b -
1))
2091 (math-mul (nth 2 a
) b
)))))
2092 ((and (eq (car-safe b
) 'sdev
) (Math-numberp a
))
2093 (math-with-extra-prec 2
2094 (let* ((ln (math-ln-raw (math-float a
)))
2095 (pow (calcFunc-exp (math-mul (nth 1 b
) ln
))))
2096 (math-make-sdev pow
(math-mul pow
(math-mul (nth 2 b
) ln
))))))
2097 ((and (eq (car-safe a
) 'intv
) (math-intv-constp a
)
2099 (or (Math-natnump b
)
2100 (Math-posp (nth 2 a
))
2101 (and (math-zerop (nth 2 a
))
2103 (and (Math-integerp b
) calc-infinite-mode
)))
2104 (Math-negp (nth 3 a
))
2105 (and (math-zerop (nth 3 a
))
2107 (and (Math-integerp b
) calc-infinite-mode
)))))
2109 (setq a
(math-abs a
)))
2110 (let ((calc-infinite-mode (if (math-zerop (nth 3 a
)) -
1 1)))
2111 (math-sort-intv (nth 1 a
)
2112 (math-pow (nth 2 a
) b
)
2113 (math-pow (nth 3 a
) b
))))
2114 ((and (eq (car-safe b
) 'intv
) (math-intv-constp b
)
2115 (Math-realp a
) (Math-posp a
))
2116 (math-sort-intv (nth 1 b
)
2117 (math-pow a
(nth 2 b
))
2118 (math-pow a
(nth 3 b
))))
2119 ((and (eq (car-safe a
) 'intv
) (math-intv-constp a
)
2120 (eq (car-safe b
) 'intv
) (math-intv-constp b
)
2121 (or (and (not (Math-negp (nth 2 a
)))
2122 (not (Math-negp (nth 2 b
))))
2123 (and (Math-posp (nth 2 a
))
2124 (not (Math-posp (nth 3 b
))))))
2125 (let ((lo (math-pow a
(nth 2 b
)))
2126 (hi (math-pow a
(nth 3 b
))))
2127 (or (eq (car-safe lo
) 'intv
)
2128 (setq lo
(list 'intv
(if (memq (nth 1 b
) '(2 3)) 3 0) lo lo
)))
2129 (or (eq (car-safe hi
) 'intv
)
2130 (setq hi
(list 'intv
(if (memq (nth 1 b
) '(1 3)) 3 0) hi hi
)))
2131 (math-combine-intervals
2132 (nth 2 lo
) (and (or (memq (nth 1 b
) '(2 3))
2133 (math-infinitep (nth 2 lo
)))
2134 (memq (nth 1 lo
) '(2 3)))
2135 (nth 3 lo
) (and (or (memq (nth 1 b
) '(2 3))
2136 (math-infinitep (nth 3 lo
)))
2137 (memq (nth 1 lo
) '(1 3)))
2138 (nth 2 hi
) (and (or (memq (nth 1 b
) '(1 3))
2139 (math-infinitep (nth 2 hi
)))
2140 (memq (nth 1 hi
) '(2 3)))
2141 (nth 3 hi
) (and (or (memq (nth 1 b
) '(1 3))
2142 (math-infinitep (nth 3 hi
)))
2143 (memq (nth 1 hi
) '(1 3))))))
2144 ((and (eq (car-safe a
) 'mod
) (eq (car-safe b
) 'mod
)
2145 (equal (nth 2 a
) (nth 2 b
)))
2146 (math-make-mod (math-pow-mod (nth 1 a
) (nth 1 b
) (nth 2 a
))
2148 ((and (eq (car-safe a
) 'mod
) (Math-anglep b
))
2149 (math-make-mod (math-pow-mod (nth 1 a
) b
(nth 2 a
)) (nth 2 a
)))
2150 ((and (eq (car-safe b
) 'mod
) (Math-anglep a
))
2151 (math-make-mod (math-pow-mod a
(nth 1 b
) (nth 2 b
)) (nth 2 b
)))
2152 ((not (Math-numberp a
))
2153 (math-reject-arg a
'numberp
))
2155 (math-reject-arg b
'numberp
))))
2157 (defun math-quarter-integer (x)
2158 (if (Math-integerp x
)
2162 (setq x
(math-quarter-integer (math-neg x
)))
2164 (if (eq (car x
) 'frac
)
2165 (if (eq (nth 2 x
) 2)
2167 (and (eq (nth 2 x
) 4)
2170 (%
(if (consp x
) (nth 1 x
) x
) 4))))
2171 (if (eq (car x
) 'float
)
2172 (if (>= (nth 2 x
) 0)
2174 (if (= (nth 2 x
) -
1)
2177 (and (= (%
(if (consp x
) (nth 1 x
) x
) 10) 5) 2))
2178 (if (= (nth 2 x
) -
2)
2181 x
(%
(if (consp x
) (nth 1 x
) x
) 100))
2183 (if (= x
75) 3)))))))))))
2185 ;;; This assumes A < M and M > 0.
2186 (defun math-pow-mod (a b m
) ; [R R R R]
2187 (if (and (Math-integerp a
) (Math-integerp b
) (Math-integerp m
))
2189 (math-div-mod 1 (math-pow-mod a
(Math-integer-neg b
) m
) m
)
2192 (math-pow-mod-step a b m
)))
2193 (math-mod (math-pow a b
) m
)))
2195 (defun math-pow-mod-step (a n m
) ; [I I I I]
2196 (math-working "pow" a
)
2201 (let ((rest (math-pow-mod-step
2202 (math-imod (math-mul a a
) m
)
2207 (math-mod (math-mul a rest
) m
)))))))
2208 (math-working "pow" val
)
2212 ;;; Compute the minimum of two real numbers. [R R R] [Public]
2213 (defun math-min (a b
)
2214 (if (and (consp a
) (eq (car a
) 'intv
))
2215 (if (and (consp b
) (eq (car b
) 'intv
))
2216 (let ((lo (nth 2 a
))
2217 (lom (memq (nth 1 a
) '(2 3)))
2219 (him (memq (nth 1 a
) '(1 3)))
2221 (if (= (setq res
(math-compare (nth 2 b
) lo
)) -
1)
2222 (setq lo
(nth 2 b
) lom
(memq (nth 1 b
) '(2 3)))
2224 (setq lom
(or lom
(memq (nth 1 b
) '(2 3))))))
2225 (if (= (setq res
(math-compare (nth 3 b
) hi
)) -
1)
2226 (setq hi
(nth 3 b
) him
(memq (nth 1 b
) '(1 3)))
2228 (setq him
(or him
(memq (nth 1 b
) '(1 3))))))
2229 (math-make-intv (+ (if lom
2 0) (if him
1 0)) lo hi
))
2230 (math-min a
(list 'intv
3 b b
)))
2231 (if (and (consp b
) (eq (car b
) 'intv
))
2232 (math-min (list 'intv
3 a a
) b
)
2233 (let ((res (math-compare a b
)))
2240 (defun calcFunc-min (&optional a
&rest b
)
2243 (if (not (or (Math-anglep a
) (eq (car a
) 'date
)
2244 (and (eq (car a
) 'intv
) (math-intv-constp a
))
2245 (math-infinitep a
)))
2246 (math-reject-arg a
'anglep
))
2247 (math-min-list a b
)))
2249 (defun math-min-list (a b
)
2251 (if (or (Math-anglep (car b
)) (eq (caar b
) 'date
)
2252 (and (eq (car (car b
)) 'intv
) (math-intv-constp (car b
)))
2253 (math-infinitep (car b
)))
2254 (math-min-list (math-min a
(car b
)) (cdr b
))
2255 (math-reject-arg (car b
) 'anglep
))
2258 ;;; Compute the maximum of two real numbers. [R R R] [Public]
2259 (defun math-max (a b
)
2260 (if (or (and (consp a
) (eq (car a
) 'intv
))
2261 (and (consp b
) (eq (car b
) 'intv
)))
2262 (math-neg (math-min (math-neg a
) (math-neg b
)))
2263 (let ((res (math-compare a b
)))
2270 (defun calcFunc-max (&optional a
&rest b
)
2272 '(neg (var inf var-inf
))
2273 (if (not (or (Math-anglep a
) (eq (car a
) 'date
)
2274 (and (eq (car a
) 'intv
) (math-intv-constp a
))
2275 (math-infinitep a
)))
2276 (math-reject-arg a
'anglep
))
2277 (math-max-list a b
)))
2279 (defun math-max-list (a b
)
2281 (if (or (Math-anglep (car b
)) (eq (caar b
) 'date
)
2282 (and (eq (car (car b
)) 'intv
) (math-intv-constp (car b
)))
2283 (math-infinitep (car b
)))
2284 (math-max-list (math-max a
(car b
)) (cdr b
))
2285 (math-reject-arg (car b
) 'anglep
))
2289 ;;; Compute the absolute value of A. [O O; r r] [Public]
2291 (cond ((Math-negp a
)
2296 (math-hypot (nth 1 a
) (nth 2 a
)))
2297 ((eq (car a
) 'polar
)
2300 (if (cdr (cdr (cdr a
)))
2301 (math-sqrt (calcFunc-abssqr a
))
2303 (math-hypot (nth 1 a
) (nth 2 a
))
2305 (math-abs (nth 1 a
))
2308 (list 'sdev
(math-abs (nth 1 a
)) (nth 2 a
)))
2309 ((and (eq (car a
) 'intv
) (math-intv-constp a
))
2312 (let* ((nlo (math-neg (nth 2 a
)))
2313 (res (math-compare nlo
(nth 3 a
))))
2315 (math-make-intv (if (memq (nth 1 a
) '(0 1)) 2 3) 0 nlo
))
2317 (math-make-intv (if (eq (nth 1 a
) 0) 2 3) 0 nlo
))
2319 (math-make-intv (if (memq (nth 1 a
) '(0 2)) 2 3)
2321 ((math-looks-negp a
)
2322 (list 'calcFunc-abs
(math-neg a
)))
2323 ((let ((signs (math-possible-signs a
)))
2324 (or (and (memq signs
'(2 4 6)) a
)
2325 (and (memq signs
'(1 3)) (math-neg a
)))))
2326 ((let ((inf (math-infinitep a
)))
2328 (if (equal inf
'(var nan var-nan
))
2330 '(var inf var-inf
)))))
2331 (t (calc-record-why 'numvecp a
)
2332 (list 'calcFunc-abs a
))))
2334 (defalias 'calcFunc-abs
'math-abs
)
2336 (defun math-float-fancy (a)
2337 (cond ((eq (car a
) 'intv
)
2338 (cons (car a
) (cons (nth 1 a
) (mapcar 'math-float
(nthcdr 2 a
)))))
2339 ((and (memq (car a
) '(* /))
2340 (math-numberp (nth 1 a
)))
2341 (list (car a
) (math-float (nth 1 a
))
2342 (list 'calcFunc-float
(nth 2 a
))))
2343 ((and (eq (car a
) '/)
2344 (eq (car (nth 1 a
)) '*)
2345 (math-numberp (nth 1 (nth 1 a
))))
2346 (list '* (math-float (nth 1 (nth 1 a
)))
2347 (list 'calcFunc-float
(list '/ (nth 2 (nth 1 a
)) (nth 2 a
)))))
2348 ((math-infinitep a
) a
)
2349 ((eq (car a
) 'calcFunc-float
) a
)
2350 ((let ((func (assq (car a
) '((calcFunc-floor . calcFunc-ffloor
)
2351 (calcFunc-ceil . calcFunc-fceil
)
2352 (calcFunc-trunc . calcFunc-ftrunc
)
2353 (calcFunc-round . calcFunc-fround
)
2354 (calcFunc-rounde . calcFunc-frounde
)
2355 (calcFunc-roundu . calcFunc-froundu
)))))
2356 (and func
(cons (cdr func
) (cdr a
)))))
2357 (t (math-reject-arg a
'objectp
))))
2359 (defalias 'calcFunc-float
'math-float
)
2361 ;; The variable math-trunc-prec is local to math-trunc in calc-misc.el,
2362 ;; but used by math-trunc-fancy which is called by math-trunc.
2363 (defvar math-trunc-prec
)
2365 (defun math-trunc-fancy (a)
2366 (cond ((eq (car a
) 'frac
) (math-quotient (nth 1 a
) (nth 2 a
)))
2367 ((eq (car a
) 'cplx
) (math-trunc (nth 1 a
)))
2368 ((eq (car a
) 'polar
) (math-trunc (math-complex a
)))
2369 ((eq (car a
) 'hms
) (list 'hms
(nth 1 a
) 0 0))
2370 ((eq (car a
) 'date
) (list 'date
(math-trunc (nth 1 a
))))
2372 (if (math-messy-integerp (nth 2 a
))
2373 (math-trunc (math-make-mod (nth 1 a
) (math-trunc (nth 2 a
))))
2374 (math-make-mod (math-trunc (nth 1 a
)) (nth 2 a
))))
2376 (math-make-intv (+ (if (and (equal (nth 2 a
) '(neg (var inf var-inf
)))
2377 (memq (nth 1 a
) '(0 1)))
2379 (if (and (equal (nth 3 a
) '(var inf var-inf
))
2380 (memq (nth 1 a
) '(0 2)))
2382 (if (and (Math-negp (nth 2 a
))
2383 (Math-num-integerp (nth 2 a
))
2384 (memq (nth 1 a
) '(0 1)))
2385 (math-add (math-trunc (nth 2 a
)) 1)
2386 (math-trunc (nth 2 a
)))
2387 (if (and (Math-posp (nth 3 a
))
2388 (Math-num-integerp (nth 3 a
))
2389 (memq (nth 1 a
) '(0 2)))
2390 (math-add (math-trunc (nth 3 a
)) -
1)
2391 (math-trunc (nth 3 a
)))))
2392 ((math-provably-integerp a
) a
)
2394 (math-map-vec (function (lambda (x) (math-trunc x math-trunc-prec
))) a
))
2396 (if (or (math-posp a
) (math-negp a
))
2398 '(var nan var-nan
)))
2399 ((math-to-integer a
))
2400 (t (math-reject-arg a
'numberp
))))
2402 (defun math-trunc-special (a prec
)
2403 (if (Math-messy-integerp prec
)
2404 (setq prec
(math-trunc prec
)))
2406 (math-reject-arg prec
'fixnump
))
2407 (if (and (<= prec
0)
2408 (math-provably-integerp a
))
2410 (calcFunc-scf (math-trunc (let ((calc-prefer-frac t
))
2411 (calcFunc-scf a prec
)))
2414 (defun math-to-integer (a)
2415 (let ((func (assq (car-safe a
) '((calcFunc-ffloor . calcFunc-floor
)
2416 (calcFunc-fceil . calcFunc-ceil
)
2417 (calcFunc-ftrunc . calcFunc-trunc
)
2418 (calcFunc-fround . calcFunc-round
)
2419 (calcFunc-frounde . calcFunc-rounde
)
2420 (calcFunc-froundu . calcFunc-roundu
)))))
2421 (and func
(= (length a
) 2)
2422 (cons (cdr func
) (cdr a
)))))
2424 (defun calcFunc-ftrunc (a &optional prec
)
2425 (if (and (Math-messy-integerp a
)
2426 (or (not prec
) (and (integerp prec
)
2429 (math-float (math-trunc a prec
))))
2431 ;; The variable math-floor-prec is local to math-floor in calc-misc.el,
2432 ;; but used by math-floor-fancy which is called by math-floor.
2433 (defvar math-floor-prec
)
2435 (defun math-floor-fancy (a)
2436 (cond ((math-provably-integerp a
) a
)
2438 (if (or (math-posp a
)
2439 (and (math-zerop (nth 2 a
))
2440 (math-zerop (nth 3 a
))))
2442 (math-add (math-trunc a
) -
1)))
2443 ((eq (car a
) 'date
) (list 'date
(math-floor (nth 1 a
))))
2445 (math-make-intv (+ (if (and (equal (nth 2 a
) '(neg (var inf var-inf
)))
2446 (memq (nth 1 a
) '(0 1)))
2448 (if (and (equal (nth 3 a
) '(var inf var-inf
))
2449 (memq (nth 1 a
) '(0 2)))
2451 (math-floor (nth 2 a
))
2452 (if (and (Math-num-integerp (nth 3 a
))
2453 (memq (nth 1 a
) '(0 2)))
2454 (math-add (math-floor (nth 3 a
)) -
1)
2455 (math-floor (nth 3 a
)))))
2457 (math-map-vec (function (lambda (x) (math-floor x math-floor-prec
))) a
))
2459 (if (or (math-posp a
) (math-negp a
))
2461 '(var nan var-nan
)))
2462 ((math-to-integer a
))
2463 (t (math-reject-arg a
'anglep
))))
2465 (defun math-floor-special (a prec
)
2466 (if (Math-messy-integerp prec
)
2467 (setq prec
(math-trunc prec
)))
2469 (math-reject-arg prec
'fixnump
))
2470 (if (and (<= prec
0)
2471 (math-provably-integerp a
))
2473 (calcFunc-scf (math-floor (let ((calc-prefer-frac t
))
2474 (calcFunc-scf a prec
)))
2477 (defun calcFunc-ffloor (a &optional prec
)
2478 (if (and (Math-messy-integerp a
)
2479 (or (not prec
) (and (integerp prec
)
2482 (math-float (math-floor a prec
))))
2484 ;;; Coerce A to be an integer (by truncation toward plus infinity). [I N]
2485 (defun math-ceiling (a &optional prec
) ; [Public]
2487 (if (Math-messy-integerp prec
)
2488 (setq prec
(math-trunc prec
)))
2490 (math-reject-arg prec
'fixnump
))
2491 (if (and (<= prec
0)
2492 (math-provably-integerp a
))
2494 (calcFunc-scf (math-ceiling (let ((calc-prefer-frac t
))
2495 (calcFunc-scf a prec
)))
2497 ((Math-integerp a
) a
)
2498 ((Math-messy-integerp a
) (math-trunc a
))
2501 (math-add (math-trunc a
) 1)
2503 ((math-provably-integerp a
) a
)
2505 (if (or (math-negp a
)
2506 (and (math-zerop (nth 2 a
))
2507 (math-zerop (nth 3 a
))))
2509 (math-add (math-trunc a
) 1)))
2510 ((eq (car a
) 'date
) (list 'date
(math-ceiling (nth 1 a
))))
2512 (math-make-intv (+ (if (and (equal (nth 2 a
) '(neg (var inf var-inf
)))
2513 (memq (nth 1 a
) '(0 1)))
2515 (if (and (equal (nth 3 a
) '(var inf var-inf
))
2516 (memq (nth 1 a
) '(0 2)))
2518 (if (and (Math-num-integerp (nth 2 a
))
2519 (memq (nth 1 a
) '(0 1)))
2520 (math-add (math-floor (nth 2 a
)) 1)
2521 (math-ceiling (nth 2 a
)))
2522 (math-ceiling (nth 3 a
))))
2524 (math-map-vec (function (lambda (x) (math-ceiling x prec
))) a
))
2526 (if (or (math-posp a
) (math-negp a
))
2528 '(var nan var-nan
)))
2529 ((math-to-integer a
))
2530 (t (math-reject-arg a
'anglep
))))
2532 (defalias 'calcFunc-ceil
'math-ceiling
)
2534 (defun calcFunc-fceil (a &optional prec
)
2535 (if (and (Math-messy-integerp a
)
2536 (or (not prec
) (and (integerp prec
)
2539 (math-float (math-ceiling a prec
))))
2541 (defvar math-rounding-mode nil
)
2543 ;;; Coerce A to be an integer (by rounding to nearest integer). [I N] [Public]
2544 (defun math-round (a &optional prec
)
2546 (if (Math-messy-integerp prec
)
2547 (setq prec
(math-trunc prec
)))
2549 (math-reject-arg prec
'fixnump
))
2550 (if (and (<= prec
0)
2551 (math-provably-integerp a
))
2553 (calcFunc-scf (math-round (let ((calc-prefer-frac t
))
2554 (calcFunc-scf a prec
)))
2557 (if (Math-num-integerp a
)
2559 (if (and (Math-negp a
) (not (eq math-rounding-mode
'up
)))
2560 (math-neg (math-round (math-neg a
)))
2561 (setq a
(let ((calc-angle-mode 'deg
)) ; in case of HMS forms
2562 (math-add a
(if (Math-ratp a
)
2565 (if (and (Math-num-integerp a
) (eq math-rounding-mode
'even
))
2567 (setq a
(math-floor a
))
2569 (setq a
(math-sub a
1)))
2572 ((math-provably-integerp a
) a
)
2573 ((eq (car a
) 'date
) (list 'date
(math-round (nth 1 a
))))
2575 (math-floor (math-add a
'(frac 1 2))))
2577 (math-map-vec (function (lambda (x) (math-round x prec
))) a
))
2579 (if (or (math-posp a
) (math-negp a
))
2581 '(var nan var-nan
)))
2582 ((math-to-integer a
))
2583 (t (math-reject-arg a
'anglep
))))
2585 (defalias 'calcFunc-round
'math-round
)
2587 (defsubst calcFunc-rounde
(a &optional prec
)
2588 (let ((math-rounding-mode 'even
))
2589 (math-round a prec
)))
2591 (defsubst calcFunc-roundu
(a &optional prec
)
2592 (let ((math-rounding-mode 'up
))
2593 (math-round a prec
)))
2595 (defun calcFunc-fround (a &optional prec
)
2596 (if (and (Math-messy-integerp a
)
2597 (or (not prec
) (and (integerp prec
)
2600 (math-float (math-round a prec
))))
2602 (defsubst calcFunc-frounde
(a &optional prec
)
2603 (let ((math-rounding-mode 'even
))
2604 (calcFunc-fround a prec
)))
2606 (defsubst calcFunc-froundu
(a &optional prec
)
2607 (let ((math-rounding-mode 'up
))
2608 (calcFunc-fround a prec
)))
2610 ;;; Pull floating-point values apart into mantissa and exponent.
2611 (defun calcFunc-mant (x)
2613 (if (or (Math-ratp x
)
2616 (list 'float
(nth 1 x
) (- 1 (math-numdigs (nth 1 x
)))))
2617 (calc-record-why 'realp x
)
2618 (list 'calcFunc-mant x
)))
2620 (defun calcFunc-xpon (x)
2622 (if (or (Math-ratp x
)
2625 (math-normalize (+ (nth 2 x
) (1- (math-numdigs (nth 1 x
))))))
2626 (calc-record-why 'realp x
)
2627 (list 'calcFunc-xpon x
)))
2629 (defun calcFunc-scf (x n
)
2635 (math-scale-int x n
)
2636 (math-div x
(math-scale-int 1 (- n
)))))
2639 (math-make-frac (math-scale-int (nth 1 x
) n
) (nth 2 x
))
2640 (math-make-frac (nth 1 x
) (math-scale-int (nth 2 x
) (- n
)))))
2641 ((eq (car x
) 'float
)
2642 (math-make-float (nth 1 x
) (+ (nth 2 x
) n
)))
2643 ((memq (car x
) '(cplx sdev
))
2646 (calcFunc-scf (nth 1 x
) n
)
2647 (calcFunc-scf (nth 2 x
) n
))))
2648 ((memq (car x
) '(polar mod
))
2651 (calcFunc-scf (nth 1 x
) n
)
2657 (calcFunc-scf (nth 2 x
) n
)
2658 (calcFunc-scf (nth 3 x
) n
))))
2660 (math-map-vec (function (lambda (x) (calcFunc-scf x n
))) x
))
2664 (calc-record-why 'realp x
)
2665 (list 'calcFunc-scf x n
)))
2666 (if (math-messy-integerp n
)
2667 (if (< (nth 2 n
) 10)
2668 (calcFunc-scf x
(math-trunc n
))
2670 (if (math-integerp n
)
2672 (calc-record-why 'integerp n
)
2673 (list 'calcFunc-scf x n
)))))
2676 (defun calcFunc-incr (x &optional step relative-to
)
2677 (or step
(setq step
1))
2678 (cond ((not (Math-integerp step
))
2679 (math-reject-arg step
'integerp
))
2682 ((eq (car x
) 'float
)
2683 (if (and (math-zerop x
)
2684 (eq (car-safe relative-to
) 'float
))
2686 (calcFunc-scf relative-to
(- 1 calc-internal-prec
)))
2687 (math-add-float x
(math-make-float
2690 (- (math-numdigs (nth 1 x
))
2691 calc-internal-prec
))))))
2693 (if (Math-integerp (nth 1 x
))
2695 (math-add x
(list 'hms
0 0 step
))))
2697 (math-reject-arg x
'realp
))))
2699 (defsubst calcFunc-decr
(x &optional step relative-to
)
2700 (calcFunc-incr x
(math-neg (or step
1)) relative-to
))
2702 (defun calcFunc-percent (x)
2703 (if (math-objectp x
)
2704 (let ((calc-prefer-frac nil
))
2706 (list 'calcFunc-percent x
)))
2708 (defun calcFunc-relch (x y
)
2709 (if (and (math-objectp x
) (math-objectp y
))
2710 (math-div (math-sub y x
) x
)
2711 (list 'calcFunc-relch x y
)))
2713 ;;; Compute the absolute value squared of A. [F N] [Public]
2714 (defun calcFunc-abssqr (a)
2715 (cond ((Math-realp a
)
2718 (math-add (math-sqr (nth 1 a
))
2719 (math-sqr (nth 2 a
))))
2720 ((eq (car a
) 'polar
)
2721 (math-sqr (nth 1 a
)))
2722 ((and (memq (car a
) '(sdev intv
)) (math-constp a
))
2723 (math-sqr (math-abs a
)))
2725 (math-reduce-vec 'math-add
(math-map-vec 'calcFunc-abssqr a
)))
2726 ((math-known-realp a
)
2728 ((let ((inf (math-infinitep a
)))
2730 (math-mul (calcFunc-abssqr (math-infinite-dir a inf
)) inf
))))
2731 (t (calc-record-why 'numvecp a
)
2732 (list 'calcFunc-abssqr a
))))
2734 (defsubst math-sqr
(a)
2739 (defun calcFunc-idiv (a b
) ; [I I I] [Public]
2740 (cond ((and (Math-natnump a
) (Math-natnump b
) (not (eq b
0)))
2741 (math-quotient a b
))
2744 (let ((calc-prefer-frac t
))
2745 (math-floor (math-div a b
)))
2746 (math-reject-arg b
'realp
)))
2747 ((eq (car-safe a
) 'hms
)
2748 (if (eq (car-safe b
) 'hms
)
2749 (let ((calc-prefer-frac t
))
2750 (math-floor (math-div a b
)))
2751 (math-reject-arg b
'hmsp
)))
2752 ((and (or (eq (car-safe a
) 'intv
) (Math-realp a
))
2753 (or (eq (car-safe b
) 'intv
) (Math-realp b
)))
2754 (math-floor (math-div a b
)))
2755 ((or (math-infinitep a
)
2758 (t (math-reject-arg a
'anglep
))))
2761 ;;; Combine two terms being added, if possible.
2762 (defun math-combine-sum (a b nega negb scalar-okay
)
2763 (if (and scalar-okay
(Math-objvecp a
) (Math-objvecp b
))
2764 (math-add-or-sub a b nega negb
)
2765 (let ((amult 1) (bmult 1))
2767 (cond ((and (eq (car a
) '*)
2768 (Math-objectp (nth 1 a
)))
2769 (setq amult
(nth 1 a
)
2771 ((and (eq (car a
) '/)
2772 (Math-objectp (nth 2 a
)))
2773 (setq amult
(if (Math-integerp (nth 2 a
))
2774 (list 'frac
1 (nth 2 a
))
2775 (math-div 1 (nth 2 a
)))
2781 (cond ((and (eq (car b
) '*)
2782 (Math-objectp (nth 1 b
)))
2783 (setq bmult
(nth 1 b
)
2785 ((and (eq (car b
) '/)
2786 (Math-objectp (nth 2 b
)))
2787 (setq bmult
(if (Math-integerp (nth 2 b
))
2788 (list 'frac
1 (nth 2 b
))
2789 (math-div 1 (nth 2 b
)))
2794 (and (if math-simplifying
2798 (if nega
(setq amult
(math-neg amult
)))
2799 (if negb
(setq bmult
(math-neg bmult
)))
2800 (setq amult
(math-add amult bmult
))
2801 (math-mul amult a
))))))
2803 (defun math-add-or-sub (a b aneg bneg
)
2804 (if aneg
(setq a
(math-neg a
)))
2805 (if bneg
(setq b
(math-neg b
)))
2806 (if (or (Math-vectorp a
) (Math-vectorp b
))
2807 (math-normalize (list '+ a b
))
2810 (defvar math-combine-prod-e
'(var e var-e
))
2812 ;;; The following is expanded out four ways for speed.
2814 ;; math-unit-prefixes is defined in calc-units.el,
2816 (defvar math-unit-prefixes
)
2818 (defun math-combine-prod (a b inva invb scalar-okay
)
2820 ((or (and inva
(Math-zerop a
))
2821 (and invb
(Math-zerop b
)))
2823 ((and scalar-okay
(Math-objvecp a
) (Math-objvecp b
))
2824 (setq a
(math-mul-or-div a b inva invb
))
2825 (and (Math-objvecp a
)
2827 ((and (eq (car-safe a
) '^
)
2829 (math-looks-negp (nth 2 a
)))
2830 (math-mul (math-pow (nth 1 a
) (math-neg (nth 2 a
))) b
))
2831 ((and (eq (car-safe b
) '^
)
2833 (math-looks-negp (nth 2 b
)))
2834 (math-mul a
(math-pow (nth 1 b
) (math-neg (nth 2 b
)))))
2835 ((and math-simplifying
2836 (math-combine-prod-trig a b
)))
2837 (t (let ((apow 1) (bpow 1))
2839 (cond ((and (eq (car a
) '^
)
2840 (or math-simplifying
2841 (Math-numberp (nth 2 a
))))
2842 (setq apow
(nth 2 a
)
2844 ((eq (car a
) 'calcFunc-sqrt
)
2845 (setq apow
'(frac 1 2)
2847 ((and (eq (car a
) 'calcFunc-exp
)
2848 (or math-simplifying
2849 (Math-numberp (nth 1 a
))))
2850 (setq apow
(nth 1 a
)
2851 a math-combine-prod-e
))))
2852 (and (consp a
) (eq (car a
) 'frac
)
2853 (Math-lessp (nth 1 a
) (nth 2 a
))
2854 (setq a
(math-div 1 a
) apow
(math-neg apow
)))
2856 (cond ((and (eq (car b
) '^
)
2857 (or math-simplifying
2858 (Math-numberp (nth 2 b
))))
2859 (setq bpow
(nth 2 b
)
2861 ((eq (car b
) 'calcFunc-sqrt
)
2862 (setq bpow
'(frac 1 2)
2864 ((and (eq (car b
) 'calcFunc-exp
)
2865 (or math-simplifying
2866 (Math-numberp (nth 1 b
))))
2867 (setq bpow
(nth 1 b
)
2868 b math-combine-prod-e
))))
2869 (and (consp b
) (eq (car b
) 'frac
)
2870 (Math-lessp (nth 1 b
) (nth 2 b
))
2871 (setq b
(math-div 1 b
) bpow
(math-neg bpow
)))
2872 (if inva
(setq apow
(math-neg apow
)))
2873 (if invb
(setq bpow
(math-neg bpow
)))
2874 (or (and (if math-simplifying
2875 (math-commutative-equal a b
)
2877 (let ((sumpow (math-add apow bpow
)))
2878 (and (or (not (Math-integerp a
))
2880 (eq (eq (car-safe apow
) 'frac
)
2881 (eq (car-safe bpow
) 'frac
)))
2883 (and (math-looks-negp sumpow
)
2884 (Math-ratp a
) (Math-posp a
)
2885 (setq a
(math-div 1 a
)
2886 sumpow
(math-neg sumpow
)))
2887 (cond ((equal sumpow
'(frac 1 2))
2888 (list 'calcFunc-sqrt a
))
2889 ((equal sumpow
'(frac -
1 2))
2890 (math-div 1 (list 'calcFunc-sqrt a
)))
2891 ((and (eq a math-combine-prod-e
)
2893 (list 'calcFunc-exp sumpow
))
2897 (inexact-result (list '^ a sumpow
)))))))))
2898 (and math-simplifying-units
2899 math-combining-units
2900 (let* ((ua (math-check-unit-name a
))
2903 (eq ua
(setq ub
(math-check-unit-name b
)))
2905 (setq ua
(if (eq (nth 1 a
) (car ua
))
2907 (nth 1 (assq (aref (symbol-name (nth 1 a
))
2909 math-unit-prefixes
)))
2910 ub
(if (eq (nth 1 b
) (car ub
))
2912 (nth 1 (assq (aref (symbol-name (nth 1 b
))
2914 math-unit-prefixes
))))
2915 (if (Math-lessp ua ub
)
2917 (setq temp a a b b temp
2918 temp ua ua ub ub temp
2919 temp apow apow bpow bpow temp
)))
2920 (math-mul (math-pow (math-div ua ub
) apow
)
2921 (math-pow b
(math-add apow bpow
)))))))
2922 (and (equal apow bpow
)
2923 (Math-natnump a
) (Math-natnump b
)
2924 (cond ((equal apow
'(frac 1 2))
2925 (list 'calcFunc-sqrt
(math-mul a b
)))
2926 ((equal apow
'(frac -
1 2))
2927 (math-div 1 (list 'calcFunc-sqrt
(math-mul a b
))))
2929 (setq a
(math-mul a b
))
2932 (inexact-result (list '^ a apow
)))))))))))
2934 (defun math-combine-prod-trig (a b
)
2936 ((and (eq (car-safe a
) 'calcFunc-sin
)
2937 (eq (car-safe b
) 'calcFunc-csc
)
2938 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2940 ((and (eq (car-safe a
) 'calcFunc-sin
)
2941 (eq (car-safe b
) 'calcFunc-sec
)
2942 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2943 (cons 'calcFunc-tan
(cdr a
)))
2944 ((and (eq (car-safe a
) 'calcFunc-sin
)
2945 (eq (car-safe b
) 'calcFunc-cot
)
2946 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2947 (cons 'calcFunc-cos
(cdr a
)))
2948 ((and (eq (car-safe a
) 'calcFunc-cos
)
2949 (eq (car-safe b
) 'calcFunc-sec
)
2950 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2952 ((and (eq (car-safe a
) 'calcFunc-cos
)
2953 (eq (car-safe b
) 'calcFunc-csc
)
2954 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2955 (cons 'calcFunc-cot
(cdr a
)))
2956 ((and (eq (car-safe a
) 'calcFunc-cos
)
2957 (eq (car-safe b
) 'calcFunc-tan
)
2958 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2959 (cons 'calcFunc-sin
(cdr a
)))
2960 ((and (eq (car-safe a
) 'calcFunc-tan
)
2961 (eq (car-safe b
) 'calcFunc-cot
)
2962 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2964 ((and (eq (car-safe a
) 'calcFunc-tan
)
2965 (eq (car-safe b
) 'calcFunc-csc
)
2966 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2967 (cons 'calcFunc-sec
(cdr a
)))
2968 ((and (eq (car-safe a
) 'calcFunc-sec
)
2969 (eq (car-safe b
) 'calcFunc-cot
)
2970 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2971 (cons 'calcFunc-csc
(cdr a
)))
2972 ((and (eq (car-safe a
) 'calcFunc-sinh
)
2973 (eq (car-safe b
) 'calcFunc-csch
)
2974 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2976 ((and (eq (car-safe a
) 'calcFunc-sinh
)
2977 (eq (car-safe b
) 'calcFunc-sech
)
2978 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2979 (cons 'calcFunc-tanh
(cdr a
)))
2980 ((and (eq (car-safe a
) 'calcFunc-sinh
)
2981 (eq (car-safe b
) 'calcFunc-coth
)
2982 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2983 (cons 'calcFunc-cosh
(cdr a
)))
2984 ((and (eq (car-safe a
) 'calcFunc-cosh
)
2985 (eq (car-safe b
) 'calcFunc-sech
)
2986 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2988 ((and (eq (car-safe a
) 'calcFunc-cosh
)
2989 (eq (car-safe b
) 'calcFunc-csch
)
2990 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2991 (cons 'calcFunc-coth
(cdr a
)))
2992 ((and (eq (car-safe a
) 'calcFunc-cosh
)
2993 (eq (car-safe b
) 'calcFunc-tanh
)
2994 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
2995 (cons 'calcFunc-sinh
(cdr a
)))
2996 ((and (eq (car-safe a
) 'calcFunc-tanh
)
2997 (eq (car-safe b
) 'calcFunc-coth
)
2998 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
3000 ((and (eq (car-safe a
) 'calcFunc-tanh
)
3001 (eq (car-safe b
) 'calcFunc-csch
)
3002 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
3003 (cons 'calcFunc-sech
(cdr a
)))
3004 ((and (eq (car-safe a
) 'calcFunc-sech
)
3005 (eq (car-safe b
) 'calcFunc-coth
)
3006 (= 0 (math-simplify (math-sub (cdr a
) (cdr b
)))))
3007 (cons 'calcFunc-csch
(cdr a
)))
3011 (defun math-mul-or-div (a b ainv binv
)
3012 (if (or (Math-vectorp a
) (Math-vectorp b
))
3016 (list '/ (math-div 1 a
) b
)
3023 (math-div (math-div 1 a
) b
)
3029 ;; The variable math-com-bterms is local to math-commutative-equal,
3030 ;; but is used by math-commutative collect, which is called by
3031 ;; math-commutative-equal.
3032 (defvar math-com-bterms
)
3034 (defun math-commutative-equal (a b
)
3035 (if (memq (car-safe a
) '(+ -
))
3036 (and (memq (car-safe b
) '(+ -
))
3037 (let ((math-com-bterms nil
) aterms p
)
3038 (math-commutative-collect b nil
)
3039 (setq aterms math-com-bterms math-com-bterms nil
)
3040 (math-commutative-collect a nil
)
3041 (and (= (length aterms
) (length math-com-bterms
))
3045 (setq p math-com-bterms
)
3046 (while (and p
(not (equal (car aterms
)
3050 (setq math-com-bterms
(delq (car p
) math-com-bterms
)
3051 aterms
(cdr aterms
)))
3055 (defun math-commutative-collect (b neg
)
3056 (if (eq (car-safe b
) '+)
3058 (math-commutative-collect (nth 1 b
) neg
)
3059 (math-commutative-collect (nth 2 b
) neg
))
3060 (if (eq (car-safe b
) '-
)
3062 (math-commutative-collect (nth 1 b
) neg
)
3063 (math-commutative-collect (nth 2 b
) (not neg
)))
3064 (setq math-com-bterms
(cons (if neg
(math-neg b
) b
) math-com-bterms
)))))
3066 (provide 'calc-arith
)
3068 ;;; calc-arith.el ends here