Simpilify how print-help-string works and support gcl
[maxima.git] / src / sprdet.lisp
blobe92b36ebdb6edfe5326c04957a0ff6929adfeed7
1 ;;; -*- Mode: Lisp; Package: Maxima; Syntax: Common-Lisp; Base: 10 -*- ;;;;
2 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
3 ;;; The data in this file contains enhancements. ;;;;;
4 ;;; ;;;;;
5 ;;; Copyright (c) 1984,1987 by William Schelter,University of Texas ;;;;;
6 ;;; All rights reserved ;;;;;
7 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
8 ;;; (c) Copyright 1980 Massachusetts Institute of Technology ;;;
9 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
11 (in-package :maxima)
13 (macsyma-module sprdet)
15 ;; THIS IS THE NEW DETERMINANT PACKAGE
17 (declare-top (special ;;x
18 *ptr* *ptc* *blk* ml* *detsign* rzl*))
20 (defun sprdet (ax n)
21 (declare (fixnum n))
22 (setq ax (get-array-pointer ax))
23 (prog ((j 0) rodr codr bl det (dm 0) (r 0) (i 0))
24 (declare (fixnum i j dm r))
25 (setq det 1)
26 (setq *ptr* (make-array (1+ n)))
27 (setq *ptc* (make-array (1+ n)))
28 (setq bl (tmlattice ax '*ptr* '*ptc* n)) ;tmlattice isn't defined anywhere -- are_muc
29 (when (null bl) (return 0))
30 (setq rodr (apply #'append bl))
31 (setq codr (mapcar #'cadr rodr))
32 (setq rodr (mapcar #'car rodr))
33 (setq det (* (prmusign rodr) (prmusign codr)))
34 (setq bl (mapcar #'length bl))
35 loop1 (when (null bl) (return det))
36 (setq i (car bl))
37 (setq dm i)
38 (setq *blk* (make-array (list (1+ dm) (1+ dm))))
39 (cond ((= dm 1)
40 (setq det (gptimes det (car (aref ax (aref *ptr* (1+ r)) (aref *ptc* (1+ r))))))
41 (go next))
42 ((= dm 2)
43 (setq det (gptimes det
44 (gpdifference
45 (gptimes (car (aref ax (aref *ptr* (1+ r)) (aref *ptc* (1+ r))))
46 (car (aref ax (aref *ptr* (+ 2 r)) (aref *ptc* (+ 2 r)))))
47 (gptimes (car (aref ax (aref *ptr* (1+ r)) (aref *ptc* (+ 2 r))))
48 (car (aref ax (aref *ptr* (+ 2 r)) (aref *ptc* (1+ r))))))))
49 (go next)))
50 loop2 (when (= i 0) (go cmp))
51 (setq j dm)
52 loop3 (when (= j 0) (decf i) (go loop2))
53 (setf (aref *blk* i j) (car (aref ax (aref *ptr* (+ r i)) (aref *ptc*(+ r j)))))
54 (decf j) (go loop3)
55 cmp
56 (setq det (gptimes det (tdbu '*blk* dm)))
57 next
58 (incf r dm)
59 (setq bl (cdr bl))
60 (go loop1)))
62 (defun minorl (x n l nz)
63 (declare (fixnum n))
64 (prog (ans s rzl* (col 1) (n2 (truncate n 2)) d dl z a elm rule)
65 (declare (fixnum n2 col ))
66 (decf n2)
67 (setq dl l l nil nz (cons nil nz))
68 l1 (when (null nz) (return ans))
69 l3 (setq z (car nz))
70 (cond ((null l) (if dl (push dl ans) (return nil))
71 (setq nz (cdr nz) col (1+ col) l dl dl nil)
72 (go l1)))
73 (setq a (caar l) )
74 l2 (cond ((null z)
75 (cond (rule (rplaca (car l) (list a rule))
76 (setq rule nil) (setq l (cdr l)))
77 ((null (cdr l))
78 (rplaca (car l) (list a 0))
79 (setq l (cdr l)))
80 (t (rplaca l (cadr l))
81 (rplacd l (cddr l))))
82 (go l3)))
83 (setq elm (car z) z (cdr z))
84 (setq s (signnp elm a))
85 (cond (s (setq d (delete elm (copy-list a) :test #'equal))
86 (cond ((membercar d dl)
87 (go on))
89 (when (or (< col n2) (not (singp x d col n)))
90 (push (cons d 1) dl)
91 (go on))))))
92 (go l2)
93 on (setq rule (cons (list d s elm (1- col)) rule))
94 (go l2)))
96 (declare-top (special j))
98 (defun singp (x ml col n)
99 (declare (fixnum col n))
100 (prog (i (j col) l)
101 (declare (fixnum j))
102 (setq l ml)
103 (if (null ml)
104 (go loop)
105 (setq i (car ml)
106 ml (cdr ml)))
107 (cond ((member i rzl* :test #'equal) (return t))
108 ((zrow x i col n) (return (setq rzl*(cons i rzl*)))))
109 loop (cond ((> j n) (return nil))
110 ((every #'(lambda (i) (equal (aref x i j) 0)) l)
111 (return t)))
112 (incf j)
113 (go loop)))
115 (declare-top (unspecial j))
117 (defun tdbu (x n)
118 (declare (fixnum n))
119 (prog (a ml* nl nml dd)
120 (setq *detsign* 1)
121 (setq x (get-array-pointer x))
122 (detpivot x n)
123 (setq x (get-array-pointer 'x*))
124 (setq nl (nzl x n))
125 (when (member nil nl :test #'eq) (return 0))
126 (setq a (minorl x n (list (cons (nreverse(index* n)) 1)) nl))
127 (setq nl nil)
128 (when (null a) (return 0))
129 (tb2 x (car a) n)
130 tag2
131 (setq ml* (cons (cons nil nil) (car a)))
132 (setq a (cdr a))
133 (when (null a) (return (if (= *detsign* 1)
134 (cadadr ml*)
135 (gpctimes -1 (cadadr ml*)))))
136 (setq nml (car a))
137 tag1 (when (null nml) (go tag2))
138 (setq dd (car nml))
139 (setq nml (cdr nml))
140 (nbn dd x)
141 (go tag1)))
143 (defun nbn (rule x)
144 (prog (ans r a)
145 (setq ans 0 r (cadar rule))
146 (when (equal r 0) (return 0))
147 (rplaca rule (caar rule))
148 loop (when (null r) (return (rplacd rule (cons ans (cdr rule)))))
149 (setq a (car r) r(cdr r))
150 (setq ans (gpplus ans (gptimes (if (= (cadr a) 1)
151 (aref x (caddr a) (cadddr a))
152 (gpctimes (cadr a) (aref x (caddr a) (cadddr a))))
153 (getminor (car a)))))
154 (go loop)))
156 (defun getminor (index)
157 (cond ((null (setq index (assoc index ml* :test #'equal))) 0)
158 (t (rplacd (cdr index) (1- (cddr index)))
159 (when (= (cddr index) 0)
160 (setf index (delete index ml* :test #'equal)))
161 (cadr index))))
163 (defun tb2 (x l n)
164 (declare (fixnum n ))
165 (prog ((n-1 (1- n)) b a)
166 (declare (fixnum n-1))
167 loop (when (null l) (return nil))
168 (setq a (car l) l (cdr l) b (car a))
169 (rplacd a (cons (gpdifference (gptimes (aref x (car b) n-1) (aref x (cadr b) n))
170 (gptimes (aref x (car b) n) (aref x (cadr b) n-1)))
171 (cdr a)))
172 (go loop)))
174 (defun zrow (x i col n)
175 (declare (fixnum i col n))
176 (prog ((j col))
177 (declare (fixnum j))
178 loop (cond ((> j n)
179 (return t))
180 ((equal (aref x i j) 0)
181 (incf j)
182 (go loop)))))
184 (defun nzl (a n)
185 (declare (fixnum n))
186 (prog ((i 0) (j (- n 2)) d l)
187 (declare (fixnum i j))
188 loop0 (when (= j 0) (return l))
189 (setq i n)
190 loop1 (when (= i 0)
191 (push d l)
192 (setq d nil)
193 (decf j)
194 (go loop0))
195 (when (not (equal (aref a i j) 0))
196 (push i d))
197 (decf i)
198 (go loop1)))
200 (defun signnp (e l)
201 (prog (i)
202 (setq i 1)
203 loop (cond ((null l) (return nil))
204 ((equal e (car l)) (return i)))
205 (setq l (cdr l) i (- i))
206 (go loop)))
208 (defun membercar (e l)
209 (prog()
210 loop (cond ((null l)
211 (return nil))
212 ((equal e (caar l))
213 (return (rplacd (car l) (1+ (cdar l))))))
214 (setq l (cdr l))
215 (go loop)))
217 (declare-top (unspecial ml* rzl*))
219 (defun atranspose (a n)
220 (prog (i j d)
221 (setq i 0)
222 loop1 (setq i (1+ i) j i)
223 (when (> i n) (return nil))
224 loop2 (incf j)
225 (when (> j n) (go loop1))
226 (setq d (aref a i j))
227 (setf (aref a i j) (aref a j i))
228 (setf (aref a j i) d)
229 (go loop2)))
231 (defun mxcomp (l1 l2)
232 (prog()
233 loop (cond ((null l1) (return t))
234 ((car> (car l1) (car l2)) (return t))
235 ((car> (car l2) (car l1)) (return nil)))
236 (setq l1 (cdr l1) l2 (cdr l2))
237 (go loop)))
239 (defun prmusign (l)
240 (prog ((b 0) a d)
241 (declare (fixnum b))
242 loop (when (null l) (return (if (even b) 1 -1)))
243 (setq a (car l) l (cdr l) d l)
244 loop1 (cond ((null d) (go loop))
245 ((> a (car d)) (incf b)))
246 (setq d (cdr d))
247 (go loop1)))
249 (defun detpivot (x n)
250 (prog (r0 c0)
251 (setq c0 (colrow0 x n nil)
252 r0 (colrow0 x n t))
253 (setq c0 (nreverse (bbsort c0 #'car>)))
254 (setq r0 (nreverse (bbsort r0 #'car>)))
255 (when (not (mxcomp c0 r0))
256 (atranspose x n)
257 (setq c0 r0))
258 (setq *detsign* (prmusign (mapcar #'car c0)))
259 (newmat 'x* x n c0)))
261 (defun newmat(x y n l)
262 (prog (i j jl)
263 (setf (symbol-value x) (make-array (list (1+ n) (1+ n))))
264 (setq x (get-array-pointer x))
265 (setq j 0)
266 loop (setq i 0 j (1+ j))
267 (when (null l) (return nil))
268 (setq jl (cdar l) l (cdr l))
269 tag (incf i)
270 (when (> i n) (go loop))
271 (setf (aref x i j) (aref y i jl))
272 (go tag)))
274 (defun car> (a b)
275 (> (car a) (car b)))
277 ;; ind=t for row ortherwise col
279 (defun colrow0 (a n ind)
280 (declare (fixnum n))
281 (prog ((i 0) (j n) l (c 0))
282 (declare (fixnum i c j))
283 loop0 (cond ((= j 0) (return l)))
284 (setq i n)
285 loop1 (when (= i 0)
286 (push (cons c j) l)
287 (setq c 0)
288 (decf j)
289 (go loop0))
290 (when (equal (if ind (aref a j i) (aref a i j)) 0)
291 (incf c))
292 (decf i)
293 (go loop1)))
295 (defun gpdifference (a b)
296 (if $ratmx
297 (pdifference a b)
298 (simplus(list '(mplus) a (list '(mtimes) -1 b)) 1 nil)))
300 (defun gpctimes(a b)
301 (if $ratmx
302 (pctimes a b)
303 (simptimes(list '(mtimes) a b) 1 nil)))
305 (defun gptimes(a b)
306 (if $ratmx
307 (ptimes a b)
308 (simptimes (list '(mtimes) a b) 1 nil)))
310 (defun gpplus(a b)
311 (if $ratmx
312 (pplus a b)
313 (simplus(list '(mplus) a b) 1 nil)))