| Bill Allombert on Sun, 28 Apr 2019 16:08:25 +0200 |
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| Please test pari-2.11.2 prerelease 1 |
Dear PARI developers,
We have made available a prerelease of PARI 2.11.2 (stable).
This is a large update, so please test thoroughly.
The expected release date is set to the 12/05/2019.
Please test the prerelease tarball:
<https://pari.math.u-bordeaux.fr/pub/pari/snapshots/pari-2.11.2-pre1.tar.gz>
The digital signature is
<https://pari.math.u-bordeaux.fr/pub/pari/snapshots/pari-2.11.2-pre1.tar.gz.asc>
Please test the 64bit windows installer:
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/Pari64-2-11-2-pre1.exe>
This release should fix problems with the plotting engine on Windows.
I have also built the 32bit Windows installer:
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/Pari32-2-11-2-pre1.exe>
and the following standalone Windows binaries:
32bit
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gp32-2-11-2-pre1.exe>
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gp32-readline-2-11-2-pre1.exe>
64bit
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gp64-2-11-2-pre1.exe>
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gp64-readline-2-11-2-pre1.exe>
64bit, multithreaded
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gppthread64-2-11-2-pre1.exe>
<https://pari.math.u-bordeaux.fr/pub/pari/windows/snapshots/gppthread64-readline-2-11-2-pre1.exe>
and the following MacOS DMG:
<https://pari.math.u-bordeaux.fr/pub/pari/mac/snapshots/PariGP-2.11.2-pre1.dmg>
<https://pari.math.u-bordeaux.fr/pub/pari/mac/snapshots/PariGP-full-2.11.2-pre1.dmg>
<https://pari.math.u-bordeaux.fr/pub/pari/mac/snapshots/PariGP-full-2.11.2-pre1-parallel.dmg>
and the following MacOS stand-alone binaries:
<https://pari.math.u-bordeaux.fr/pub/pari/mac/snapshots/gp-2.11.2-pre1-osx>
<https://pari.math.u-bordeaux.fr/pub/pari/mac/snapshots/gp-2.11.2-pre1-parallel-osx>
The changelog:
Bug numbers refer to the BTS at http://pari.math.u-bordeaux.fr/Bugs/
Done for version 2.11.2 (released 12/05/2019):
Fixed
1- make ellheight(E, torsion point) return an exact 0 [#2109] [F45]
BA 2- hyperellcharpoly: wrong results over Z/3Z [F46]
3- gmp kernel: off-by-1 error in red_mongomery [read uninitialized [F47]
memory, then ignores result]
4- intnuminit([-1,-1/2],[1,-1/2]) twice slower than it should [F48]
5- forcomposite(n=2,4,print(n)) -> empty [#2096] [F49]
FB 6- [Configure] library not found despite --with-readline-lib [#2097][F53]
7- minpoly(Mod(1,t^2)) -> SEGV [#2102] [F55]
8- a=ffgen(3^2,'a);poldisc(x^6+a*x+y) -> division by 0 [ positive [F56]
characteristic with a few t_INT coefficients ]
BA 9- [pthread] parapply could crash [F58]
BA 10- ffinvmap(m) could SEGV on bad input [F59]
11- ellisdivisible(E/K number field in 'x) -> incorrect priority [F60]
12- idealispower(nf, t_INT n) possibly wrong if (n, nf.disc) > 1 [F61]
13- zeta''(0): all precision lost [more generally f'...'(n quotes)
imprecise in the neighbourhood of 0, while derivnum(,n) was OK] [F62]
14- sumdigits(negative number, B) sometimes negative [F63]
15- poldiscfactors(x^0) -> division by 0 [F64]
16- factormod(x^3+1,[y^2+1,2]) -> SEGV [F65]
17- factormod(x^3+1,[y^2+1,5]) -> weird error message [F66]
BA 18- fix inefficiency in fplll not present in original code [F69]
19- polrootsreal(x^4+2*x^3+x^2/3+x/100-1/2000,[1/100,oo]): no root [F70]
20- polrootsreal(x^4+2*x^3+x^2/3+x/100-1/1000,[1/10,oo]): extra root [F71]
21- lfun may crash on lfuncreate input with too short an vector [F72]
BA 22- incorrect use of graphcolors -> SEGV [F73]
23- forcomposite(..., oo, ) was not supported [F74]
BA 24- lfunartin with poles: incorrect result [F75]
JD 25- factor: significant pointers lost [#2125] [F76]
BA 26- matdet/matrank over large fields was inefficient [F77]
27- poldisc(y^2/x + 1, y) -> error [also affects polresultant] [F78]
28- poldisc(x^2/y + 1, y) -> 0 [also affects polresultant] [F79]
29- ispower(2, 2^64) -> error [F80]
30- (f(x) = x*'y); f'(1) -> error [F81]
BA 31- sqrtn(Mod(3,19),4) -> no error [#2127] [F82]
32- nfhnfmod: wrong result [F83]
33- matdet(mat with t_RFRAC entries): wrong result [#2128] [F84]
34- n-th derivative of zetahurwitz used 'seriesprecision' instead
of n + imprecise value when n large [#2130] [F85]
35- lfunzeros(f, [0, b]) wasn't allowed [F86]
36- mateigen(): typo causing wrong results when correct results were
achievable [#2131] [F87]
37- intnum(x=-oo,[0,-1/2],1/sqrt(-x*(x^4+1))) -> division by 0 [F88]
38- printtex(quadgen(-3,'z)) ==> w [F90]
BA 39- [a,b]=a could lead to memory corruption [F91]
40- memory leak in cgetalloc when lg overflows [F92]
41- possible SEGV in padicappr [#2133] [F93]
42- core() could destroy its input, if stored in a GP variable [F96]
43- quadgen(2^64+1) * 1. => junk (stack corruption in quad_disc). [F97]
44- ellmoddegree: infinite loop and stack corruption (e.g on 52a2) [F98]
45- ellmoddegree(ellinit("10890ba6")) -> wrong result [F99]
46- nfgcd called ZX_resultant(a,T) with typ(a) == t_INT [F100]
On behalf of the PARI group,
Bill and Karim