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source: branches/f4grobner/monom.lisp@ 2405

Last change on this file since 2405 was 2405, checked in by Marek Rychlik, 9 years ago
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1	;;; -- Mode: Lisp --
2	;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
3	;;;
4	;;; Copyright (C) 1999, 2002, 2009, 2015 Marek Rychlik <rychlik@u.arizona.edu>
5	;;;
6	;;; This program is free software; you can redistribute it and/or modify
7	;;; it under the terms of the GNU General Public License as published by
8	;;; the Free Software Foundation; either version 2 of the License, or
9	;;; (at your option) any later version.
10	;;;
11	;;; This program is distributed in the hope that it will be useful,
12	;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
13	;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
14	;;; GNU General Public License for more details.
15	;;;
16	;;; You should have received a copy of the GNU General Public License
17	;;; along with this program; if not, write to the Free Software
18	;;; Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
19	;;;
20	;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
21
22	;;----------------------------------------------------------------
23	;; This package implements BASIC OPERATIONS ON MONOMIALS
24	;;----------------------------------------------------------------
25	;; DATA STRUCTURES: Conceptually, monomials can be represented as lists:
26	;;
27	;; monom: (n1 n2 ... nk) where ni are non-negative integers
28	;;
29	;; However, lists may be implemented as other sequence types,
30	;; so the flexibility to change the representation should be
31	;; maintained in the code to use general operations on sequences
32	;; whenever possible. The optimization for the actual representation
33	;; should be left to declarations and the compiler.
34	;;----------------------------------------------------------------
35	;; EXAMPLES: Suppose that variables are x and y. Then
36	;;
37	;; Monom x*y^2 ---> (1 2)
38	;;
39	;;----------------------------------------------------------------
40
41	(defpackage "MONOM"
42	(:use :cl :ring)
43	(:export "MONOM"
44	"EXPONENT"
45	"MAKE-MONOM-VARIABLE"))
46
47	(in-package :monom)
48
49	(proclaim '(optimize (speed 3) (space 0) (safety 0) (debug 0)))
50
51	(deftype exponent ()
52	"Type of exponent in a monomial."
53	'fixnum)
54
55	(defclass monom ()
56	((dimension :initarg :dimension :accessor r-dimension)
57	(exponents :initarg :exponents :accessor r-exponents))
58	(:default-initargs :dimension nil :exponents nil :exponent nil))
59
60	(defmethod print-object ((self monom) stream)
61	(format stream "#<MONOM DIMENSION=~A EXPONENTS=~A>"
62	(r-dimension self)
63	(r-exponents self)))
64
65	(defmethod shared-initialize :after ((self monom) slot-names
66	&key
67	dimension
68	exponents
69	exponent
70	&allow-other-keys
71	)
72	(if (eq slot-names t) (setf slot-names '(dimension exponents)))
73	(dolist (slot-name slot-names)
74	(case slot-name
75	(dimension
76	(cond (dimension
77	(setf (slot-value self 'dimension) dimension))
78	(exponents
79	(setf (slot-value self 'dimension) (length exponents)))
80	(t
81	(error "DIMENSION or EXPONENTS must not be NIL"))))
82	(exponents
83	(cond
84	;; when exponents are supplied
85	(exponents
86	(let ((dim (length exponents)))
87	(when (and dimension (/= dimension dim))
88	(error "EXPONENTS must have length DIMENSION"))
89	(setf (slot-value self 'dimension) dim
90	(slot-value self 'exponents) (make-array dim :initial-contents exponents))))
91	;; when all exponents are to be identical
92	(t
93	(let ((dim (slot-value self 'dimension)))
94	(setf (slot-value self 'exponents)
95	(make-array (list dim) :initial-element (or exponent 0)
96	:element-type 'exponent)))))))))
97
98	;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
99	;;
100	;; Operations on monomials
101	;;
102	;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
103
104	(defmethod r-coeff ((m monom))
105	"A MONOM can be treated as a special case of TERM,
106	where the coefficient is 1."
107	1)
108
109	(defmethod r-elt ((m monom) index)
110	"Return the power in the monomial M of variable number INDEX."
111	(with-slots (exponents)
112	m
113	(elt exponents index)))
114
115	(defmethod (setf r-elt) (new-value (m monom) index)
116	"Return the power in the monomial M of variable number INDEX."
117	(with-slots (exponents)
118	m
119	(setf (elt exponents index) new-value)))
120
121	(defmethod r-total-degree ((m monom) &optional (start 0) (end (r-dimension m)))
122	"Return the todal degree of a monomoal M. Optinally, a range
123	of variables may be specified with arguments START and END."
124	(declare (type fixnum start end))
125	(with-slots (exponents)
126	m
127	(reduce #'+ exponents :start start :end end)))
128
129
130	(defmethod r-sugar ((m monom) &aux (start 0) (end (r-dimension m)))
131	"Return the sugar of a monomial M. Optinally, a range
132	of variables may be specified with arguments START and END."
133	(declare (type fixnum start end))
134	(r-total-degree m start end))
135
136	(defmethod r* ((m1 monom) (m2 monom))
137	"Multiply monomial M1 by monomial M2."
138	(with-slots ((exponents1 exponents) dimension)
139	m1
140	(with-slots ((exponents2 exponents))
141	m2
142	(let* ((exponents (copy-seq exponents1)))
143	(map-into exponents #'+ exponents1 exponents2)
144	(make-instance 'monom :dimension dimension :exponents exponents)))))
145
146
147
148	(defmethod r/ ((m1 monom) (m2 monom))
149	"Divide monomial M1 by monomial M2."
150	(with-slots ((exponents1 exponents) (dimension1 dimension))
151	m1
152	(with-slots ((exponents2 exponents))
153	m2
154	(let* ((exponents (copy-seq exponents1))
155	(dimension dimension1))
156	(map-into exponents #'- exponents1 exponents2)
157	(make-instance 'monom :dimension dimension :exponents exponents)))))
158
159	(defmethod r-divides-p ((m1 monom) (m2 monom))
160	"Returns T if monomial M1 divides monomial M2, NIL otherwise."
161	(with-slots ((exponents1 exponents))
162	m1
163	(with-slots ((exponents2 exponents))
164	m2
165	(every #'<= exponents1 exponents2))))
166
167
168	(defmethod r-divides-lcm-p ((m1 monom) (m2 monom) (m3 monom))
169	"Returns T if monomial M1 divides LCM(M2,M3), NIL otherwise."
170	(every #'(lambda (x y z) (<= x (max y z)))
171	m1 m2 m3))
172
173
174	(defmethod r-lcm-divides-lcm-p ((m1 monom) (m2 monom) (m3 monom) (m4 monom))
175	"Returns T if monomial MONOM-LCM(M1,M2) divides MONOM-LCM(M3,M4), NIL otherwise."
176	(declare (type monom m1 m2 m3 m4))
177	(every #'(lambda (x y z w) (<= (max x y) (max z w)))
178	m1 m2 m3 m4))
179
180	(defmethod r-lcm-equal-lcm-p (m1 m2 m3 m4)
181	"Returns T if monomial LCM(M1,M2) equals LCM(M3,M4), NIL otherwise."
182	(with-slots ((exponents1 exponents))
183	m1
184	(with-slots ((exponents2 exponents))
185	m2
186	(with-slots ((exponents3 exponents))
187	m3
188	(with-slots ((exponents4 exponents))
189	m4
190	(every
191	#'(lambda (x y z w) (= (max x y) (max z w)))
192	exponents1 exponents2 exponents3 exponents4))))))
193
194	(defmethod r-divisible-by-p ((m1 monom) (m2 monom))
195	"Returns T if monomial M1 is divisible by monomial M2, NIL otherwise."
196	(with-slots ((exponents1 exponents))
197	m1
198	(with-slots ((exponents2 exponents))
199	m2
200	(every #'>= exponents1 exponents2))))
201
202	(defmethod r-rel-prime-p ((m1 monom) (m2 monom))
203	"Returns T if two monomials M1 and M2 are relatively prime (disjoint)."
204	(with-slots ((exponents1 exponents))
205	m1
206	(with-slots ((exponents2 exponents))
207	m2
208	(every #'(lambda (x y) (zerop (min x y))) exponents1 exponents2))))
209
210
211	(defmethod r-equalp ((m1 monom) (m2 monom))
212	"Returns T if two monomials M1 and M2 are equal."
213	(with-slots ((exponents1 exponents))
214	m1
215	(with-slots ((exponents2 exponents))
216	m2
217	(every #'= exponents1 exponents2))))
218
219	(defmethod r-lcm ((m1 monom) (m2 monom))
220	"Returns least common multiple of monomials M1 and M2."
221	(with-slots ((exponents1 exponents) (dimension1 dimension))
222	m1
223	(with-slots ((exponents2 exponents))
224	m2
225	(let* ((exponents (copy-seq exponents1))
226	(dimension dimension1))
227	(map-into exponents #'max exponents1 exponents2)
228	(make-instance 'monom :dimension dimension :exponents exponents)))))
229
230
231	(defmethod r-gcd ((m1 monom) (m2 monom))
232	"Returns greatest common divisor of monomials M1 and M2."
233	(with-slots ((exponents1 exponents) (dimension1 dimension))
234	m1
235	(with-slots ((exponents2 exponents))
236	m2
237	(let* ((exponents (copy-seq exponents1))
238	(dimension dimension1))
239	(map-into exponents #'min exponents1 exponents2)
240	(make-instance 'monom :dimension dimension :exponents exponents)))))
241
242	(defmethod r-depends-p ((m monom) k)
243	"Return T if the monomial M depends on variable number K."
244	(declare (type fixnum k))
245	(with-slots (exponents)
246	m
247	(plusp (elt exponents k))))
248
249	(defmethod r-tensor-product ((m1 monom) (m2 monom))
250	(with-slots ((exponents1 exponents) (dimension1 dimension))
251	m1
252	(with-slots ((exponents2 exponents) (dimension2 dimension))
253	m2
254	(make-instance 'monom
255	:dimension (+ dimension1 dimension2)
256	:exponents (concatenate 'vector exponents1 exponents2)))))
257
258	(defmethod r-contract ((m monom) k)
259	"Drop the first K variables in monomial M."
260	(declare (fixnum k))
261	(with-slots (dimension exponents)
262	m
263	(setf dimension (- dimension k)
264	exponents (subseq exponents k))))
265
266	(defun make-monom-variable (nvars pos &optional (power 1)
267	&aux (m (make-instance 'monom :dimension nvars)))
268	"Construct a monomial in the polynomial ring
269	RING[X[0],X[1],X[2],...X[NVARS-1]] over the (unspecified) ring RING
270	which represents a single variable. It assumes number of variables
271	NVARS and the variable is at position POS. Optionally, the variable
272	may appear raised to power POWER. "
273	(declare (type fixnum nvars pos power) (type monom m))
274	(with-slots (exponents)
275	m
276	(setf (elt exponents pos) power)
277	m))
278
279	(defmethod r->list ((m monom))
280	"A human-readable representation of a monomial M as a list of exponents."
281	(coerce (r-exponents m) 'list))

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