| /dports/math/pari/pari-2.13.3/src/basemath/ |
| H A D | ZG.c | 55 return mkmat2(gel(x,1),ZC_neg(gel(x,2))); in ZG_neg()
66 return mkmat2(gel(x,1), ZC_Z_mul(gel(x,2), c)); in ZG_Z_mul()
119 return ZG_normalize( mkmat2(z, gel(x,2)) ); in ZG_G_mul()
130 return ZG_normalize( mkmat2(z, gel(y,2)) ); in G_ZG_mul()
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| H A D | Flxq_log.c | 125 return mkmat2(p2, e2); in factorel()
137 z = mkmat2(vecsmall_append(gel(z,1),off+u),vecsmall_append(gel(z,2),-1)); in Flx_addifsmooth3()
139 z = famatsmall_reduce(mkmat2( in Flx_addifsmooth3()
214 GEN rel = mkmat2(vecsmall_concat(gel(F, 1),gel(G, 1)), in Flxq_log_find_rel()
476 M = mkmat2(vecsmall_concat(gel(F, 1), vecsmall_append(gel(G, 1), 2*p)), in rel_Coppersmith()
640 GEN R = famatsmall_reduce(mkmat2(FG, E)); in Flxq_log_Coppersmith_d()
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| H A D | base4.c | 645 setlg(vE, k); return mkmat2(vP, vE); in idealHNF_factor_i()
737 setlg(E,j); return gerepilecopy(av, mkmat2(P, E)); in idealfactor_partial()
1144 return mkmat2(shallowconcat(gel(f,1), gel(g,1)), in famat_mul_shallow()
1269 return mkmat2(gel(f,1), ZC_neg(gel(f,2))); in famat_inv_shallow()
1291 return mkmat2(gel(f,1), ZC_Z_mul(gel(f,2),n)); in famat_pow_shallow()
1301 return mkmat2(gel(f,1), ZC_z_mul(gel(f,2),n)); in famat_pows_shallow()
1398 setlg(E, k); return mkmat2(G,E); in famat_reduce()
1456 setlg(E, k); return mkmat2(G,E); in famatsmall_reduce()
1468 setlg(P, k); setlg(E, k); return mkmat2(P,E); in famat_remove_trivial()
1523 return mkmat2(G,E); in ZM_famat_limit()
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| H A D | qfsolve.c | 302 A = mkmat2(mkcol2(gcoeff(G3,1,1),gcoeff(G3,1,n)), in qflllgram_indefgoon()
369 U2 = mkmat2(mkcol2(negi(u),negi(v)), mkcol2(negi(b),a)); in qflllgram_indefgoon2()
488 G = shallowmatconcat(mkmat2(mkcol2(A,B), in qfminimize()
643 { return mkmat2(mkcol2(gen_1,gen_0),mkcol2(gen_0,shifti(negi(D),-2))); } in id()
1089 U = qflllgram_indef(mkmat2(mkcol2(a,b),mkcol2(b,c)), 1, &fail); in qfparam()
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| H A D | arith2.c | 264 return mkmat2(vecslice(P,2,n), vecslice(gel(f,2),2,n)); in clean_Z_factor()
281 return mkmat2(P, E); in fuse_Z_factor()
428 setlg(E,j); return mkmat2(Q,Flc_to_ZC(E)); in fa_clean()
466 setlg(E,j); return mkmat2(Q,E); in fa_clean_u()
747 F = mkmat2(ZV_to_nv(gel(F,1)), ZV_to_nv(gel(F,2))); in eulerphi()
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| H A D | modsym.c | 1267 return ZG_normalize(mkmat2(w, gel(v,2))); in ZSl2_star()
1436 gel(W,9) = mkvec( mkmat2(mkcol3(gen_1,TAU,ZM_sqr(TAU)), in msinit_N()
1511 gel(annT31, r) = mkmat2(mkcol3(gen_1,gamma,ZM_sqr(gamma)), in msinit_N()
1856 M = Gamma0N_decompose(W, mkmat2(C1,C2), &index); in M2_log()
1991 return mkmat2(c1,c2); in Gl2Q_act_path()
3190 L = mkmat2(gsub(xp,xm), gmul2n(xm,1)); in msfromell_scale()
4367 gel(V,j) = mkmat2(u, ZM_ZC_mul(g,gel(Mnext,2))); in path_vec_mul()
4395 gel(V,a) = mkmat2(u, v); in fill1()
4408 gel(V,a1) = mkmat2(u,v); in fill2()
4411 gel(V,a2) = mkmat2(u,v); in fill2()
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| H A D | Qfb.c | 672 *U = mkmat2(mkcol2(u1,v1), mkcol2(u2,v2)); return Q; in redimagsl2()
1388 N = mkmat2(gel(M,2), in redrealsl2step()
1418 M = mkmat2(mkcol2(u1,u2), mkcol2(v1,v2)); in redrealsl2()
1548 GEN D = divisors_factored(mkmat2(gel(fa,1), gshift(gel(fa,2),-1))); in qfbsolve_all()
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| H A D | buch3.c | 648 alpha = famat_div_shallow(alpha, mkmat2(U,y)); in bnrisprincipalmod()
1107 og = mkmat2(mkcol(utoi(p)), mkcol(gen_1)); /* order of g */ in primecertify()
1615 fa = e? famat_remove_trivial(mkmat2(S.P, e)): bid_get_fact(bid); in bnrconductor_factored_i()
1665 GEN fa = famat_remove_trivial(mkmat2(S.P, e? e: S.k)), bid; in bnrconductormod()
2124 setlg(E, c); return mkmat2(P, E); in factordivexact()
2143 return mkmat2(gel(fa,1), gmulsg(n, gel(fa,2))); in factorpow()
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| H A D | F2x.c | 1009 return gerepilecopy(av, mkmat2(mkcol2(u,u1), mkcol2(v,v1))); in F2x_halfgcd_i()
1293 return mkmat2(p2, e2); in F2x_factorel()
1367 GEN R = famatsmall_reduce(mkmat2(FG, E)); in F2xq_log_Coppersmith_d()
1398 GEN rel = mkmat2(vecsmall_concat(gel(F, 1),gel(G, 1)), in F2xq_log_find_rel()
1474 M = mkmat2(vecsmall_concat(gel(F, 1), vecsmall_append(gel(G, 1), 2)), in rel_Coppersmith()
2534 return gerepilecopy(av, mkmat2(mkcol2(u,u1), mkcol2(v,v1))); in F2xqX_halfgcd_basecase()
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| H A D | base3.c | 817 y = mkmat2(y, gel(x,2)); in famat_nfvalrem()
1416 if (emb) *emb = M = mkmat2(T, e); in famat_logembed()
2672 setlg(E, j); return mkvec2(o, mkmat2(P,E)); in order_update()
2827 a = mkmat2(mkcol2(a, den), mkcol2(gen_1, gen_m1)); in zlog()
3021 setlg(F,j); return mkmat2(Q,F); in famat_strip2()
3131 GEN z = Idealstarmod_i(nf, mkmat2(mkcol(pr),mkcols(k)), flag, NULL); in Idealstarprk()
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| H A D | bb_hnf.c | 140 return mkvec2(y,mkmat2( in _Fp_extgcd()
148 m = mkmat2( in _Fp_extgcd()
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| H A D | bnflog.c | 432 M = mkmat2(mkcol2(diagonal_shallow(cycAp), C), mkcol2(gen_0, vtG)); in bnflog_i()
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| H A D | base2.c | 61 setlg(E,iq); return mkmat2(Q,E); in fact_from_factors()
137 return mkmat2(P,E); in poldiscfactors_i()
505 return gerepilecopy(av, mkvec2(D, mkmat2(P, zc_to_ZC(E)))); in nfdiscfactors()
1783 if (degpol(f) == 1) return mkmat2(mkcol(f), mkcol(gen_1)); in ZpX_monic_factor()
1793 return mkmat2(shallowconcat1(P), shallowconcat1(E)); in ZpX_monic_factor()
3530 setlg(Ef, jf); *pf = pr_factorback_scal(nf, mkmat2(Pf,Ef)); in rnfallbase()
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| H A D | polarit1.c | 553 return mkmat2(y, const_col(lg(y)-1, gen_1)); in famat_flatten()
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| H A D | ellanal.c | 893 M = mkmat2( mkcol2(mulii(d, Q), mulii(negi(N), c)), in best_lift()
1041 return mkmat2(P, E); in fa_shift2()
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| H A D | base1.c | 2365 return orig? mkmat2(mkcol(X),mkcol(gen_1)): mkvec(X); in polred_aux()
2413 (void)sort_factor_pol(mkmat2(y, b), cmpii); in polred_aux()
2414 return mkmat2(b, y); in polred_aux()
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| H A D | bb_group.c | 751 return gerepilecopy(av, mkvec2(o, mkmat2(P,F))); in gen_factored_order()
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| /dports/math/p5-Math-Pari/pari-2.3.5/src/basemath/ |
| H A D | polarit1.c | 870 if (d == 1) return mkmat2(mkcol(f), mkvecsmall(1)); in FpX_factor_2()
872 if (!r) return mkmat2(mkcol(f), mkvecsmall(1)); in FpX_factor_2()
879 if (!sgn) return mkmat2(mkcol(R), mkvecsmall(2)); in FpX_factor_2()
881 return mkmat2(mkcol2(R,S), mkvecsmall2(1,1)); in FpX_factor_2()
1859 bas = nfbasis(x, &dK, 0, mkmat2(g,e)); in padicff()
1874 return mkmat2(mkcol(ZX_to_ZpX_normalized(x, p, powiu(p,r), r)), in padic_trivfact()
1928 if (n==1) return mkmat2(mkcol(f), mkcol(gen_1)); in ZX_monic_factorpadic()
1971 setlg(E,j); return mkmat2(P, E); in ZX_monic_factorpadic()
2185 return gerepilecopy(av, mkmat2(P,E)); in polfnf()
2204 return gerepilecopy(av, sort_factor(mkmat2(P,E), cmp_pol)); in polfnf()
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| H A D | buch3.c | 1756 setlg(E, c); return mkmat2(P, E); in factordivexact()
1769 return mkmat2(P,E); in factorsplice()
1775 return mkmat2(gel(fa,1), gmulsg(n, gel(fa,2))); in factorpow()
1843 return mkvec3(mkmat2(gel(fa,1), vec_to_vecsmall(gel(fa,2))), in get_discdata()
1945 return mkvec4(mkmat2(empty,empty), gmael(bid,2,2), in zsimp()
1977 mkmat2(vecsmall_append(gel(fa,1), prcode), in zsimpjoin()
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| H A D | base4.c | 729 setlg(y2, k); y = gerepilecopy(av, mkmat2(y1,y2)); in idealfactor()
1124 return mkmat2(g, e); in to_famat()
1267 setlg(E, k); return mkmat2(G,E); in famat_reduce()
2489 return idealapprfact_i(nf, mkmat2(L,e), 0); in idealcoprime_fact()
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| H A D | Qfb.c | 1166 N = mkmat2(gel(M,2), in redrealsl2step()
1205 M = mkmat2(mkcol2(u1,u2), mkcol2(v1,v2)); in redrealsl2()
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| /dports/math/pari/pari-2.13.3/src/kernel/none/ |
| H A D | halfgcd.c | 128 return mkmat2(gel(Q,1), in mulT()
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| /dports/math/pari/pari-2.13.3/src/language/ |
| H A D | sumiter.c | 163 { return mkmat2(zc_to_ZC(v), const_col(lg(v)-1,gen_1)); } in zv_to_ZM()
171 return mkmat2(w, const_col(l,gen_1)); in zv_to_mZM()
267 M = mkmat2(P,E); in forfactoredneg()
289 set_lex(-1, mkvec2(gen_0, mkmat2(mkcol(gen_0),mkcol(gen_1)))); in eval0()
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| /dports/math/p5-Math-Pari/pari-2.3.5/src/kernel/none/ |
| H A D | level1.h | 32 GEN mkmat2(GEN x, GEN y);
341 mkmat2(GEN x, GEN y) { GEN v=cgetg(3,t_MAT); gel(v,1)=x; gel(v,2)=y; return v; } in mkmat2() function
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| /dports/math/p5-Math-Pari/pari-2.3.5/src/modules/ |
| H A D | kummer.c | 283 return mkmat2(tauofvec(gel(x,1), tau), gel(x,2)); in tauoffamat()
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