| /dports/math/py-sympy/sympy-1.9/sympy/polys/tests/ |
| H A D | test_pythonrational.py | 66 assert QQ(-1, 2) + QQ( 1, 2) == QQ(0)
67 assert QQ( 1, 2) + QQ(-1, 2) == QQ(0)
69 assert QQ(1, 2) + QQ(1, 2) == QQ(1)
70 assert QQ(1, 2) + QQ(3, 2) == QQ(2)
71 assert QQ(3, 2) + QQ(1, 2) == QQ(2)
72 assert QQ(3, 2) + QQ(3, 2) == QQ(3)
81 assert QQ(1, 2) - QQ(1, 2) == QQ( 0)
82 assert QQ(1, 2) - QQ(3, 2) == QQ(-1)
83 assert QQ(3, 2) - QQ(1, 2) == QQ( 1)
84 assert QQ(3, 2) - QQ(3, 2) == QQ( 0)
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| H A D | test_densetools.py | 64 [QQ(1, 3), QQ(1), QQ(3), QQ(0)]
66 [QQ(1, 12), QQ(1, 3), QQ(3, 2), QQ(0), QQ(0)]
68 [QQ(1, 60), QQ(1, 12), QQ(1, 2), QQ(0), QQ(0), QQ(0)]
253 f = [-QQ(1, 720), QQ(0), QQ(1, 24), QQ(0), -QQ(1, 2), QQ(0), QQ(1)]
254 g = [QQ(61, 720), QQ(0), QQ(5, 24), QQ(0), QQ(1, 2), QQ(0), QQ(1)]
262 f = [-QQ(1, 720), QQ(0), QQ(1, 24), QQ(0), -QQ(1, 2), QQ(0), QQ(1)]
263 g = [QQ(61, 720), QQ(0), QQ(5, 24), QQ(0), QQ(1, 2), QQ(0), QQ(1)]
378 [QQ(1), QQ(2), QQ(1)], QQ) == (QQ(1), [QQ(1), QQ(2), QQ(1)])
380 [QQ(2), QQ(4), QQ(2)], QQ) == (QQ(2), [QQ(1), QQ(2), QQ(1)])
577 [QQ(1), QQ(0), QQ(0), QQ(0), QQ(0), QQ(0), QQ(2), QQ(0), QQ(578),
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| H A D | test_densearith.py | 194 [[QQ(4, 14), QQ(5, 14), QQ(6, 14)], [QQ(1, 14), QQ(2, 14),
217 assert dup_quo_ground(f, QQ(2), QQ) == [QQ(3), QQ(1), QQ(4)]
239 assert dup_exquo_ground(f, QQ(2), QQ) == [QQ(3), QQ(1), QQ(4)]
282 [QQ(-1, 7), QQ(2, 7), QQ(3, 7)], QQ) == [QQ(1, 7), QQ(2, 7), QQ(3, 7)]
308 -1, 7), QQ(2, 7), QQ(3, 7)], QQ) == [QQ(1, 7), QQ(-2, 7), QQ(-3, 7)]
343 assert dup_add([QQ(1, 2), QQ(2, 3)], [QQ(1)], QQ) == [QQ(1, 2), QQ(5, 3)]
344 assert dup_add([QQ(1)], [QQ(1, 2), QQ(2, 3)], QQ) == [QQ(1, 2), QQ(5, 3)]
347 8, 7), QQ(9, 7), QQ(10, 7)], QQ) == [QQ(9, 7), QQ(11, 7), QQ(13, 7)]
388 assert dup_sub([QQ(1, 7), QQ(2, 7)], [QQ(1)], QQ) == [QQ(1, 7), QQ(-5, 7)]
389 assert dup_sub([QQ(1)], [QQ(1, 7), QQ(2, 7)], QQ) == [QQ(-1, 7), QQ(5, 7)]
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| H A D | test_rootisolation.py | 61 s, t, u, v, w = QQ(1), QQ(2), QQ(24, 17), QQ(17, 12), QQ(7, 5)
76 s, t, u, v = QQ(1), QQ(2), QQ(4, 3), QQ(3, 2)
189 (QQ(1, 2), QQ(1, 2)), (QQ(1), QQ(1)), (QQ(2), QQ(2))]
193 (QQ(1, 2), QQ(1, 2)), (QQ(1), QQ(1)), (QQ(2), QQ(2))]
207 [(-QQ(a), -QQ(a)), (-QQ(1, b), -QQ(1, b)), (QQ(1, c), QQ(1, c)), (QQ(d), QQ(d))]
214 [(-QQ(a), -QQ(a)), (-QQ(1, b), -QQ(1, b)), (QQ(1, c), QQ(1, c)), (QQ(d), QQ(d))]
222 [(-QQ(2), -QQ(2)), (-QQ(23, 14), -QQ(18, 11)), (QQ(2), QQ(2)), (QQ(39, 16), QQ(22, 9))]
288 [(-QQ(2), -QQ(3, 2)), (-QQ(3, 2), -QQ(1, 1)), (QQ(1), QQ(3, 2)),
442 a, b = (-QQ(1), -QQ(1)), (QQ(1), QQ(1))
443 c, d = ( QQ(0), QQ(0)), (QQ(1), QQ(1))
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| H A D | test_distributedmodules.py | 40 assert sdm_LC([((1, 2, 3), QQ(5))], QQ) == QQ(5)
44 dic = {(1, 2, 1, 1): QQ(1), (1, 1, 2, 1): QQ(1), (1, 0, 2, 1): QQ(1),
48 ((1, 0, 2, 1), QQ(1)), ((1, 0, 0, 3), QQ(1)), ((1, 1, 1, 0), QQ(1))]
54 assert sdm_add([((1, 1, 1), QQ(1))], [((2, 0, 0), QQ(1))], lex, QQ) == \
56 assert sdm_add([((1, 1, 1), QQ(1))], [((1, 1, 1), QQ(-1))], lex, QQ) == []
57 assert sdm_add([((1, 0, 0), QQ(1))], [((1, 0, 0), QQ(2))], lex, QQ) == \
59 assert sdm_add([((1, 0, 1), QQ(1))], [((1, 1, 0), QQ(1))], lex, QQ) == \
64 dic = {(1, 2, 3): QQ(1), (4, 0, 0): QQ(1), (4, 0, 1): QQ(1)}
69 dic = {(1, 2, 3): QQ(1), (4, 0, 0): QQ(2), (4, 0, 1): QQ(3)}
76 assert sdm_mul_term([((1, 0, 0), QQ(1))], ((1, 0), QQ(1)), lex, QQ) == \
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| H A D | test_polyclasses.py | 36 DMP([[QQ(1), QQ(2)], [QQ(3)]], QQ)
37 assert DMP([[QQ(1), QQ(2)], [QQ(3)]], QQ) == \
194 u = DMP([[QQ(45), QQ(30), QQ(5)]], QQ)
195 v = DMP([[QQ(1), QQ(2, 3), QQ(1, 9)]], QQ)
225 g = DMP([QQ(1), QQ(0), QQ(-16)], QQ)
336 f = DMF(([[QQ(1)], [QQ(2)]], [[-QQ(3)], [QQ(4)]]), QQ)
436 a = ANP([QQ(1), QQ(1)], [QQ(1), QQ(0), QQ(1)], QQ)
437 b = ANP([QQ(1), QQ(1)], [QQ(1), QQ(0), QQ(2)], QQ)
445 b = ANP([QQ(1), QQ(2)], [QQ(1), QQ(0), QQ(1)], QQ)
467 mod = [QQ(1), QQ(0), QQ(0), QQ(-2)]
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| H A D | test_factortools.py | 493 return ANP(element, [QQ(1), QQ(0), QQ(1)], QQ)
513 (anp([QQ(1, 1)]), [(anp([QQ(1)])*x**2 + anp([QQ(-1), QQ(0)]), 1),
519 (anp([QQ(4, 1)]), [(anp([QQ(1, 1)])*x + anp([-QQ(3, 2), QQ(0, 1)]), 1),
525 (anp([QQ(4, 1)]), [(anp([QQ(1, 1)])*x + anp([-QQ(4, 1), QQ(1, 1)]), 1),
532 return ANP(element, [QQ(1), QQ(0), QQ(-2)], QQ)
537 (anp([QQ(1)]), [(anp([QQ(1)])*x**2 + anp([QQ(-1), QQ(0)])*x + anp([QQ(1)]), 1),
540 f = anp([QQ(1, 1)])*x**2 + anp([QQ(2), QQ(0)])*x + anp([QQ(2, 1)])
560 return ANP(x, [QQ(1), QQ(0), QQ(-2)], QQ)
575 (anp([QQ(1)]), [(anp([QQ(1)])*x + anp([QQ(-1), QQ(0)])*y, 1),
581 (anp([QQ(2)]), [(anp([QQ(1)])*x + anp([QQ(-1), QQ(0)])*y, 1),
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| H A D | test_ring_series.py | 463 r1 = -x**QQ(14,15) + x**QQ(4,5) - 3*x**QQ(11,15) + x**QQ(2,3) + \
464 2*x**QQ(7,15) - x**QQ(2,5) - x**QQ(1,5) + x**QQ(2,15) - x**QQ(-2,15) \
483 assert r == -x**QQ(9,5) - x**QQ(26,15) - x**QQ(22,15) - x**QQ(6,5)/3 + \
492 x**QQ(6,5)/6 + x + x**QQ(2,3) + x**QQ(2,5)
496 2*x**QQ(2,3)/3 + 2*x**QQ(7,15) - 4*x**QQ(2,5)/3 - x**QQ(1,5) + \
497 x**QQ(2,15) - x**QQ(-2,15) + x**QQ(-2,5)
503 x**QQ(6,5)/6 + x + x**QQ(2,3) + x**QQ(2,5)
511 x**QQ(6,5)/6 + x + x**QQ(2,3) + x**QQ(2,5)
514 assert r == x**QQ(28,15)/6 + x**QQ(5,3) + x**QQ(8,5)/24 + x**QQ(7,5) + \
518 assert r == -x**QQ(9,5) - x**QQ(26,15) - x**QQ(22,15) - x**QQ(6,5)/3 + \
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| /dports/math/py-sympy/sympy-1.9/sympy/polys/matrices/tests/ |
| H A D | test_dense.py | 83 A = [[QQ(1), QQ(2), QQ(1)], [QQ(3), QQ(4), QQ(1)]]
84 Ar = [[QQ(1), QQ(0), QQ(-1)], [QQ(0), QQ(1), QQ(1)]]
90 A = [[QQ(3), QQ(4), QQ(1)], [QQ(1), QQ(2), QQ(1)]]
104 A = [[QQ(1), QQ(0), QQ(1)], [QQ(3), QQ(0), QQ(1)]]
188 A = [[QQ(1), QQ(2), QQ(3)], [QQ(4), QQ(5), QQ(6)], [QQ(7), QQ(8), QQ(9)]]
189 Alu = [[QQ(1), QQ(2), QQ(3)], [QQ(4), QQ(-3), QQ(-6)], [QQ(7), QQ(2), QQ(0)]]
194 A = [[QQ(0), QQ(1), QQ(2)], [QQ(0), QQ(1), QQ(3)], [QQ(1), QQ(1), QQ(2)]]
195 Alu = [[QQ(1), QQ(1), QQ(2)], [QQ(0), QQ(1), QQ(3)], [QQ(0), QQ(1), QQ(-1)]]
251 L = [[QQ(1), QQ(0), QQ(0)], [QQ(0), QQ(1), QQ(0)], [QQ(0), QQ(0), QQ(1)]]
253 Lexp = [[QQ(1), QQ(0), QQ(0)], [QQ(3), QQ(1), QQ(0)], [QQ(5), QQ(2), QQ(1)]]
[all …]
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| H A D | test_domainmatrix.py | 124 ddm = DDM([[QQ(1, 2), QQ(3, 4)], [QQ(0, 1), QQ(0, 1)]], (2, 2), QQ)
142 B1 = DomainMatrix([[QQ(1), QQ(2)], [QQ(3), QQ(4)]], (2, 2), QQ)
143 B2 = DomainMatrix([[QQ(1), QQ(3)], [QQ(3), QQ(4)]], (2, 2), QQ)
191 Aq = DomainMatrix([[QQ(1), QQ(2)], [QQ(3), QQ(4)]], (2, 2), QQ)
534 A = DomainMatrix([[QQ(1), QQ(2), QQ(3)], [QQ(4), QQ(5), QQ(6)]], (2, 3), QQ)
536 U = DomainMatrix([[QQ(1), QQ(2), QQ(3)], [QQ(0), QQ(-3), QQ(-6)]], (2, 3), QQ)
540 A = DomainMatrix([[QQ(1), QQ(2)], [QQ(3), QQ(4)], [QQ(5), QQ(6)]], (3, 2), QQ)
544 [QQ(5), QQ(2), QQ(1)]], (3, 3), QQ)
545 U = DomainMatrix([[QQ(1), QQ(2)], [QQ(0), QQ(-2)], [QQ(0), QQ(0)]], (3, 2), QQ)
585 A = DomainMatrix([[QQ(1), QQ(2)], [QQ(3), QQ(4)], [QQ(5), QQ(6)]], (3, 2), QQ)
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| H A D | test_ddm.py | 260 A = DDM([[QQ(0), QQ(1)], [QQ(1), QQ(1)]], (2, 2), QQ)
261 Ar = DDM([[QQ(1), QQ(0)], [QQ(0), QQ(1)]], (2, 2), QQ)
265 A = DDM([[QQ(1), QQ(2), QQ(1)], [QQ(3), QQ(4), QQ(1)]], (2, 3), QQ)
266 Ar = DDM([[QQ(1), QQ(0), QQ(-1)], [QQ(0), QQ(1), QQ(1)]], (2, 3), QQ)
270 A = DDM([[QQ(3), QQ(4), QQ(1)], [QQ(1), QQ(2), QQ(1)]], (2, 3), QQ)
271 Ar = DDM([[QQ(1), QQ(0), QQ(-1)], [QQ(0), QQ(1), QQ(1)]], (2, 3), QQ)
275 A = DDM([[QQ(1), QQ(0)], [QQ(1), QQ(3)], [QQ(0), QQ(1)]], (3, 2), QQ)
276 Ar = DDM([[QQ(1), QQ(0)], [QQ(0), QQ(1)], [QQ(0), QQ(0)]], (3, 2), QQ)
280 A = DDM([[QQ(1), QQ(0), QQ(1)], [QQ(3), QQ(0), QQ(1)]], (2, 3), QQ)
281 Ar = DDM([[QQ(1), QQ(0), QQ(0)], [QQ(0), QQ(0), QQ(1)]], (2, 3), QQ)
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| H A D | test_sdm.py | 303 B = SDM({0:{1:QQ(1)}, 1:{0:QQ(2), 1:QQ(3)}}, (2, 2), QQ)
340 A = SDM({0:{0:QQ(1), 1:QQ(2)}, 1:{0:QQ(3), 1:QQ(4)}}, (2, 2), QQ)
341 B = SDM({0:{0:QQ(-2), 1:QQ(1)}, 1:{0:QQ(3, 2), 1:QQ(-1, 2)}}, (2, 2), QQ)
346 A = SDM({0:{0:QQ(1), 1:QQ(2)}, 1:{0:QQ(3), 1:QQ(4)}}, (2, 2), QQ)
351 A = SDM({0:{0:QQ(1), 1:QQ(2)}, 1:{0:QQ(3), 1:QQ(4)}}, (2, 2), QQ)
361 A = SDM({0:{0:QQ(1), 1:QQ(2)}, 1:{0:QQ(3), 1:QQ(4)}}, (2, 2), QQ)
381 A = SDM({0:{0:QQ(1), 1:QQ(2)}, 1:{0:QQ(3), 1:QQ(4)}}, (2, 2), QQ)
392 2:{0:QQ(7), 1:QQ(8), 2:QQ(9)} }, (3, 3), QQ)
393 Arref = SDM({0:{0:QQ(1), 2:QQ(-1)}, 1:{1:QQ(1), 2:QQ(2)}}, (3, 3), QQ)
397 1:{0:QQ(1), 1:QQ(1), 2:QQ(9)}}, (2, 4), QQ)
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| H A D | test_domainscalar.py | 51 B = DomainScalar(QQ(2), QQ)
58 B = DomainScalar(QQ(2), QQ)
65 B = DomainScalar(QQ(2), QQ)
72 B = DomainScalar(QQ(2), QQ)
83 B = DomainScalar(QQ(2), QQ)
93 B = DomainScalar(QQ(2), QQ)
103 B = DomainScalar(QQ(2), QQ)
104 assert divmod(A, B) == (DomainScalar(QQ(5, 2), QQ), DomainScalar(QQ(0), QQ))
120 A = DomainScalar(QQ(2), QQ)
121 B = DomainScalar(QQ(2), QQ)
[all …]
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| /dports/math/py-Diofant/Diofant-0.13.0/diofant/tests/polys/ |
| H A D | test_rootisolation.py | 336 [(QQ(-1, 2), QQ(-3, 7)), (QQ(3, 7), QQ(1, 2))]
338 [(QQ(-9, 19), QQ(-8, 17)), (QQ(8, 17), QQ(9, 19))]
340 [(QQ(-33, 70), QQ(-8, 17)), (QQ(8, 17), QQ(33, 70))]
342 [(QQ(-33, 70), QQ(-107, 227)), (QQ(107, 227), QQ(33, 70))]
409 [(-2, -QQ(3, 2)), (-QQ(3, 2), -QQ(1, 1)), (1, QQ(3, 2)),
470 [(QQ(41, 29), QQ(58, 41)), (QQ(71, 41), QQ(97, 56)),
1094 [((QQ(15, 16), -QQ(3, 2)), (QQ(33, 32), -QQ(45, 32))),
1095 ((QQ(15, 16), QQ(45, 32)), (QQ(33, 32), QQ(3, 2)))]
1107 ((QQ(-25, 56), QQ(15, 28)), (QQ(-5, 14), QQ(5, 8))),
1109 ((QQ(95, 56), QQ(10, 7)), (QQ(25, 14), QQ(85, 56)))]
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| /dports/math/py-sympy/sympy-1.9/sympy/matrices/tests/ |
| H A D | test_densesolve.py | 8 from sympy import QQ
13 …QQ(2), QQ(-1), QQ(-2)], [QQ(-4), QQ(6), QQ(3)], [QQ(-4), QQ(-2), QQ(8)]], [[x], [y], [z]], [[QQ(-1…
18 …QQ(25), QQ(15), QQ(-5)], [QQ(15), QQ(18), QQ(0)], [QQ(-5), QQ(0), QQ(11)]], [[x], [y], [z]], [[QQ(…
24 …QQ(25), QQ(15), QQ(-5)], [QQ(15), QQ(18), QQ(0)], [QQ(-5), QQ(0), QQ(11)]], [[x], [y], [z]], [[QQ(…
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| /dports/net/kf5-kcontacts/kcontacts-5.89.0/src/improtocols/ |
| H A D | qq.desktop | 42 Name=QQ
44 Name[az]=QQ
45 Name[ca]=QQ
47 Name[cs]=QQ
48 Name[da]=QQ
49 Name[de]=QQ
50 Name[el]=QQ
52 Name[es]=QQ
53 Name[et]=QQ
54 Name[eu]=QQ
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| /dports/math/py-Diofant/Diofant-0.13.0/diofant/tests/domains/ |
| H A D | test_domains.py | 77 assert unify(QQ, QQ) == QQ
578 assert QQ.div(QQ(2, 3), QQ(4, 7)) == (QQ(7, 6), 0)
579 assert QQ.lcm(QQ(2, 3), QQ(4, 9)) == QQ(4, 3)
801 mod = [QQ(1), QQ(0), QQ(1)]
845 a = A([QQ(2), -QQ(1), QQ(1)])
860 a = A([QQ(1), QQ(-1), QQ(2)])
863 c = A([QQ(-1), QQ(1), QQ(-2)])
868 c = A([QQ(3), QQ(0), QQ(2)])
877 c = A([QQ(-1), QQ(-2), QQ(2)])
881 c = A([QQ(1), QQ(2), QQ(-2)])
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| /dports/net-im/kopete/kopete-21.12.3/protocols/qq/ |
| H A D | kopete_qq.desktop | 17 Name=QQ
18 Name[ar]=QQ
19 Name[bg]=QQ
20 Name[bs]=QQ
21 Name[ca]=QQ
23 Name[cs]=QQ
24 Name[da]=QQ
25 Name[de]=QQ
26 Name[el]=QQ
28 Name[eo]=QQ
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| /dports/math/py-sympy/sympy-1.9/sympy/polys/domains/tests/ |
| H A D | test_domains.py | 41 assert unify(F3, QQ) == QQ
51 assert unify(ZZ, QQ) == QQ
59 assert unify(QQ, F3) == QQ
60 assert unify(QQ, ZZ) == QQ
61 assert unify(QQ, QQ) == QQ
154 assert unify(QQ.poly_ring(x), QQ) == QQ.poly_ring(x)
159 assert unify(QQ, QQ.poly_ring(x)) == QQ.poly_ring(x)
174 assert unify(QQ.frac_field(x), QQ) == QQ.frac_field(x)
179 assert unify(QQ, QQ.frac_field(x)) == QQ.frac_field(x)
622 assert K2.convert_from(QQ(1, 2), QQ) == K2(QQ(1, 2))
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| /dports/net-im/matterhorn/matterhorn-50200.13.0/_cabal_deps/modern-uri-0.3.2.0/tests/Text/ |
| H A D | QQSpec.hs | 11 import qualified Text.URI.QQ as QQ
29 let schemeQQ = [QQ.scheme|https|]
34 [QQ.scheme|ftp|] -> shouldNotMatch
35 [QQ.scheme|https|] -> return ()
51 let usernameQQ = [QQ.username|mark|]
57 [QQ.username|mark|] -> return ()
79 [QQ.pathPiece|foo|] -> return ()
84 let queryKeyQQ = [QQ.queryKey|foo|]
90 [QQ.queryKey|foo|] -> return ()
101 [QQ.queryValue|bar|] -> return ()
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| /dports/math/cocoalib/CoCoALib-0.99712/src/tests/ |
| H A D | test-matrix3.C | 68 const ring QQ = RingQQ(); in invertible() local
81 matrix MM(MatByRows(QQ,4,4, M)); in invertible()
89 const ring QQ = RingQQ(); in NotInvertible_SolnExists() local
102 matrix MM(MatByRows(QQ,4,4, M)); in NotInvertible_SolnExists()
110 const ring QQ = RingQQ(); in NotInvertible_NoSolnExists() local
130 const ring QQ = RingQQ(); in MoreRowsThanCols_SolnExists() local
153 const ring QQ = RingQQ(); in MoreRowsThanCols_NoSolnExists() local
176 const ring QQ = RingQQ(); in MoreColsThanRows_SolnExists() local
195 const ring QQ = RingQQ(); in MoreColsThanRows_NoSolnExists() local
213 const ring QQ = RingQQ(); in MoreColsThanRows_SolnExists2() local
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| /dports/math/giacxcas/CoCoALib-0.99700/src/tests/ |
| H A D | test-matrix3.C | 68 const ring QQ = RingQQ(); in invertible() local
81 matrix MM(MatByRows(QQ,4,4, M)); in invertible()
89 const ring QQ = RingQQ(); in NotInvertible_SolnExists() local
102 matrix MM(MatByRows(QQ,4,4, M)); in NotInvertible_SolnExists()
110 const ring QQ = RingQQ(); in NotInvertible_NoSolnExists() local
130 const ring QQ = RingQQ(); in MoreRowsThanCols_SolnExists() local
153 const ring QQ = RingQQ(); in MoreRowsThanCols_NoSolnExists() local
176 const ring QQ = RingQQ(); in MoreColsThanRows_SolnExists() local
195 const ring QQ = RingQQ(); in MoreColsThanRows_NoSolnExists() local
213 const ring QQ = RingQQ(); in MoreColsThanRows_SolnExists2() local
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| /dports/math/cocoalib/CoCoALib-0.99712/src/CoCoA-5/tests/ |
| H A D | tut-CoCoLA2.out | 1 matrix(QQ,
12 matrix(QQ,
19 matrix(QQ,
26 matrix(QQ,
40 matrix(QQ,
65 matrix(QQ,
70 matrix(QQ,
75 matrix(QQ,
80 matrix(QQ,
85 matrix(QQ,
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| H A D | tut-CoCoLA1.out | 1 matrix(QQ,
4 matrix(QQ,
7 matrix(QQ,
10 matrix(QQ,
20 matrix(QQ,
27 matrix(QQ,
36 matrix(QQ,
43 matrix(QQ,
50 matrix(QQ,
58 matrix(QQ,
[all …]
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| /dports/math/giacxcas/CoCoALib-0.99700/src/CoCoA-5/tests/ |
| H A D | tut-CoCoLA2.out | 1 matrix(QQ,
12 matrix(QQ,
19 matrix(QQ,
26 matrix(QQ,
40 matrix(QQ,
65 matrix(QQ,
70 matrix(QQ,
75 matrix(QQ,
80 matrix(QQ,
85 matrix(QQ,
[all …]
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