=================================================================== RCS file: /home/cvs/OpenXM_contrib2/asir2000/lib/sp,v retrieving revision 1.13 retrieving revision 1.17 diff -u -p -r1.13 -r1.17 --- OpenXM_contrib2/asir2000/lib/sp 2004/04/13 07:43:20 1.13 +++ OpenXM_contrib2/asir2000/lib/sp 2016/02/04 04:17:21 1.17 @@ -45,7 +45,7 @@ * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. * - * $OpenXM: OpenXM_contrib2/asir2000/lib/sp,v 1.12 2004/01/07 08:23:11 noro Exp $ + * $OpenXM: OpenXM_contrib2/asir2000/lib/sp,v 1.16 2010/07/14 04:48:14 noro Exp $ */ /* sp : functions related to algebraic number fields @@ -60,7 +60,7 @@ #include "defs.h" extern ASCENT,GCDTIME,UFTIME,RESTIME,SQTIME,PRINT$ -extern Ord$ +extern SpOrd$ extern USE_PARI_FACTOR$ /* gen_sp can handle non-monic poly */ @@ -211,6 +211,10 @@ def flatmf(L) { def af(P,AL) { RESTIME=UFTIME=GCDTIME=SQTIME=0; + V = var(P); + LC = coef(P,deg(P,V),V); + if ( ntype(LC) != 1 ) + P = simpalg(1/LC*P); S = reverse(asq(P)); for ( L = []; S != []; S = cdr(S) ) { FM = car(S); F = FM[0]; M = FM[1]; @@ -227,6 +231,10 @@ def af_sp(P,AL,HINT) { if ( !P || type(P) == NUM ) return [P]; + V = var(P); + LC = coef(P,deg(P,V),V); + if ( ntype(LC) != 1 ) + P = simpalg(1/LC*P); P1 = simpcoef(simpalg(P)); return af_spmain(P1,AL,1,HINT,P1,[]); } @@ -659,6 +667,15 @@ def ufctrhint2(P,HINT,PP,AL) return [[P,1]]; if ( AL == [] ) return ufctrhint(P,HINT); + + /* if P != norm(PP) then call the generic ufctrhint() */ + for ( T = AL, E = 1; T != []; T = cdr(T) ) { + D = defpoly(car(T)); E *= deg(D,var(D)); + } + if ( E*deg(PP,var(PP)) != deg(P,var(P)) ) + return ufctrhint(P,HINT); + + /* P = norm(PP) */ L = resfctr(algptorat(PP),map(defpoly,AL),map(algtorat,AL),P); for ( T = reverse(L[1]), DL = []; T != []; T = cdr(T) ) DL = cons(deg(car(car(T)),a_),DL); @@ -837,7 +854,7 @@ def cr_gcda(P1,P2) break; if ( J != length(DL) ) continue; - Ord = 2; NOSUGAR = 1; + SpOrd = 2; NOSUGAR = 1; T = ag_mod(G1 % MOD,G2 % MOD,ML,VL,MOD); if ( dp_gr_print() ) print("."); @@ -1051,7 +1068,7 @@ def ag_mod(F1,F2,D,VL,MOD) VL = cons(V,VL); B = append([F1,F2],D); N = length(VL); while ( 1 ) { FLAGS = dp_gr_flags(); dp_gr_flags(["Reverse",1,"NoSugar",1]); - G = dp_gr_mod_main(B,VL,0,MOD,Ord); + G = dp_gr_mod_main(B,VL,0,MOD,SpOrd); dp_gr_flags(FLAGS); if ( length(G) == 1 ) return 1; @@ -1285,9 +1302,9 @@ def ag_mod_single6(F1,F2,D,MOD) def inverse_by_gr_mod(C,D,MOD) { - Ord = 2; + SpOrd = 2; dp_gr_flags(["NoSugar",1]); - G = dp_gr_mod_main(cons(x*C-1,D),cons(x,vars(D)),0,MOD,Ord); + G = dp_gr_mod_main(cons(x*C-1,D),cons(x,vars(D)),0,MOD,SpOrd); dp_gr_flags(["NoSugar",0]); if ( length(G) == 1 ) return 1; @@ -1375,7 +1392,7 @@ def resfctr_mod(F,L,M) C = res(var(MP),B,MP) % M; R = cons(flatten(cdr(modfctr(C,M))),R); } - return R; + return reverse(R); } def flatten(L)