1 ;;; -*- Mode: Lisp; Package: Maxima; Syntax: Common-Lisp; Base: 10 -*- ;;;;
2 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
3 ;;; The data in this file contains enhancments. ;;;;;
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 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
13 (macsyma-module newinv
)
15 (declare-top (special *ptr
* *ptc
* *iar
* *nonz
* detl
* *rr
*))
17 (defun multbk (l ax m
)
19 (do ((j (1+ m
) (1+ j
)))
21 (setq e
(car l
) l
(cdr l
))
22 (do ((i 1 (1+ i
))) ((> i m
))
23 (setf (aref ax i j
) (rattimes e
(aref ax i j
) t
))))))
27 loop
(cond ((null y
) (return c
)))
28 (setq c
(nconc c
(list (timesrow x
(car y
))))
33 (defun stora (ax m ei r
)
34 (declare (fixnum m r
))
35 (prog (det (i 0) (j 0) ro mat
)
38 loop0
(cond ((null ei
) (return nil
)))
39 (setq mat
(car ei
) ei
(cdr ei
))
40 (setq det
(caar mat
) mat
(cdr mat
))
42 (cond ((null mat
) (go loop0
)))
43 (setq i
(1+ i
) ro
(car mat
) mat
(cdr mat
))
44 loop2
(cond ((null ro
) (go loop
)))
46 (setf (aref ax i
(+ m j
)) (ratreduce (caar ro
) det
))
47 (setf (aref ax
(aref *ptr
* i
) (aref *ptc
* j
)) nil
)
51 (defun prodhk (ax ri d r m
)
52 (declare (fixnum r m
))
53 (prog (ei e
*rr
* *r0 co
)
56 (stora ax m
(append co
(list d
)) r
)
57 (setq detl
* (cons (car d
) detl
*))
58 (return (cons (list d
)
59 (mapcar #'(lambda (x y
) (nconc x
(list y
)))
60 ri
(nreverse *rr
*))))))
61 (setq e
(car ei
) ei
(cdr ei
))
62 (setq co
(cons (bmhk ax e d co r detl
* *r0
) co
))
65 (defun obmtrx (ax r s i j
)
66 (declare (fixnum r s i j
))
67 (prog (ans (dj 0) (ds 0) dr d
)
68 (declare(fixnum ds dj
))
70 loop
(cond ((= i
0) (return ans
)))
74 ans
(cons (nreverse dr
) ans
))
75 (setq dr nil r
(1- r
) i
(1- i
))
77 (setq s
(1+ s
) j
(1- j
))
78 (setq d
(aref ax
(aref *ptr
* r
) (aref *ptc
* s
)))
79 (cond ((or *nonz
* (equal d
0)) nil
)
84 (defun bmhk (ax da b nc c0 detl
*r0
)
85 (prog (c a sum det dy
*nonz
* x y
)
86 (setq det
(car b
) b
(cdr b
) a
(car da
) da
(cdr da
))
87 (setq nc
(reverse nc
))
88 (setq da
(reverse da
))
89 (setq c
(obmtrx ax
*r0 c0
(length(cdr a
)) (length b
)))
90 (setq *rr
* (cons c
*rr
*))
91 (cond ((null *nonz
*) (return (cons '(1 .
1) c
))))
92 (setq sum
(multmat c b
))
93 (setq *r0
(- *r0
(length (cdr a
))))
94 loop
(cond ((null da
) (go on
)))
95 (setq x
(car da
) y
(car nc
) dy
(car y
) y
(cdr y
))
96 (setq x
(multmat x y
))
97 (setq sum
(addmatrix1 (ctimemt (cons (pminus (caar detl
)) 1) sum
) x
))
98 (setq det dy detl
(cdr detl
))
99 (setq da
(cdr da
) nc
(cdr nc
))
101 on
(setq det
(cons (ptimes (pminus (caar a
)) (car det
)) 1))
102 (return (cons det
(multmat(cdr a
) sum
)))))
104 ;; tmlattice returns the block structure in the form of a list of blocks
105 ;; each in the form of ((i1 j1) (i2 j2) etc))
107 (defun newinv (ax m n
)
108 (declare (fixnum m n
))
109 (prog (j mmat bl d bm detl
* dm ipdm dm2 r i ei
)
113 (setq mmat
(cons (aref ax i
(+ i m
)) mmat
)))
114 (setq *ptr
* (make-array (1+ m
)))
115 (setq *ptc
* (make-array (1+ m
)))
116 (setq bl
(tmlattice ax
'*ptr
* '*ptc
* m
))
117 (cond ((null bl
) (merror (intl:gettext
"newinv: matrix is singular."))))
118 (setq bl
(mapcar #'length bl
))
119 (setq bm
(apply #'max bl
)) ;Chancey. Consider mapping.
120 (setq *iar
* (make-array (list (1+ bm
) (1+ (* 2 bm
)))))
122 loop1
(cond ((null bl
)
123 (tmunpivot ax
'*ptr
* '*ptc
* m n
)
124 (return (multbk mmat ax m
))))
128 loop2
(cond ((= i
0) (go inv
)))
129 (setq j dm2 ipdm
(+ i dm
))
130 loop3
(cond ((= j
0) (setq i
(1- i
)) (go loop2
)))
131 (setf (aref *iar
* i j
)
133 (cond ((= j ipdm
) '(1 .
1))
135 (t (aref ax
(aref *ptr
* (+ r i
)) (aref *ptc
*(+ r j
))))))
139 (setq ei
(tmlin '*iar
* dm dm dm
))
140 (setq ei
(list (cons (caar ei
) (cdr ei
))))
142 (setq ei
(list ei
))(go next
)))
143 (setq d
(tmlin '*iar
* dm dm dm
))
144 (setq d
(cons (caar d
) (cdr d
)))
145 (setq ei
(prodhk ax ei d r m
))
147 next
(incf r
(car bl
))
151 (declare-top (unspecial *nonz
* detl
* *rr
*))