# $Id$ Bug numbers refer to the BTS at http://pari.math.u-bordeaux.fr/Bugs/ Done for version 2.9.2 (released 5/4/2017): [last column crossreferences current development release 2.10.0] Fixed 1- ZG_normalize destroyed its input [F11] 2- [install] prototype code D0,U, did not work [F12] BA 3- use of complex default function argument could lead to error [F13] 4- factorpadic(2*x^4+x^2,2,2) -> division by 0 [#1876] [F14] 5- incgam(110, I) very inaccurate [F15] BA 6- ellinit over number field was not compatible with generic ops. [F16] BA 7- [breakloop] dbg_up could confuse the breakloop [F17] HC 8- sumnummonieninit(,,a);sumnummonien(n = a, ...) with a > 1 wrong [F18] 9- sumnummonieninit([a,b], t_CLOSURE) => incorrect initialization [F19] 10- lngamma(1+epsilon) much slower than in 2.7; eg. 10^-4 at \p200 [F20] BA 11- lfun(...,t_SER,n>=1) returned a wrong result [F21] 12- lfun(,, negative derivation order) => internal bug [F22] BA 13- ellidentify: check curve is over Q [F24] 14- gdivgs(t_RFRAC,s) could create invalid objects [F25] 15- chareval(G,chi,x,[[...], o]) didn't work (off-by-1) [F26] 16- polsturm(x^2-1,[-1,1]) -> SEGV [#1884] [F27] 17- typo in description of "call" symbolic operator [ _(_) ] [F28] PB 18- matinverseimage could find spurious solutions [#1888] [F29] 19- ellsea could leak variables (=> "no more variables" error) [F30] 20- ellsea leaked clones [F31] 21- 1/x - 1/x returned gen_0 (instead of Pol(0)) [F32] 22- printf("%d",factor(2*3*5*7)) => SEGV [F33] 23- bnrinit(bnf,idealfactor(bnf,1)) -> SEGV [#1890] [F35] BA 24- lfuncreate([1,0,[0],1,1,1,1]) -> SEGV (invalid input) [F36] 25- thue(imaginary quadratic of disc -3f^2, n) could return half-int [F37] BA 26- [libpari] Z_ZV_mod caused gerepile error [F38] 27- bestappr(1+0.*I) -> 1 + 0*I instead of 1 [F39] 28- memory corruption in qfminim [#1894] [F40] 29- polylog(x) used realprecision accuracy instead of precision(x) [F41] 30- exp or log(I*1.0) used realprecision instead of precision(x) [F42] PB 31- M = ffgen(2017^3)*[0, 1; 0, 0]; M^-1 -> SEGV [#1887] [F43] BA 32- lfun(lfungenus2(...),...) was much slower than intended [F44] BA 33- nfsubfields(polcyclo(88), 20) -> wrong result [#1892] [F45] BA 34- [mpi] dynamically linking with libpari did not work [F46] 35- sin(1 + 1.0*I) used realprecision accuracy instead of [F47] precision(x); same for cos, tan, arg, expm1, sinc. HIL 36- polclass could access invalid memory [F49] 37- nfvalrem() overflowed in case of negative valuation [F51] 38- ellminimalmodel over number field could divide by zero [#1899] [F52] 39- incorrect GC in nfgcd [#1903] [F53] 40- missing GC in rnfisabelian [F54] 41- missing GC in vectorsmall [F56] BA 42- missing GC in idealramgroups [F57] BA 43- ellweilpairing failed for supersingular curves in char 2 [#1910] [F58] Done for version 2.9.1 (released 1/12/2016): [last column crossreferences current development release 2.10.0] Fixed 1- subst(1+x^3+O(x^6),x,x+O(x^4)) -> SEGV [#1865] [F1] BA 2- lfunartin was using too much stack [F2] BA 3- fflog in char 3 or 5 was slower than intended [F3] 4- RgX_blocks only worked for t_INT or t_POL coeffs [F4] 5- spurious bnrdlisclist entries (with negative number of real places...) when modulus not a conductor [F5] BA 6- modular algorithms could fail for very large input [F6] BA 7- [mingw] writebin did not work [F7] BA 8- forprime(N=2^100,oo,...) did not work [F8]