OpenXM_contrib2/asir2000/lib/bfct - diff

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Diff for /OpenXM_contrib2/asir2000/lib/bfct between version 1.3 and 1.4

version 1.3, 2000/08/22 05:04:20

version 1.4, 2000/12/08 08:26:09

Line 45

* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE,

* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE.

* $OpenXM: OpenXM_contrib2/asir2000/lib/bfct,v 1.2 2000/08/21 08:31:40 noro Exp $

* $OpenXM: OpenXM_contrib2/asir2000/lib/bfct,v 1.3 2000/08/22 05:04:20 noro Exp $

/* requires 'primdec' */

Line 63 def ann(F)

for ( I = 0; I < N; I++ ) {

B = cons(DV[I]+y1*diff(F,V[I])*dt,B);

}

ctrl("do_weyl",1);

dp_nelim(2);

G0 = dp_gr_main(B,append(W,DW),0,0,6);

G0 = dp_weyl_gr_main(B,append(W,DW),0,0,6);

G1 = [];

for ( T = G0; T != []; T = cdr(T) ) {

E = car(T); VL = vars(E);

Line 75 def ann(F)

Line 74 def ann(F)

G2 = map(subst,G1,dt,1);

G3 = map(b_subst,G2,t);

G4 = map(subst,G3,t,-1-s);

ctrl("do_weyl",0);

return G4;

}

Line 85 def bfct(F)

Line 83 def bfct(F)

{

G4 = ann(F);

ctrl("do_weyl",1);

V = vars(F);

N = length(V);

for ( I = N-1, DV = []; I >= 0; I-- )

Line 111 def bfct(F)

Line 108 def bfct(F)

M[I+2][I] = 1;

#endif

V1 = cons(s,V); DV1 = cons(ds,DV);

G5 = dp_gr_main(cons(F,G4),append(V1,DV1),0,0,M);

G5 = dp_weyl_gr_main(cons(F,G4),append(V1,DV1),0,0,M);

for ( T = G5, G6 = []; T != []; T = cdr(T) ) {

E = car(T);

if ( intersection(vars(E),DV1) == [] )

G6 = cons(E,G6);

}

ctrl("do_weyl",0);

G6_0 = remove_zero(map(z_subst,G6,V));

F0 = flatmf(cdr(fctr(dp_gr_main(G6_0,[s],0,0,0)[0])));

for ( T = F0, BF = []; T != []; T = cdr(T) ) {

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