| version 1.11, 2010/08/20 04:21:18 |
version 1.12, 2014/09/05 11:55:19 |
|
|
| /* $OpenXM: OpenXM/src/asir-contrib/testing/noro/pd.rr,v 1.10 2010/06/19 08:32:37 noro Exp $ */ |
/* $OpenXM: OpenXM/src/asir-contrib/testing/noro/pd.rr,v 1.11 2010/08/20 04:21:18 noro Exp $ */ |
| import("gr")$ |
import("gr")$ |
| module noro_pd$ |
module noro_pd$ |
| static GBCheck,F4,Procs,SatHomo$ |
static GBCheck,F4,Procs,SatHomo$ |
| Line 276 def find_separating_ideal1(C,G,Q,Rad,V,Ord) { |
|
| Line 276 def find_separating_ideal1(C,G,Q,Rad,V,Ord) { |
|
| /* check whether (Q cap (G+S)) = G */ |
/* check whether (Q cap (G+S)) = G */ |
| if ( gen_gb_comp(Int,G,Mod) ) return reverse(S); |
if ( gen_gb_comp(Int,G,Mod) ) return reverse(S); |
| |
|
| /* or qsort(C,comp_tdeg) */ |
/* or qsort(C,noro_pd.comp_tdeg) */ |
| C = qsort(S,comp_tdeg); |
C = qsort(S,noro_pd.comp_tdeg); |
| |
|
| Tmp = ttttt; TV = cons(Tmp,V); Ord1 = [[0,1],[Ord,length(V)]]; |
Tmp = ttttt; TV = cons(Tmp,V); Ord1 = [[0,1],[Ord,length(V)]]; |
| Int0 = incremental_gb(append(vtol(ltov(G)*Tmp),vtol(ltov(Q)*(1-Tmp))), |
Int0 = incremental_gb(append(vtol(ltov(G)*Tmp),vtol(ltov(Q)*(1-Tmp))), |
| Line 320 def find_separating_ideal2(C,G,Q,Rad,V,Ord) { |
|
| Line 320 def find_separating_ideal2(C,G,Q,Rad,V,Ord) { |
|
| /* check whether (Q cap (G+S)) = G */ |
/* check whether (Q cap (G+S)) = G */ |
| if ( gen_gb_comp(Int,G,Mod) ) return reverse(S); |
if ( gen_gb_comp(Int,G,Mod) ) return reverse(S); |
| |
|
| /* or qsort(S,comp_tdeg) */ |
/* or qsort(S,noro_pd.comp_tdeg) */ |
| C = qsort(C,comp_tdeg); |
C = qsort(C,noro_pd.comp_tdeg); |
| Dp = dp_gr_print(); dp_gr_print(0); |
Dp = dp_gr_print(); dp_gr_print(0); |
| for ( T = C, S = []; T != []; T = cdr(T) ) { |
for ( T = C, S = []; T != []; T = cdr(T) ) { |
| if ( !gen_nf(car(T),Rad,V,Ord,Mod) ) continue; |
if ( !gen_nf(car(T),Rad,V,Ord,Mod) ) continue; |
| Line 338 def find_separating_ideal2(C,G,Q,Rad,V,Ord) { |
|
| Line 338 def find_separating_ideal2(C,G,Q,Rad,V,Ord) { |
|
| S = cons(Ui,S); |
S = cons(Ui,S); |
| } |
} |
| print(""); |
print(""); |
| S = qsort(S,comp_tdeg); |
S = qsort(S,noro_pd.comp_tdeg); |
| End = Len = length(S); |
End = Len = length(S); |
| |
|
| Tmp = ttttt; TV = cons(Tmp,V); Ord1 = [[0,1],[Ord,length(V)]]; |
Tmp = ttttt; TV = cons(Tmp,V); Ord1 = [[0,1],[Ord,length(V)]]; |
| Line 436 def pseudo_dec(G,L,V,Ord) |
|
| Line 436 def pseudo_dec(G,L,V,Ord) |
|
| for ( I = 0; I < N; I++ ) { |
for ( I = 0; I < N; I++ ) { |
| LI = setminus(L0,[L0[I]]); |
LI = setminus(L0,[L0[I]]); |
| PI = ideal_list_intersection(LI,V,Ord|mod=Mod); |
PI = ideal_list_intersection(LI,V,Ord|mod=Mod); |
| PI = qsort(PI,comp_tdeg); |
PI = qsort(PI,noro_pd.comp_tdeg); |
| for ( T = PI; T != []; T = cdr(T) ) |
for ( T = PI; T != []; T = cdr(T) ) |
| if ( gen_nf(car(T),L0[I],V,Ord,Mod) ) break; |
if ( gen_nf(car(T),L0[I],V,Ord,Mod) ) break; |
| if ( T == [] ) error("separator : cannot happen"); |
if ( T == [] ) error("separator : cannot happen"); |
| Line 1217 def ideal_product(A,B,V) |
|
| Line 1217 def ideal_product(A,B,V) |
|
| for ( T = PA; T != []; T = cdr(T) ) |
for ( T = PA; T != []; T = cdr(T) ) |
| for ( S = PB; S != []; S = cdr(S) ) |
for ( S = PB; S != []; S = cdr(S) ) |
| R = cons([car(T)[0]*car(S)[0],car(T)[1]+car(S)[1]],R); |
R = cons([car(T)[0]*car(S)[0],car(T)[1]+car(S)[1]],R); |
| T = qsort(R,comp_by_second); |
T = qsort(R,noro_pd.comp_by_second); |
| T = map(first_element,T); |
T = map(first_element,T); |
| Len = length(A)>length(B)?length(A):length(B); |
Len = length(A)>length(B)?length(A):length(B); |
| Len *= 2; |
Len *= 2; |
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