Rename *ll* and *ul* to ll and ul in method-radical-poly
[maxima.git] / src / marray.lisp
blob73f322925a54e5c224397f0063d1ab353327b34b
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 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
9 ;;; (c) Copyright 1981 Massachusetts Institute of Technology ;;;
10 ;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
12 (in-package :maxima)
14 (macsyma-module array)
16 ;;; Macsyma User array utilities originally due to CFFK.
18 ;;; Note that on the lisp level we regard as an array either
19 ;;; (1) a symbol whose ARRAY property is a common lisp array
20 ;;; [i.e., (symbol-array 'symbol)
21 ;;; == (get 'symbol 'array) => some array] or
22 ;;; (2) a common lisp array.
23 ;;; On the maxima level a declared array not of type HASH or FUNCTIONAL
24 ;;; is either
25 ;;; (1m) a symbol whose ARRAY mproperty is of type (1)
26 ;;; [i.e., (symbol-array (mget 'symbol 'array)) => some array] or
27 ;;; (2m) it is of type (2) (and then called a `fast' array).
28 ;;; Such an array is of type (1m) iff it was created with ARRAY
29 ;;; with USE_FAST_ARRAYS being set to FALSE.
30 ;;;
31 ;;; Curiously enough, ARRAY(...,TYPE,...) (which currently can only be
32 ;;; used for USE_FAST_ARRAYS:FALSE) results in an array which is
33 ;;; simultaneously of type (1) and (1m).
35 (defmfun $listarray (ary)
36 (cons '(mlist)
37 (cond ((mget ary 'hashar)
38 (mapcar #'(lambda (subs) ($arrayapply ary subs))
39 (cdddr (meval (list '($arrayinfo) ary)))))
40 ((mget ary 'array) (listarray (mget ary 'array)))
41 ((arrayp ary)
42 (if (eql (array-rank ary) 1)
43 (coerce ary 'list)
44 (coerce (make-array (apply '* (array-dimensions ary))
45 :displaced-to ary
46 :element-type (array-element-type ary))
47 'list)))
48 ((hash-table-p ary)
49 (let (vals (tab ary))
50 (maphash #'(lambda (x &rest l) l
51 (unless (eq x 'dim1) (push (gethash x tab) vals)))
52 ary)
53 (reverse vals)))
54 ((eq (marray-type ary) '$functional)
55 (cdr ($listarray (mgenarray-content ary))))
56 (t
57 (merror (intl:gettext "listarray: argument must be an array; found: ~M")
58 ary)))))
60 (defmfun $fillarray (ary1 ary2)
61 (let ((ary
62 (or (mget ary1 'array)
63 (and (arrayp ary1) ary1)
64 (merror (intl:gettext "fillarray: first argument must be a declared array; found: ~M") ary1))))
65 (fillarray ary
66 (cond (($listp ary2) (cdr ary2))
67 ((get (mget ary2 'array) 'array))
68 ((arrayp ary2) ary2)
70 (merror (intl:gettext "fillarray: second argument must be an array or list; found: ~M") ary2))))
71 ary1))
73 (defun getvalue (sym)
74 (and (symbolp sym) (boundp sym) (symbol-value sym)))
76 (defmspec $rearray (l)
77 (setq l (cdr l))
78 (let ((ar (car l))
79 (dims (mapcar #'meval (cdr l))))
80 (cond ($use_fast_arrays
81 (setf (symbol-value ar) (rearray-aux ar (getvalue ar) dims)))
83 (rearray-aux ar (getvalue ar) dims)))))
85 (defun rearray-aux (ar val dims &aux marray-sym)
86 (cond ((arrayp val)
87 (apply 'lispm-rearray val dims))
88 ((arrayp (get ar 'array))
89 (setf (get ar 'array) (apply 'lispm-rearray (get ar 'array) dims)))
90 ((setq marray-sym (mget ar 'array))
91 (rearray-aux marray-sym nil dims)
92 ar)
93 (t (merror (intl:gettext "rearray: argument is not an array: ~A") ar))))
95 (defun lispm-rearray (ar &rest dims)
96 (cond ((eql (array-rank ar) (length dims))
97 (adjust-array ar (mapcar #'1+ (copy-list dims)) :element-type (array-element-type ar) ))
98 (t (merror (intl:gettext "rearray: arrays must have the same number of subscripts.")))))