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source: branches/f4grobner/5am-tests.lisp@ 1478

Last change on this file since 1478 was 1478, checked in by Marek Rychlik, 10 years ago

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[1201]1;;; -*- Mode: Lisp -*-
[302]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
[309]22;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
23;;
[355]24;; Run tests using 5am unit testing framework
[309]25;;
26;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;;
27
[342]28;; We assume that QuickLisp package manager is installed.
29;; See :
30;; https://www.quicklisp.org/beta/
31;;
32
33;; The following is unnecessary after running:
34;; * (ql:add-to-init-file)
35;; at lisp prompt:
36;;(load "~/quicklisp/setup")
37
[286]38(ql:quickload :fiveam)
[301]39
[292]40(load "ngrobner.asd")
[291]41(asdf:load-system :ngrobner)
[1326]42
[367]43(defpackage #:ngrobner-tests
[604]44 (:use :cl :it.bese.fiveam
45 :ngrobner :priority-queue :monomial
[957]46 :utils :order :ring :term :ring-and-order
[1069]47 :termlist :polynomial
[1024]48 :priority-queue
[1175]49 :division
[1364]50 :grobner-wrap
[604]51 )
52 )
[286]53
[1251]54(in-package :ngrobner-tests)
[287]55
[367]56(def-suite ngrobner-suite
[368]57 :description "New Groebner Package Suite")
[281]58
[367]59(in-suite ngrobner-suite)
[287]60
[312]61#+nil
[289]62(test dummy-test
[281]63 "Makelist"
64 (is (= (+ 2 2)) "2 plus 2 wasn't equal to 4 (using #'= to test equality)")
65 (is (= 0 (+ -1 1)))
66 (signals
67 (error "Trying to add 4 to FOO didn't signal an error")
68 (+ 'foo 4))
69 (is (= 0 (+ 1 1)) "this should have failed"))
[289]70
[293]71(test makelist-1
[303]72 "makelist-1 test"
[597]73 (is (equal (makelist-1 (* 2 i) i 0 10) '(0 2 4 6 8 10 12 14 16 18 20)))
74 (is (equal (makelist-1 (* 2 i) i 0 10 3) '(0 6 12 18))))
[294]75
[303]76(test makelist
[314]77 "makelist"
[598]78 (is (equal (makelist (+ (* i i) (* j j)) (i 1 4) (j 1 i)) '(2 5 8 10 13 18 17 20 25 32)))
79 (is (equal (makelist (list i j '---> (+ (* i i) (* j j))) (i 1 4) (j 1 i))
[303]80 '((1 1 ---> 2) (2 1 ---> 5) (2 2 ---> 8) (3 1 ---> 10) (3 2 ---> 13)
81 (3 3 ---> 18) (4 1 ---> 17) (4 2 ---> 20) (4 3 ---> 25) (4 4 ---> 32)))))
[290]82
[1414]83(test summation
84 "summation"
85 (is (= (summation i (i 0 100)) 5050)))
86
[1415]87(test inner-product
88 "summation"
89 (is (= (inner-product '(1 2 3) '(4 5 6)) 32)))
90
[314]91(test monom
92 "monom"
[885]93 (is (every #'= (make-monom :dimension 3) '(0 0 0)) "Trivial monomial is a vector of 0's")
94 (is (every #'= (make-monom :initial-exponents '(1 2 3)) '(1 2 3)) "Monomial with powers 1,2,3")
[867]95 (let ((p (make-monom :initial-exponents '(1 2 3))))
[885]96 (is (every #'= (monom-map (lambda (x) x) p) '(1 2 3)))))
[867]97
[303]98
[347]99(test order
100 "order"
[948]101 (let ((p (make-monom :initial-exponents '(1 3 2)))
102 (q (make-monom :initial-exponents '(1 2 3))))
[600]103 (is-true (lex> p q))
104 (is-true (grlex> p q))
105 (is-true (revlex> p q))
106 (is-true (grevlex> p q))
[948]107 (is-false (invlex> p q))))
108
109(test elim-order
110 "elimination order"
111 (let* ((p (make-monom :initial-exponents '(1 2 3)))
112 (q (make-monom :initial-exponents '(4 5 6)))
113 (elim-order-factory (make-elimination-order-factory))
114 (elim-order-1 (funcall elim-order-factory 1))
115 (elim-order-2 (funcall elim-order-factory 2)))
[949]116 (is-false (funcall elim-order-1 p q))
117 (is-false (funcall elim-order-2 p q))))
[347]118
[381]119(test term
120 "term"
[855]121 (let* ((m1 (make-monom :initial-exponents '(1 2 3)))
122 (m2 (make-monom :initial-exponents '(3 5 2)))
[602]123 (m3 (monom-mul m1 m2))
124 (t1 (make-term m1 7))
125 (t2 (make-term m2 9))
126 (t3 (make-term m3 (* 7 9))))
127 (is (equalp (term-mul *ring-of-integers* t1 t2) t3))))
[381]128
[950]129(test termlist
130 "termlist"
[968]131 (let* ((t1 (make-term (make-monom :initial-exponents '(1 2 3)) 7))
[966]132 (t2 (make-term (make-monom :initial-exponents '(3 5 2)) 9))
[967]133 (t11 (make-term (make-monom :initial-exponents '(2 4 6)) 49))
[963]134 (t12 (make-term (make-monom :initial-exponents '(4 7 5)) 126))
135 (t22 (make-term (make-monom :initial-exponents '(6 10 4)) 81))
136 (p (list t2 t1))
137 (p-sq (list t22 t12 t11))
[956]138 (ring-and-order (make-ring-and-order))
139 (q (termlist-expt ring-and-order p 2)))
[969]140 (is-true (equalp q p-sq))))
[950]141
[970]142(test poly
143 "poly"
144 (let* ((t1 (make-term (make-monom :initial-exponents '(1 2 3)) 7))
145 (t2 (make-term (make-monom :initial-exponents '(3 5 2)) 9))
146 (t11 (make-term (make-monom :initial-exponents '(2 4 6)) 49))
147 (t12 (make-term (make-monom :initial-exponents '(4 7 5)) 126))
148 (t22 (make-term (make-monom :initial-exponents '(6 10 4)) 81))
149 (p (make-poly-from-termlist (list t2 t1)))
150 (p-sq (make-poly-from-termlist (list t22 t12 t11)))
151 (ring-and-order (make-ring-and-order))
[1027]152 (q (poly-expt ring-and-order p 2)))
[972]153 (is-true (equalp q p-sq))))
[950]154
155
[381]156(test coerce-to-infix
[582]157 "Conversion to infix form"
158 (is (equal
[605]159 (coerce-to-infix :term (make-term-variable *ring-of-integers* 5 3) '(x y z w u v))
[582]160 '(* 1 (EXPT X 0) (EXPT Y 0) (EXPT Z 0) (EXPT W 1) (EXPT U 0)))))
[381]161
[584]162(test priority-queue
163 "Priority queue"
[607]164 (let ((q (make-priority-queue)))
165 (priority-queue-insert q 7)
166 (priority-queue-insert q 8)
167 (is (= (priority-queue-size q) 3) "Note that there is always a dummy element in the queue.")
168 (is (equalp (priority-queue-heap q) #(0 7 8)))
169 (is (= (priority-queue-remove q) 7))
170 (is (= (priority-queue-remove q) 8))
[610]171 (is-true (priority-queue-empty-p q))
[613]172 (signals
173 (error "Empty queue.")
174 (priority-queue-remove q))))
[584]175
[634]176;;
177;; Currently parser cannot be tested, as it relies on many maxima functions
178;; to parse a polynomial expression.
179;;
[614]180#|
181(test parser
182 "Parser"
183 (let (($f '((MLIST SIMP) ((MPLUS SIMP) $X ((MTIMES SIMP) -1 $Y)) ((MPLUS SIMP) $X $Y)))
[620]184 ($v '((MLIST SIMP) $X $Y)))
185 (is-true (parse-poly-list $f $v))))
[633]186|#
[614]187
[691]188(test infix-print
[694]189 "Infix printer"
[691]190 (is (string= (infix-print '(+ x y) nil) "X+Y"))
191 (is (string= (infix-print '(expt x 3) nil) "X^3"))
[693]192 (is (string= (infix-print '(+ 1 (expt x 3)) nil) "1+(X^3)"))
193 (is (string= (infix-print '(* x y) nil) "X*Y"))
194 (is (string= (infix-print '(* x (expt y 2)) nil) "X*(Y^2)")))
[832]195
196(test infix
197 "Infix parser"
[693]198 (is (equal '#I( x^2 + y^2 ) '(+ (expt x 2) (expt y 2))))
[831]199 (is (equal '#I( [ x, y ] ) '(:[ X Y)))
200 (is (equal '#I( x + y) '(+ x y)))
[864]201 (is (equal '#I( x^3 ) '(expt x 3)))
202 (is (equal '#I( 1 + x^3) '(+ 1 (expt x 3))))
203 (is (equal '#I( x * y^2 ) '(* x (expt y 2)))))
[691]204
[1070]205(test poly-reader
206 "Polynomial reader"
[1084]207 (is (equalp (with-input-from-string (s "X^2-Y^2+(-4/3)*U^2*W^3-5")
[1089]208 (read-infix-form :stream s))
[1083]209 '(+ (- (EXPT X 2) (EXPT Y 2)) (* (- (/ 4 3)) (EXPT U 2) (EXPT W 3)) (- 5))))
[1167]210 (is (equalp (string->alist "X^2-Y^2+(-4/3)*U^2*W^3-5" '(x y u w))
211 '(((2 0 0 0) . 1)
212 ((0 2 0 0) . -1)
213 ((0 0 2 3) . -4/3)
214 ((0 0 0 0) . -5))))
[1173]215 (is (equalp (string->alist "[x^2-y^2+(-4/3)*u^2*w^3-5,y]" '(x y u w))
216 '(:[
217 (((2 0 0 0) . 1) ((0 2 0 0) . -1) ((0 0 2 3) . -4/3) ((0 0 0 0) . -5))
218 (((0 1 0 0) . 1)))))
[1099]219 (let ((p (make-poly-from-termlist (list (make-term (make-monom :initial-exponents '(2 0)) 1)
220 (make-term (make-monom :initial-exponents '(0 2)) 2)))))
[1101]221 (is (equalp (with-input-from-string (s "x^2+2*y^2")
222 (read-poly '(x y) :stream s))
223 p))
[1103]224 (is (equalp (string->poly "x^2+2*y^2" '(x y)) p))))
[1023]225
[1223]226;; Manual calculation supporting the test below.
227;; We divide X^2 by [X+Y,X-2*Y] with LEX> as order.
228;; LM(X^2)=X^2 is divisible by LM(X+Y)=X so the first partial quotient is X.
229;; Next, X^2 - X*(X+Y) = -X*Y.
[1224]230;; LM(-X*Y)=X*Y is divibile by LM(X+Y)=X so the second partial quotient is -Y.
[1281]231;; Next, -X*Y-(-Y)*(X+Y) = Y^2.
232;; LM(Y^2)=Y^2 is not divisible by LM(X+Y)=X or LM(X-2*Y)=X. Hence, division
233;; ends. The list of quotients is [X-Y,0]. The remainder is Y^2
[1174]234(test division
235 "Division in polynomial ring"
[1183]236 (let* ((f (string->poly "x^2" '(x y)))
[1186]237 (y-sq (string->poly "y^2" '(x y)))
[1183]238 (fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
239 (ring *ring-of-integers*)
240 (order #'lex>)
[1194]241 (ring-and-order (make-ring-and-order :ring ring :order order))
242 (quotients (cdr (string->poly "[x-y,0]" '(x y)))))
[1250]243 (is (equalp (multiple-value-list (normal-form ring-and-order f fl)) (list y-sq 1 2)))
[1196]244 (is (equalp (multiple-value-list (poly-pseudo-divide ring-and-order f fl))
[1202]245 (list quotients y-sq 1 2)))
[1283]246 (is-false (buchberger-criterion ring-and-order fl)))
[1287]247 (let* ((f (string->poly "x^2-4*y^2" '(x y)))
248 (g (string->poly "x+2*y" '(x y)))
249 (h (string->poly "x-2*y" '(x y)))
[1286]250 (ring *ring-of-integers*)
251 (order #'lex>)
252 (ring-and-order (make-ring-and-order :ring ring :order order)))
[1449]253 (is (poly-equal-no-sugar-p (poly-exact-divide ring-and-order f g) h))))
[1174]254
[1303]255
256(test buchberger
257 "Buchberger algorithm"
258 (let* ((fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
259 (ring *ring-of-integers*)
260 (order #'lex>)
261 (ring-and-order (make-ring-and-order :ring ring :order order))
[1306]262 (gb (cdr (string->poly "[x+y,x-2*y,y]" '(x y)))))
[1324]263 (is-true (grobner-test ring-and-order gb fl))
[1448]264 (is (every #'poly-equal-no-sugar-p (buchberger ring-and-order fl) gb))
265 (is (every #'poly-equal-no-sugar-p (parallel-buchberger ring-and-order fl) gb))))
[1303]266
[1318]267(test gebauer-moeller
268 "Gebauer-Moeller algorithm"
269 (let* ((fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
270 (ring *ring-of-integers*)
271 (order #'lex>)
272 (ring-and-order (make-ring-and-order :ring ring :order order))
[1322]273 (gb (cdr (string->poly "[y,x-2*y]" '(x y)))))
[1324]274 (is-true (grobner-test ring-and-order gb fl))
[1447]275 (is (every #'poly-equal-no-sugar-p (gebauer-moeller ring-and-order fl) gb))))
[1303]276
[1336]277(test gb-postprocessing
[1338]278 "Grobner basis postprocessing"
[1336]279 (let* ((fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
280 (ring *ring-of-integers*)
281 (order #'lex>)
282 (ring-and-order (make-ring-and-order :ring ring :order order))
[1337]283 (gb (cdr (string->poly "[y,x-2*y]" '(x y))))
[1339]284 (reduced-gb (cdr (string->poly "[y,x]" '(x y)))))
[1336]285 (is-true (grobner-test ring-and-order gb fl))
[1446]286 (is (every #'poly-equal-no-sugar-p (reduction ring-and-order gb) reduced-gb)))
[1340]287 (let* ((gb (cdr (string->poly "[x,y,x-2*y,x^2]" '(x y))))
[1350]288 (minimal-gb (cdr (string->poly "[y,x-2*y]" '(x y)))))
[1340]289 (is (equalp (minimization gb) minimal-gb))))
[1303]290
[1365]291(test grobner-wrap
[1366]292 "Grobner interface to many algorithms"
[1368]293 (let* (($poly_grobner_algorithm :buchberger)
[1367]294 (fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
[1365]295 (ring *ring-of-integers*)
296 (order #'lex>)
297 (ring-and-order (make-ring-and-order :ring ring :order order))
[1371]298 (gb (cdr (string->poly "[x+y,x-2*y,y]" '(x y))))
[1372]299 (reduced-gb (cdr (string->poly "[y,x]" '(x y)))))
[1365]300 (is-true (grobner-test ring-and-order gb fl))
[1445]301 (is (every #'poly-equal-no-sugar-p (grobner ring-and-order fl) gb))
302 (is (every #'poly-equal-no-sugar-p (reduced-grobner ring-and-order fl) reduced-gb))))
[1336]303
[1365]304
[1422]305(test elimination-ideal
306 "Elimination ideal"
[1417]307 (let* (($poly_grobner_algorithm :buchberger)
308 (fl (cdr (string->poly "[x+y,x-2*y]" '(x y))))
309 (ring *ring-of-integers*)
310 (order #'lex>)
[1418]311 (ring-and-order (make-ring-and-order :ring ring :order order))
[1419]312 (elim-1-fl (cdr (string->poly "[y]" '(x y)))))
[1444]313 (is (every #'poly-equal-no-sugar-p (elimination-ideal ring-and-order fl 1) elim-1-fl))
314 (is (every #'poly-equal-no-sugar-p (elimination-ideal ring-and-order fl 2) nil))))
[1416]315
[1425]316(test colon-ideal
[1434]317 "Colon ideal"
[1425]318 (let* (($poly_grobner_algorithm :buchberger)
319 (I (cdr (string->poly "[x^2*y,x*y^2]" '(x y))))
320 (J (cdr (string->poly "[x,y]" '(x y))))
321 (ring *ring-of-integers*)
322 (order #'lex>)
323 (ring-and-order (make-ring-and-order :ring ring :order order))
[1438]324 (I-colon-J (cdr (string->poly "[x*y]" '(x y)))))
[1443]325 (is (every #'poly-equal-no-sugar-p (colon-ideal ring-and-order I J) I-colon-J))))
[1425]326
[1457]327(test poly-lcm
328 "Polynomial LCM"
[1450]329 (let* (($poly_grobner_algorithm :buchberger)
[1451]330 (f (string->poly "x^2-y^2" '(x y)))
[1458]331 (g (string->poly "(x+y)^2" '(x y)))
[1450]332 (ring *ring-of-integers*)
333 (order #'lex>)
334 (ring-and-order (make-ring-and-order :ring ring :order order))
[1457]335 (lcm-f-and-g (string->poly "(x+y)^2*(x-y)" '(x y))))
336 (is (poly-equal-no-sugar-p (poly-lcm ring-and-order f g) lcm-f-and-g))))
[1437]337
[1460]338(test grobner-member
[1461]339 "Ideal membership"
[1460]340 (let* (($poly_grobner_algorithm :buchberger)
341 (f (string->poly "y" '(x y)))
[1464]342 (fl (cdr (string->poly "[x-y,x+y,y]" '(x y))))
[1460]343 (ring *ring-of-integers*)
344 (order #'lex>)
345 (ring-and-order (make-ring-and-order :ring ring :order order)))
[1463]346 (is-true (buchberger-criterion ring-and-order fl))
[1461]347 (is-true (grobner-member ring-and-order f fl))))
[1460]348
[1459]349(test grobner-equal
[1465]350 "Equality of ideal generated by Groebner bases"
[1459]351 (let* (($poly_grobner_algorithm :buchberger)
[1466]352 (fl (cdr (string->poly "[x,x-y,y]" '(x y))))
353 (gl (cdr (string->poly "[x-y,x+2*y,y]" '(x y))))
[1459]354 (ring *ring-of-integers*)
355 (order #'lex>)
356 (ring-and-order (make-ring-and-order :ring ring :order order)))
[1465]357 (is-true (buchberger-criterion ring-and-order fl))
358 (is-true (buchberger-criterion ring-and-order gl))
359 (is-true (grobner-equal ring-and-order fl gl))))
[1450]360
[1478]361;; Calculate [F, U1*P1-1,U2*P2-1,...,UK*PK-1], where PLIST=[P1,P2,...,PK].
362(test saturation-extension
363 "Saturation extension"
364 (let* ((F (cdr (string->poly "[x^3,x^2*y]" '(x y))))
365 (P (string->poly "x^2" '(x y)))
366 (ring *ring-of-integers*)
367 (ring-and-order (make-ring-and-order :ring ring :order order)))
368 (is-true (print (saturation-extension-1 ring-and-order F p)))))
369
370(defun foo ()
371 "Saturation extension"
372 (let* ((F (cdr (string->poly "[x^3,x^2*y]" '(x y))))
373 (P (string->poly "x^2" '(x y)))
374 (ring *ring-of-integers*))
375 (saturation-extension-1 ring-and-order F p)))
376
377
378#+nil
[1467]379(test ideal-saturation-1
380 "Calculate F : p^inf"
381 (let* (($poly_grobner_algorithm :buchberger)
[1468]382 (F (cdr (string->poly "[x^3,x^2*y]" '(x y))))
[1472]383 (p (string->poly "x^2" '(x y)))
[1467]384 (ring *ring-of-integers*)
385 (order #'lex>)
386 (ring-and-order (make-ring-and-order :ring ring :order order)))
[1468]387 (is-true (print (ideal-saturation-1 ring-and-order F p)))))
[1459]388
[1467]389
[367]390(run! 'ngrobner-suite)
[346]391(format t "All tests done!~%")
[345]392
393
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