AArch64 | |
ppc64le | |
s390x | |
x86-64 |
- update to 2.15.4: * lfunan(lfunetaquo([12,1;13*12,1]),1) -> stack overflow * FpM_intersect could return a Flm * 3- ifac_isprime could be called on input with tiny divisors * nfcompositum could return non-monic polynomials * gammamellininvinit(vector(9,i,1)) -> SEGV * incorrect sanity check in rnfeltdown ("not in base field") * precision loss in gammamellininv * [pthread] parselect could crash * rare infinite loop in ellsaturation * quadunitindex(8461,2)->1 instead of 3 * chinese(Mod(1,3)*(x^2+x+2),Mod(1,5)*(x-1))->incorrect leading term * lindep([0,x]) -> SEGV * [libpari] RgX_div_by_X_x: wrong variable number * MS 14- hyperellratpoints(2*x^3+x^2-x,1000) -> wrong result * ellisogeny over a nf -> inconsistent variables error * w=3;quadgen(5) -> print x instead of w * FpX_convol: wrong result for mixed degree * 18- mateigen(,1): eigenvalues were given as t_VEC or t_COL. Use t_COL. * ellcard over small finite field: potential oo-loop - add pari.keyring for source integrity validation
- Update to 2.15.3 * rare infinite loop in idealtwoelt * nfisisom(16*x^4+1,16*x^4+1) -> error * forprimestep(p=a,b,q,) overflow when a > primelimit * lfun([bnrinit(bnfinit(y^2+1),12),[[2,0],[6,0]]],2) -> error * lfunthetacost(polcyclo(43)): silent overflow * ellcard(ellinit([1,1]*ffgen([41,16])))-> impossible inverse * wrong result (missing content) in idealred(nf, [id, elt]) * det(integer matrix) -> inconsistent exact division * fft([],[]) -> SEGV, fft([1],[1]) -> SEGV * nfrootsof1(x^0) -> oo-loop * hgmalpha did not check its input * hyperellchangecurve([],[]) -> SEGV * hyperellchangecurve(x^0,[1,matid(2),0]) -> SEGV * rnfeltnorm(x,x) -> SEGV * polylogmult(1,[],-1) -> SEGV * ellheight(non-integral E) -> crash * content(1,y) -> pol_1(y) instead of t_INT 1 * s=taylor(1/((x-1)*(y-1)),x); taylor(s,y) -> invalid object * avoid crashing when sumnumsidi diverges (0 bits of accuracy)
- update to 2.15.2: Fixed polredbest: rare error "inconsistent concatenation" hypergeom([0,0],[1],2) powers(t_INT, ...) was very slow factor(prod(i=1,20,nextprime(2^i)), 131) would include 131 sumeulerrat(x^2/(1+x),2) -> FPE lambertw(10^1000) -> overflow
- Update to release 2.15.1 * Resolve SIGSEGV with seralgdep and bnfinit functions * Resolve obscure oo loop in solve when solution ~ 0
- Update to release 2.15.0 * The GP language: * Notion of DebugLevel "domains" that allow to finely control diagnostics. * The syntax setdebug(dom, val) and default(def, val) are now recognized in the GPRC file. * Linear Algebra: * qflll() now implements most LLL modes in fplll (fast, dpe and heuristic), allowing large speedups. Directly and in the many functions that use the LLL algorithm. * New GP function snfrank(), a utility function returning q-ranks from Smith Normal Forms * Elementary Number Theory: * New GP function: harmonic(), to compute generalized harmonic numbers * Reworked Euler numbers, analogously to Benoulli's: eulervec() is now faster and caches computed values, and a new GP function eulerreal() computes floating point approximations. * Elliptic Curves: New module to compute the Mordell-Weil group of rational elliptic curves * See https://pari.math.u-bordeaux.fr/pub/pari/unix/pari-2.15.0.changelog for details.
- Update to release 2.13.4 * For z=x+wy a t_QUAD, z.pol returned the modulus z.mod instead of the t_POL x+'w*y * allow eulerianpol(0) (= 1) * allow polylog(0,x) (was broken when eulerianpol was introduced) * concat(t_LIST,t_LIST) was leaking memory * missing type checks in ellchangepoint (led to a SIGSEGV) * polsturm(-25*x^4+2*x^3+99*x^2-44*x-132,[-oo,-4]) returned garbage * ellheight(E,,Q) led to a SIGSEGV * besselj(80,66) led to an infinite loop * lfun(1, 0.0) "normalizing a series with a 0 leading term" * (0. + O(x) == 1) returned 'true' * idealismaximal(nfinit(x),Mat(2)) -> 0 * O(29^(-1)) == 1 was FALSE (same for -1) * Mod(0, 2*x^0) == 1 was FALSE (same for -1) * [X11] resizing a window could keep traces of previous drawing * x->x+0x1 was not displayed correctly * bnfinit(Q) was not using current precision * polresultant(t_POL with t_RFRAC coefs,...) led to internal errors * znchardecompose(znstar(2,1),[],2) led to SIGSEGV * missing roots in nfroots(t_POL,) * factorpadic: ensure leading coefs are powers of p * nfsnf returned wrong results * rare SEGV occurred in nfdisc * factor((Mod(1,2)*((t^2+1)*x^4+(t^4+1)*x^2+1))) led to a division by 0 * minpoly(Mod(1/(x-(t+1))*Mod(1,2),(t+1)*x^2+t*x+1)) led to an error * factor(Mod(1,2)*x^5+a*x^3) led to division by 0 * nfgrunwaldwang: fix infinite loop * ti=thueinit(3*x^3 + 5*x^2 - 14*x + 54,1); thue(ti,1) led to an error * bnrclassfield led to incorrect result when fundamental units are large
- Update to release 2.13.3. Fixed [last column crossreferences current development release 2.14.0] * zeta(-2 + O(x)) => division by 0 [F25] * (-1)^(-1/2) -> I instead of -I [F56] * GC error in ZX_Uspensky(, flag = 0) [F58] * ellisomat(ell/nf not integral) -> oo-loop or wrong result [F59] * (f(~v)=v[1]=1);(g(v) = f(~v)); my(V=[0]);g(V);V -> [1] instead of [0] due to missing copy on write [#2304] [F60] * hypergeom([1/12,1/12],2/3,3) -> wrong result [F61] * overflow in mulu_interval(,ULONG_MAX) [#2309] [F62] * ellE(1) -> domain error [#2312] [F63] * log1p(-1 + 10^-10) -> oo time [F64] * bernvec entries were wrong from B_{2*4064} on [#2311] [F65] * plotrecthraw for multi-curves [F66] * RgXn_powu(,,1) wrong result [#2314] [F67] * erfc incorrect on negative imaginary axis [#2315] [F68] * mfgalpoistype bug for dihedral types (when conductor at oo is not stable under Galois) [#2293] [F69] * [32bit] forfactored(n=223092868, 223092871, ) -> SEGV [#2318] [F70] * Fp_issquare(0, p) would return 0 [F71]
- Split '%make_build all docpdf' into separate executions due to non-reproducible results during parallel build with varying numbers of jobs. Thanks to Bernhard M. Wiedemann for reporting the bug.
- Update to release 2.13.2. Fixed [last column crossreferences current development release 2.14.0] * rnfidealup(, non-integral ideal) -> division by 0 [F22] * memory leak in ellheight [F23] * memory leak in bnfinit [F24] * nfeltdiv(nfinit(x^2+1), 0, 1+x/2) -> SEGV [#2277] [F26] * znchargauss(g,chi,0) -> oo loop [F28] * bnflog(bnr, ...) -> SEGV [F29] * elliptic functions: incorrect reduction of z/w1 mod [1,tau] => catastrophic cancellation [F30] * powcx(x, t_COMPLEX with 0 imaginary part) -> crash [F31] * nfsubfields(t_POL in other var than x,,1) -> SEGV [F32] * extra terms in power t_SER substitutions [#2281] [F33] * k=bnfinit(quadpoly(-2923,a)); bnrclassfield(k,3) -> SEGV [#2280] [F34] * rnfdisc mishandled polynomials with denominators [#2284] [F35] * elltamagawa(ellinit([-1456/243,93184/19683])) -> wrong result [F36] * mfsearch would sometimes miss the trivial form [F37] * typo in allh [affects ECPP tunings] [F38] * mfisetaquo(mffrometaquo([1,12;193,12])) -> 0 [F39] * polroots(1.E-47*t^6+1.E-47*t^5+4.E-46*t^4) -> bug in type [#2286] [F40] * ceil(quadgen(5)) -> 1 instead of 0 [#2288] [F41] * floor(Mod(0,3)*quadgen(5)) -> crash [F42] * wrong ispower(t_RFRAC) and issquare(t_RFRAC, &z) [#2289] [F45] * 1+O(x)==O(x) [F47] * qfauto([[1,0;0,1],[0,0;1,0]]) -> SEGV [F49] * bnfsunit(...)[4] (the S-regulator) did not correspond to its definition in the documentation [ was using log(p) instead of log(Norm P)) for P in S above p ] [F50] * rnfdisc could return corrupted result [F51] * concat(List([1])[1..0]) ->SEGV (instead of error) [#2299] [F53] * List([1])[1..0]==List() -> 0 instead of 1 [F54] - Build PDF documentation and place it into separate pari-doc package. Move examples from pari-devel package to pari-doc. - Add %{_sysconfdir}/gprc to packaging. - Remove patch pari-nodate.diff (replace with the sed one-liner in the %prep section). - Remove obsolete stuff from the spec file. - Apply spec-cleaner.
- Update to release 2.13.1. Fixes the following bugs: * GC error in idealinv. * qfminim inefficiency (initial bound from non-LLL-reduced matrix). * mfshimura in weight 3/2 => infinite loop * matsolve([1,1,1/2; 1,0,1/2; 2,1,0], [-1;1;-1]) -> SEGV. * qfminim(Mat(1),,,2) -> precision error. * subst(p, v, t_SER) very slow if p contains many variables. * mfsymboleval for trivial path returned 0 instead of a vector of 0s when f has multiple embeddings. * 2^(1 + O(3^4)) -> type error. * Zn_quad_roots(8,0,-1) to compute roots of x^2-1 mod 8 -> [4,[1,3]] (1 or 3 mod 4) instead of the expected [2,[1]] (1 mod 2). * tan(1+10^20*I) -> overflow (same for cotan and psi). * Mod(2,3)^1000000000000000000001 -> Mod(-1,3). * subst(O(y) + x, x, (1 - y + O(y^2))*x + O(x^2)) -> SEGV. * (Mod(0,3) + x) + O(x^2) -> x + O(x^2) [now Mod(1,3)*x + O(x^2)]. * Precision too low for units in mfgaloisprojrep. * Missing GC at the end of RgXn_inv. * (-1)^(1/3) -> -1 instead of exp(log(-1)/3). * mfeisenstein(k, trivial characters mod N > 1) was incorrect. * Missing GC in qfsolve.
- Update to release 2.13.0 * New libpari functions: perm_sqr, perm_powu, perm_orderu, quodif. * Added asymptotically fast quadunit. * Faster intnumgaussinit and change default number of points to B/4, suitable when b - a ~ distance to the nearest pole. * In libpari, perm_pow now takes a t_INT exponent, permorder and perm_order return a t_INT. * sizebyte(objects containing t_LIST): would assign size 3 to all lists * permorder returned incorrect results for large orders * cure SIGSEGV on [Map(Mat([0, 0])), [0, 0, 1]] * cure SIGSEGV on zeta(I+2^(-64)) * cure infinite loop on p=[4,54];lfunmf(mfinit(p,0), mftraceform(p,0)) * printf("%5.2f",M) transposed M * bnfinit instability at low accuracy. E.g., at \p38 P=x^7+22*x^6+184*x^5+764*x^4+2020*x^3+3792*x^2+5712*x+4; bnfinit(P,1).no -> 4 times too large * Accuracy problems in bnfisunit after bnfinit(P,1). E.g., P=x^7-22*x^6+169*x^5-568*x^4+1263*x^3-1506*x^2+2295*x+2; setrand(1); K=bnfinit(P,1); U=bnfunits(K,idealprimedec(K,2)); bnfisunit(K,4*(x^2-18*x+85)/x^2*Mod(1,K.pol),U) -> error - Update to release 2.12.1. * New functions in GP: asympnumraw, bnrmap, bnfunits, dirpowerssum, ellpadiclambdamu, eulerianpol, eulerfrac, eulerpol, eulervec, fft, fftinv, halfgcd, lfundual, lfunshift, matreduce, mfisetaquo, mscosets, msfarey, nfsubfieldscm, nfsubfieldsmax, parforeach, parforprimestep, parplothexport, permcycles, polylogmult, rootsof1, zetamultdual. * New libpari functions: absZ_factor_limit_strict, bnf_build_cheapfu, bnf_compactfu, bnf_compactfu_mat, bnf_get_sunits, bnf_has_fu, bnrchar_primitive_raw, bnrconductor_factored, bnrconductor_raw, bnrisprincipalmod, bnr_subgroup_check, checkbnr_i, checkfarey_i, closure_callgen0prec, cmpss, cmpuu, cyc_get_expo, div_content, ellQtwist_bsdperiod, etaquotype, expIPiC, expIPiR, F2m_row, F2Ms_colelim, F2Ms_ker, F2Ms_to_F2m, F2m_to_F2Ms, F2m_transpose, F2v_and_inplace, F2v_hamming, F2v_negimply_inplace, F2v_or_inplace, F2xn_inv, F2xn_red, F2xqX_halfgcd, F2xX_to_F2xC, F2xXV_to_F2xM, factorial_Fl, factorial_Fp, famat_div, famat_idealfactor, famat_nfvalrem, famat_remove_trivial, famatV_factorback, famatV_zv_factorback, ff_parse_Tp, FFX_add, FFX_halfgcd, Flv_factorback, Flx_blocks, Flx_Fl_sub, Flx_is_totally_split, Flxn_expint, Flxq_autpowers, FlxqV_factorback, FlxqX_fromNewton, FlxqX_Newton, FlxqXn_expint, FlxqXn_inv, FlxqXn_mul, FlxqXn_sqr, Flx_translate1_basecase, FlxV_Flv_multieval, FlxX_blocks, FlxX_invLaplace, FlxX_Laplace, FlxXn_red, FlxX_translate1, forqfvec1, FpV_prod, FpXC_to_mod, FpX_divu, FpX_Fp_div, FpX_FpXV_multirem, FpXM_to_mod, FpXn_expint, FpXQXn_expint, FpXV_chinese, FpXY_FpXQ_evaly, FqC_FqV_mul, FqC_to_mod, FqV_factorback, FqXC_to_mod, FqX_expint, FqXM_to_mod, galoismatrixapply, gc_const, gen_sort_shallow, gen_ZpM_Newton, groupelts_conj_set, groupelts_quotient, groupelts_to_group, group_subgroup_is_faithful, halfgcdii, hash_zv, idealfactor_partial, ideallogmod, ideallog_units, ideallog_units0, idealpseudominvec, Idealstarmod, init_Flxq, is_qfb_t, Kronecker_to_ZXQX, lfunquadneg, minim_zm, mseval2_ooQ, mspadic_parse_chi, mspadic_unit_eigenvalue, nf_cxlog, nf_cxlog_normalize, nfhyperellpadicfrobenius, nflogembed, nfsign_fu, nfsign_tu, nfV_cxlog, nfX_disc, nfX_resultant, pariplot, pari_realloc_ip, pow2Pis, pow2Pis, powPis, powPis, QabM_tracerel, Qab_tracerel, QabV_tracerel, Qdivis, Qdiviu, Q_lval, Q_lvalrem, QM_gauss_i, QM_image, QM_image_shallow, QM_ImQ, QM_ImQ_all, QM_ImZ, QM_ImZ_all, QM_sqr, quotient_groupelts, QXQ_to_mod_shallow, QXQX_gcd, QXQX_mul, QXQX_powers, QXQX_QXQ_mul, QXQX_sqr, radicalu, random_zv, rfracrecip, RgM_ZM_mul, RgV_type, RgV_type2, RgX_halfgcd, RgXn_expint, RgXV_to_FlxV, rnf_get_ramified_primes, SL2_inv_shallow, sumdivmultexpr, sunits_makecoprime, uis2psp, uispsp, upowers, vec_equiv, vecfactorsquarefreeu_coprime, vec_reduce, vecsmall_is1to1, vecsmall_isconst, vecvecsmall_sort_inplace, vecvecsmall_sort_shallow, Vgaeasytheta, ZC_u_divexact, zlx_translate1, zlxX_translate1, ZMrow_equal0, ZpM_invlift, ZpX_primedec, ZV_lcm, ZV_snf_gcd, zv_sumpart, ZX_compositum, zx_lval, ZXQ_minpoly, ZXQ_powers, ZXQX_gcd, ZXQX_ZXQ_mul, ZX_realroots_irred, ZX_sturm_irred, ZXX_evalx0, ZXX_Q_mul, zx_z_divexact, * Allow nfinit([T, basis, ramified primes]). * Allow nf.p, rnf.p [rational ramified primes]. * Add flag bit to ZM_snfall_i. * Allow real t_QUAD in floor, ceil, divrem, %, \, \/. * Parallel support for lfuninit. * Direct formulas for quadratic Dirichlet L-functions at integers. * lfuncreate: support for closures of arity 0. * Compact representation of units in bnf (bnfinit(pol,1)) and of principal ideal generators (bnfisprincipal(bnf,id,4)). * lfuncreate(znstar or bnr,): allow a vector of characters => vector-valued L-function. * Holes in multi-assignement: [a,,c]=[1,2,3]. * nfisincl: new flag: return a single embedding. * qflll(x,3) in place reduction: return x * qflll(x) (faster). * galoisinit: support for group (3x3):4 (GAP4(36,9)). * Removed obsolete function rootsof1_kannan: use nfrootsof1. * Removed obsolete function checkbnrgen: use bnr_get_gen. * For additional changes, see the included changelog. - Update to release 2.12.0. * New functions in GP: airy, arity, bnrclassfield, derivn, dirpowers, ellE, ellK, export, exportall, ffmaprel, getlocalbitprec, getlocalprec, hypergeom, idealdown, idealismaximal, mfgaloisprojrep, nfdiscfactors, pollaguerre, polteichmuller, strjoin, strsplit, strtime, unexport, unexportall. * New libpari functions: bid_get_fact2, closure_derivn, constzeta, divisorsu_fact_factored, divisorsu_moebius, F2xqX_disc, F2xqX_resultant, F2x_recip, F2x_Teichmuller, FF_preimagerel, FF_var, FFX_disc, FFX_extgcd, FFX_gcd, FFXQ_minpoly, FFX_resultant, Flx_fromNewton, Flx_integ, Flx_invLaplace, Flx_Laplace, Flx_Newton, Flxn_exp, Flxn_red, Flxn_sqr, FlxqX_disc, FlxqX_resultant, Flx_Teichmuller, Fp_divu, FpXC_FpXQ_eval, FpXQX_disc, FpXQX_resultant, gc_bool, gc_double, gc_int, gc_long, gc_NULL, gc_ulong, gluncloneNULL_deep, guncloneNULL, hash_init, hash_init_ulong, has_str_len, identity_zv, identity_ZV, maxprimeN, mpsinhcosh, mulu_interval_step, nfX_to_monic, nonsquare_Fl, pari_get_histrtime, polint_i, polintspec, pollegendre_reduced, psi1series, qfiseven, rfrac_deflate, rfrac_deflate_max, rfrac_deflate_order, RgV_is_arithprog, RgV_isin_i, set_avma, setunion_i, walltimer_delay, walltimer_start, ZpXQX_liftroots, zv_cyc_minimal, zv_cyc_minimize, ZXQ_powu. * qfbsolve(Q,n) now supports arbitrary integer n. * limitnum/asympnum: allow closures of the form N->[u(1),...,u(N)], which allows to handle efficiently sums, recursions, continued fractions, etc. * Optional flag to pollegendre and polhermite. * Allow subst(e, x, vector v) for vector(subst(e, x, v[i])). * Optional v argument to nfmodprinit. * Support call by reference in GP function: f(~L,x)=listput(~L,x+1). * Generic fast linear algebra using CUP decomposition. * Implement lfunmfspec in odd weight. * Support for rational model in ellratpoints and hyperellratpoints. * Fast algorithm for zeta([a + b*n | n<-[0..N]]). * ellheight(E) now returns the Faltings height of E. * lfun now allows non-integral weights. * example/parigp.sty to re-enable PARI's \pmatrix with amsmath. * Removed member functions .futu and .tufu (deprecated since 2.2). * Removed inferior hash function hash_str2: use hash_str. * Removed obsolete binary flag '2' in matsnf (make it a no no-op). * For additional changes, see the included changelog.
- Update to release 2.11.4 * fixed "factor((x-1)*(x-y)^2)" going into an infinite loop * "ellap" could fail with division by 0 * cure wrong results from "bnfsunit"
- Update to release 2.11.3 * Avoid division by zero in Flx_extresultant when one input is 0. * Fix crashes executing "ispower(27,2^60)", "issquare(non square t_FFELT, &x)", "polcompositum(x^2+x/3+1,x^2+x/3+1)", "polrootsreal(x+0.)", "qflllgram([2,2,3;4,5,6])", or printf("%10.6f\n",2^-100).
- Enable pthreads [boo#1142714] - Avoid duplicate shipping of documentation.
- Update to new upstream release 2.11.2 * Fixed minpoly(Mod(1,t^2)) causing SIGSEGV. * Fixed segfault in ffinvmap(m) on bad input. * Fixed factormod(x^3+1,[y^2+1,2]) causing SIGSEGV. * Fixed incorrect use of graphcolors leading to a SIGSEGV. * Fixed [a,b]=a possibly leading to memory corruption. * Fixed a memory leak in cgetalloc when lg overflows. * Fixed a possible segfault in padicappr. * Fixed core() possibly destroying its input, if stored in a GP variable. * Fixed stack corruption in quad_disc. * Fixed an infinite loop and stack corruption in ellmoddegree. - Drop the separate changelog as RPMLINT warns about it being a duplicate of the file CHANGES (which is already included).
- Prepare the KDE4/Qt4 removal in factory.
- Update to new upstream release 2.11.1 * Fixed a heap buffer overflow * Fixed mfsplit(mf,,flag) could return uninitialized objects causing SIGSEGV * Fixed incgam(-1000.4,2) causing SIGSEGV * Fixed mfcoefs(mfDelta(),0) causing SIGSEGV * Fixed segfault in rnfidealup
- Use %macro instead of %{macro} wherever possible.
- Fix building on SLE 15 - Use %license macro
- Update to new upstream release 2.11.0 * fixed uninitialized memory reads in lgcdii and red_montgomery * fixed memory leaks on pari_close [s_dbginfo, s_frame, colormap/graphcolor * polcoeff is deprecated and renamed polcoef: it now only applies to scalars, polynomials, series and rational functions; no longer to vector/matrices or quadratic forms (use [] or "component") * libpari: rename polcoeff0 -> polcoef, polcoeff_i -> polcoef_i, truecoeff -> truecoef