/*
F=y^2-x*(x-1)*(x-t)$
F=y^2-(x^3+t^7)$
F=y^2-(x^3+t*(t^10+1))$
F=y^2-(x^3+t^11+1)$
F=(y^2+72*x*y-10*t^2*y)-(x^3+60*x^2*t-15*x*t^3+t^5)$
*/
/* 6A1fibre2a.txt */
A1=y^2-(x^3+(2*t^2+18)*x^2+(t^4-82*t^2+81)*x)$
/* A2try3d.txt */
A2=y^2-(x^3-x+t^2)$
/* A8fibre2.txt */
A8=y^2-(x^3+t^2*x^2-8*t*x+16)$
/* D8fibre1.txt */
D8=y^2-(x^3-3*(t^2-1)*x-2*t^3+3*t)$
/* E7A1fibre1.txt */
E7=y^2-(x^3+t*x)$
/* F5ss1new2.txt */
F5=y^2-(x^3+t^11-t)$
/* F6ss1new2.txt */
F6=y^2-(x^3+t^12-1)$
import("gr")$
module mwl$
localf generate_coef_ideal$
localf pdecomp,pdecomp_main,ideal_intersection,ldim$
localf pdecomp_ff,pdecomp_ff_main,ideal_intersection_ff,ldim_ff$
localf ideal_elimination,gbcheck,f4$
static GBCheck,F4$
#define Tmp ttttt
def gbcheck(A)
{
if ( A ) GBCheck = 1;
else GBCheck = -1;
}
def f4(A)
{
if ( A ) F4 = 1;
else F4 = 0;
}
def generate_coef_ideal(F)
{
A1 = coef(coef(F,1,x),1,y);
A2 = -coef(coef(F,2,x),0,y);
A3 = coef(coef(F,0,x),1,y);
A4 = -coef(coef(F,1,x),0,y);
A6 = -coef(coef(F,0,x),0,y);
D = vector(5,
[deg(A1,t)/1,deg(A2,t)/2,deg(A3,t)/3,deg(A4,t)/4,deg(A6,t)/6]);
D = map(ceil,D);
for ( K = D[0], I = 1; I < 5; I++ ) if ( K < D[I] ) K = D[I];
F1 = (y^2+A1*x*y+A3*y)-(x^3+A2*x^2+A4*x+A6);
VX = [];
for ( I = 0, X = 0; I <= 2*K; I++ ) {
V = strtov("a"+rtostr(I));
X += V*t^I;
VX = cons(V,VX);
}
VY = [];
for ( I = 0, Y = 0; I <= 3*K; I++ ) {
V = strtov("b"+rtostr(I));
Y += V*t^I;
VY = cons(V,VY);
}
S = subst(F,x,X,y,Y);
N = deg(S,t);
for ( R = [], I = 0; I <= N; I++ ) R = cons(coef(S,I,t),R);
return [R,append((VY),(VX))];
}
def pdecomp(B,V) {
if ( F4 ) G0 = nd_f4_trace(B,V,1,GBCheck,0);
else G0 = nd_gr_trace(B,V,1,GBCheck,0);
G=[G0];
for ( T = reverse(V); T !=[]; T = cdr(T) ) {
G1 = [];
X = car(T);
for ( S = G; S != []; S = cdr(S) ) {
GX = pdecomp_main(car(S),V,0,X);
G1 = append(GX,G1);
}
G = G1;
}
return [G,G0];
}
def pdecomp_ff(B,V,Mod) {
if ( F4 ) G0 = nd_f4(B,V,Mod,0);
else G0 = nd_gr(B,V,Mod,0);
G=[G0];
for ( T = reverse(V); T !=[]; T = cdr(T) ) {
G1 = [];
X = car(T);
for ( S = G; S != []; S = cdr(S) ) {
GX = pdecomp_ff_main(car(S),V,0,X,Mod);
G1 = append(GX,G1);
}
G = G1;
}
return [G,G0];
}
def pdecomp_main(G,V,Ord,X) {
M = minipoly(G,V,Ord,X,Tmp);
M = subst(M,Tmp,X);
FM = cdr(fctr(M));
if ( length(FM) == 1 ) return [G];
G2 = [];
for ( T = FM; T != []; T = cdr(T) ) {
F1 = car(T);
for ( I = 0, N = F1[1], NF=1; I < N; I++ )
NF = p_nf(NF*F1[0],G,V,Ord);
if ( F4 ) G1 = nd_f4_trace(cons(NF,G),V,1,GBCheck,Ord);
else G1 = nd_gr_trace(cons(NF,G),V,1,GBCheck,Ord);
G2 =cons(G1,G2);
}
return G2;
}
def pdecomp_ff_main(G,V,Ord,X,Mod) {
M = minipolym(G,V,Ord,X,Tmp,Mod);
M = subst(M,Tmp,X);
FM = cdr(modfctr(M,Mod));
if ( length(FM) == 1 ) return [G];
G2 = [];
for ( T = FM; T != []; T = cdr(T) ) {
F1 = car(T);
for ( I = 0, N = F1[1], NF=1; I < N; I++ )
NF = p_nf_mod(NF*F1[0],G,V,Ord,Mod);
if ( F4 ) G1 = nd_f4(cons(NF,G),V,Mod,Ord);
else G1 = nd_gr(cons(NF,G),V,Mod,Ord);
G2 =cons(G1,G2);
}
return G2;
}
def ideal_intersection(L,V,Ord)
{
N = length(L);
if ( N == 1 ) return L[0];
N2 = idiv(N,2);
for ( I = 0, L1 = []; I < N2; I++, L = cdr(L) ) L1 = cons(car(L),L1);
L1 = reverse(L1);
J = ideal_intersection(L,V,Ord);
J1 = ideal_intersection(L1,V,Ord);
R = append(vtol(ltov(J)*Tmp),vtol(ltov(J1)*(1-Tmp)));
if ( F4 ) G = nd_f4_trace(R,cons(Tmp,V),1,GBCheck,[[0,1],[Ord,length(V)]]);
else G = nd_gr_trace(R,cons(Tmp,V),1,GBCheck,[[0,1],[Ord,length(V)]]);
G = ideal_elimination(G,V);
return G;
}
def ideal_intersection_ff(L,V,Ord,Mod)
{
N = length(L);
if ( N == 1 ) return L[0];
N2 = idiv(N,2);
for ( I = 0, L1 = []; I < N2; I++, L = cdr(L) ) L1 = cons(car(L),L1);
L1 = reverse(L1);
J = ideal_intersection_ff(L,V,Ord,Mod);
J1 = ideal_intersection_ff(L1,V,Ord,Mod);
R = append(vtol(ltov(J)*Tmp),vtol(ltov(J1)*(1-Tmp)));
if ( F4 ) G = nd_f4(R,cons(Tmp,V),Mod,[[0,1],[Ord,length(V)]]);
else G = nd_gr(R,cons(Tmp,V),Mod,[[0,1],[Ord,length(V)]]);
G = ideal_elimination(G,V);
return G;
}
def ideal_elimination(G,V)
{
ANS=[];
NG=length(G);
for (I=NG-1;I>=0;I--) {
VSet=vars(G[I]);
DIFF=setminus(VSet,V);
if ( DIFF ==[] ) ANS=cons(G[I],ANS);
}
return ANS;
}
def ldim(G,V)
{
G = nd_gr_trace(G,V,1,1,0);
if ( ! zero_dim(G,V,0) ) error("<G> is not zero-dimensional");
return length(dp_mbase(map(dp_ptod,G,V)));
}
def ldim_ff(G,V,Mod)
{
G = nd_gr(G,V,Mod,0);
if ( ! zero_dim(G,V,0) ) error("<G> is not zero-dimensional");
return length(dp_mbase(map(dp_ptod,G,V)));
}
endmodule$
end$
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