head 1.3; access; symbols pkgsrc-2026Q1:1.3.0.28 pkgsrc-2026Q1-base:1.3 pkgsrc-2025Q4:1.3.0.26 pkgsrc-2025Q4-base:1.3 pkgsrc-2025Q3:1.3.0.24 pkgsrc-2025Q3-base:1.3 pkgsrc-2025Q2:1.3.0.22 pkgsrc-2025Q2-base:1.3 pkgsrc-2025Q1:1.3.0.20 pkgsrc-2025Q1-base:1.3 pkgsrc-2024Q4:1.3.0.18 pkgsrc-2024Q4-base:1.3 pkgsrc-2024Q3:1.3.0.16 pkgsrc-2024Q3-base:1.3 pkgsrc-2024Q2:1.3.0.14 pkgsrc-2024Q2-base:1.3 pkgsrc-2024Q1:1.3.0.12 pkgsrc-2024Q1-base:1.3 pkgsrc-2023Q4:1.3.0.10 pkgsrc-2023Q4-base:1.3 pkgsrc-2023Q3:1.3.0.8 pkgsrc-2023Q3-base:1.3 pkgsrc-2023Q2:1.3.0.6 pkgsrc-2023Q2-base:1.3 pkgsrc-2023Q1:1.3.0.4 pkgsrc-2023Q1-base:1.3 pkgsrc-2022Q4:1.3.0.2 pkgsrc-2022Q4-base:1.3 pkgsrc-2022Q3:1.2.0.18 pkgsrc-2022Q3-base:1.2 pkgsrc-2022Q2:1.2.0.16 pkgsrc-2022Q2-base:1.2 pkgsrc-2022Q1:1.2.0.14 pkgsrc-2022Q1-base:1.2 pkgsrc-2021Q4:1.2.0.12 pkgsrc-2021Q4-base:1.2 pkgsrc-2021Q3:1.2.0.10 pkgsrc-2021Q3-base:1.2 pkgsrc-2021Q2:1.2.0.8 pkgsrc-2021Q2-base:1.2 pkgsrc-2021Q1:1.2.0.6 pkgsrc-2021Q1-base:1.2 pkgsrc-2020Q4:1.2.0.4 pkgsrc-2020Q4-base:1.2 pkgsrc-2020Q3:1.2.0.2 pkgsrc-2020Q3-base:1.2 pkgsrc-2020Q2:1.1.0.34 pkgsrc-2020Q2-base:1.1 pkgsrc-2020Q1:1.1.0.14 pkgsrc-2020Q1-base:1.1 pkgsrc-2019Q4:1.1.0.36 pkgsrc-2019Q4-base:1.1 pkgsrc-2019Q3:1.1.0.32 pkgsrc-2019Q3-base:1.1 pkgsrc-2019Q2:1.1.0.30 pkgsrc-2019Q2-base:1.1 pkgsrc-2019Q1:1.1.0.28 pkgsrc-2019Q1-base:1.1 pkgsrc-2018Q4:1.1.0.26 pkgsrc-2018Q4-base:1.1 pkgsrc-2018Q3:1.1.0.24 pkgsrc-2018Q3-base:1.1 pkgsrc-2018Q2:1.1.0.22 pkgsrc-2018Q2-base:1.1 pkgsrc-2018Q1:1.1.0.20 pkgsrc-2018Q1-base:1.1 pkgsrc-2017Q4:1.1.0.18 pkgsrc-2017Q4-base:1.1 pkgsrc-2017Q3:1.1.0.16 pkgsrc-2017Q3-base:1.1 pkgsrc-2017Q2:1.1.0.12 pkgsrc-2017Q2-base:1.1 pkgsrc-2017Q1:1.1.0.10 pkgsrc-2017Q1-base:1.1 pkgsrc-2016Q4:1.1.0.8 pkgsrc-2016Q4-base:1.1 pkgsrc-2016Q3:1.1.0.6 pkgsrc-2016Q3-base:1.1 pkgsrc-2016Q2:1.1.0.4 pkgsrc-2016Q2-base:1.1 pkgsrc-2016Q1:1.1.0.2 pkgsrc-2016Q1-base:1.1; locks; strict; comment @# @; 1.3 date 2022.10.29.18.28.06; author nros; state Exp; branches; next 1.2; commitid FRN78WBMJrA8XDZD; 1.2 date 2020.08.09.23.12.13; author joerg; state Exp; branches; next 1.1; commitid kPMBKaZ9zfrGArjC; 1.1 date 2016.03.03.13.28.22; author wiz; state Exp; branches; next ; commitid ouWQZiBNqYc0rcXy; desc @@ 1.3 log @pari: fix work directory referance to gzip tool @ text @$NetBSD: patch-Configure,v 1.2 2020/08/09 23:12:13 joerg Exp $ * Don't refer to gzip and perl in the tools directory --- Configure.orig 2016-02-25 14:12:36.000000000 +0000 +++ Configure @@@@ -39,9 +39,9 @@@@ echo "Configuring pari-$pari_release_ver . ./get_PATH # We might need the following : echo Looking for some tools first ... -_tools_list='gzip cc gcc ld perl zcat' +_tools_list='cc gcc ld perl zcat' pathspace=`echo $PATH | sed -e "s/$dir_sep/ /g" | sed -e 's,\\\\,/,g'` - +echo ..."gzip is $gzip" for file in $_tools_list; do x=`./locate $file '' $pathspace` eval $file=$x @@@@ -53,6 +53,7 @@@@ for file in $_tools_list; do done if test -z "$zcat" -a -n "$gzip"; then zcat="$gzip -dc"; fi +perl=$PERL5 ####################### CONFIGURE - ARCHITECTURE ############################ . ./get_archos # arch, osname config_log="$TOP/config-$arch-$osname$$.log" @@@@ -119,14 +120,14 @@@@ fi . ./get_static # static # For dynamic linking, before and after installing runpath=\"$libdir\" -LDDYN="-lpari" +LDDYN="-Wl,-R$libdir -L$libdir -lpari" # get_modld needs $includedir from get_install, static, and LDDYN . ./get_modld # $_modld_list # Which copy, SHELL ? case "$osname" in os2) ln_s=cp; make_sh=sh;; - *) ln_s="ln -s"; make_sh="/bin/sh";; + *) ln_s="ln -sf"; make_sh="/bin/sh";; esac ####################### CONFIGURE - CLEANUP ################################# rm -f gmon.out # created by Configure -pg @ 1.2 log @Don't leak tools-perl into config file. Bump revision. Avoid LOCALBASE and similar clean-up. @ text @d1 3 a3 1 $NetBSD: patch-Configure,v 1.1 2016/03/03 13:28:22 wiz Exp $ d7 12 @ 1.1 log @Update pari to 2.7.5. Bug numbers refer to the BTS at http://pari.math.u-bordeaux.fr/Bugs/ Done for version 2.7.5 (released 09/11/2015): [last column crossreferences current development release 2.8.0] Fixed 1- forprime engine could skip (fast) sieve in favour of (slow) nextprime [#1711] [F113] 2- 0^[1] -> domain error [#1713] [F114] 3- memory leaks (clones) in ellchangecurve [#1716] [F115] 4- zeta inaccurate around 0 [#1714] [F116] 5- bnrrootnumber did not support the trivial character [0,..,0] [F118] 6- default(log,1) when logfile is write-protected later lead to SEGV [F119] BA 7- 2-adic gamma function: fix accuracy loss [F120] 8- A==A -> 0 for A a t_SER of huge accuracy (so that A-A overflows valuation) [#1734] [F121] XR 9- P=Pol([1,-2,12,-12,-181,-4,-6899,9780,6360,702,-45]); for(i=1,10000,setrand(i);nfdisc(P)) -> crash [#1735] [F122] 10- select(x->x,Vecsmall([1,2,3]),1) -> crash [#1737] [F123] BA 11- [libpari] RgV_to_RgX_reverse did not work if v[1] or v[2] was 0 [F125] 12- bnfinit could fail at low precision [#1736] [F126] 13- Rg_to_ff: incorrect type in zk_to_ff [#1755] [F127] BA 14- nfsubfields could fail [#1758] [F128] 15- rare SEGV in ArtinNumber [#1759] [F129] Done for version 2.7.4 (released 19/06/2015): [last column crossreferences current development release 2.8.0] Fixed 1- divisors([2,1]) -> SEGV [#1664] [F84] 2- acos([Pol(1)]) -> GC bug [#1663] [F85] 3- primes([1,Pol(2)]) -> SEGV [#1668] [F87] 4- buffer overflow after default(format,"f.precision") [F95] 5- qfminim(A, 0, ...) -> stack overflow [#1682] [F97] 6- div_scal_rfrac could create an invalid t_POL [#1651] [F99] 7- polroots(t_POL with leading coeff = 0) -> fp exception [#1690] [F100] 8- \r cannot deal with very long filenames [#1616] [F101] 9- rnfisabelian(nf, non monic t_POL) -> SEGV [#1693] [F102] 10- possibly incorrect result in nfdisc(T,listP) [F104] 11- wrong dim(Ker) returned by ZM_pivot => SEGV in Z-linear algebra routines. E.g. setrand(1);quadclassunit(-612556842419) [#1700] [F105] 12- moebius(factor(18)) -> 1 instead of 0 [#1702] [F106] 13- ispower(-167^10) => domain error [#1703] [F107] 14- ispowerful(factor(0)) != ispowerful(0) [F108] 15- expm1(2*I) => wrong result [F109] 16- gamma(1+a*x+O(x^2)) => error [#1707] [F110] 17- printsep() printed its argument in random format instead of f_RAW [F111] 18- nfdisc(x^10 - 29080*x^5 - 25772600) -> oo loop [#1710] [F112] Added ED 1- mingw64 support [A111] Done for version 2.7.3 (released 18/02/2015): [last column crossreferences current development release 2.8.0] Fixed 1- [from 2.7.2] ??bnrL1 and ??ellL1 did not work anymore 2- thue(f^e*g, ...), e even, (f,g)=1 missed solutions such that f<0 [F22] XR 3- bnrL1(bnrinit(bnfinit(x^2-168),[6,[1,1]],1)) -> bug in ArtinNumber [F55] 4- nfisincl(t_POL, t_POL) could lead to wrong negative results [F58] 5- polresultant(1+x*z^2,1+y*z^4,z) -> GC error [#1614] [F59] BA 6- ellcard over non-prime fields could return wrong results [F60] 7- [libpari] FpX_roots could produce GC errors [#1618] [F61] 8- weber(1+I) was missing its imaginary part [F62] 9- (1+I)*(1+1/2*I) => wrong result (type errors) [#1619] [F63] 10- contfracpnqn([a]) => [1,a;0,1] instead of [a,1;1,0] [F64] 11- primes([2^50, 2^50+200000]) => stack overflow [F65] 12- issquare((x+1/2)^2,&z); z => 1.0*x+0.5 instead of x+1/2 [F66] 13- possibly missing roots in nfroots (when using Trager) [F68] 14- quadray(bnf, ideal) did not work [F69] 15- thue(-14*x^3 + 10*x^2 + 63*x - 5,1) -> "short continued fraction" [F70] 16- thue(29*x^3+130*x^2-35*x-48,1) -> "round error" bug [F71] 17- T=thueinit(10*x^3+6*x^2-41*x+8,1); thue(T,8) => SEGV [#1630] [F72] 18- ellrootno(e,p = 2 or 3) when e not minimal at p => random result [F73] 19- agm(1,2+O(5)) -> SEGV [#1645] [F76] BA 20- [cygwin64] ellap(ellinit([0,0,1,-1,0]),10007) was broken [F77] 21- primes([-5,5]) -> [5] (spurious absolute values) [F78] 22- matqr([;]) -> crash [F79] 23- Fp_rem_mBarrett could return a non-normalized result [F80] p=436^56-35;Mod(271,p)^((p-1)/2) -> p+1 24- plotcopy would corrupt "string" objects (ROt_ST) [F81] BA 25- [GP] default arguments to GP functions could cause corruption [F82] VBr26- [darwin] remove obsolete linker options that cause crashes [#1623] [F83] Done for version 2.7.2 (released 19/09/2014): [last column crossreferences current development release 2.8.0] Fixed 1- gaffsg(0, t_PADIC): wrong valuation [F21] 2- (t_INTMOD with word-sized modulus)^(huge negative power) [#1584] [F24] 3- (gp -p N) or (primelimit=N in gprc_ for N >= 436273290 resulted in an incorrect primetable. N.B. Such commands are now useless: needed primes are produced dynamically anyway. [F25] 4- monomial(exact zero, d, v) returned an invalid t_POL / t_RFRAC [F26] 5- contfracpnqn(v, n) returned partial quotients p[-1]/q[-1] ... p[n-1]/q[n-1], instead of the documented p[0]/q[0] ... p[n]/q[n] [F27] 6- factor((3+4*I)/25) -> factor 2+I had 0 exponent [#1586] [F29] BA 7- iferr() could crash if some component of the t_ERROR were clones. [F31] 8- nffactor() could overflow the stack when default accuracy too low [F32] BA 9- obsolete use of E=[a1,a2,a3,a4,a6] in ellmul crashed [#1589] [F33] 10- incorrect rounding in mulrr/divrr for one-word precision reals [F34] BA 11- multiif did not handle correctly return() in conditions [#1590] [F35] 12- [0..5] -> [0,0,0,0,0] on some architectures [F36] 13- is_gener_Fp could return wrong results [F37] 14- Fq_sqrtn(t_INT,..,&zeta) could return a wrong root of 1 [F38] 15- bnfinit: SEGV due to precision issues [#1592] [F39] 16- zm_zc_mul only worked for square zm matrices [F40] 17- genus2red(0,27*x^5+97*x^4+118*x^3+60*x^2+13*x+1,3) -> bug [#1596] [F41] 18- [gphelp] oo loop when $COLUMNS too small [#1594] [F42] 19- genus2red(x,-x^6-3*x^4-10*x^2-1,3) -> impossible inverse [#1597] [F43] 20- factoru(1) returned a t_MAT instead of the expected "matsmall" [F44] 21- FpM_charpoly wrong in small characteristic [#1602] [F45] 22- when compatible = 3; series() used a random precision [F50] 23- genus2red(0,6*x^6+5*x^4+x^2+1,7) -> impossible inverse [#1597] [F51] 24- isprime() could crash on large input [#1604] [F52] 25- genus2red(x^3+1,1) -> type error [#1597] [F53] 26- gphelp did not handle === correctly [#1603] [F54] 27- FpXY_evaly() wrong when evaluating at 0 [F56] 28- [mingw] gp could crash at start up [#1607] [F57] Done for version 2.7.1 (released 16/05/2014): [last column crossreferences current development release 2.8.0] Fixed 1- make install fails on OS/X: ln -s libpari.dylib libpari.dylib fails [F1] 2- Q_pvalrem(t_FRAC) => wrong result [F2] 3- [] == 0 but []~ != 0 (now []~ == 0 as well) [#1560] [F3] BA 4- test-kernel did not work when using --mt=pthread [F4] BA 5- ellheegner was using too much memory in some case [F5] BA 6- ellap can overflow on 32-bit machine [#1558] (minimal fix) [F6] 7- nfhilbert(K,x,y, P above 2) could give wrong results [#1561] [F7] 8- gcd(1/2, 1+I*1.) -> SEGV [#1563] [F10] 9- mathnf(t_VEC) could corrupt input (change sign) [F11] 10- [libpari] RgM_transmul did not work [F12] 11- [libpari] Fq_issquare didn't support T=NULL [F13] 12- [libpari] nfpow_u didn't handle non-integral rational numbers [F14] 13- eint1(0) -> stack overflow [#1568] [F15] 14- nfroots(, t_POL with leading coeff -1) could miss solutions [F19] 15- precprime(1) -> invalid t_INT [#1576] [F20] @ text @d1 1 a1 1 $NetBSD$ d3 1 a3 1 --- Configure.orig 2015-06-02 14:03:57.000000000 +0000 d5 9 a13 1 @@@@ -119,14 +119,14 @@@@ fi @