version 1.1, 2000/01/21 10:39:44 |
version 1.3, 2000/01/24 10:44:34 |
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/* $OpenXM$ */ |
/* $OpenXM: OpenXM/src/asir-contrib/packages/sample/contiguity,v 1.2 2000/01/22 11:20:00 takayama Exp $ */ |
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/* contiguity */ |
/* contiguity */ |
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Line 23 def contiguity_eliminated(G) { |
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Line 23 def contiguity_eliminated(G) { |
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def contiguity_f4_a_bf() { |
def contiguity_f4_a_bf() { |
V = [x,y,a,b,c,cp]; |
V = [x,y,a,b,c,cp]; |
W = [[dx,1,dy,1,x,1,y,1]]; |
W = [[dx,1,dy,1,x,1,y,1]]; |
G = sm1_gb([[dx*(x*dx+c)-(x*dx+y*dy+a)*(x*dx+y*dy+b), |
F = [x*dx+y*dy+a, |
dy*(y*dy+cp)-(x*dx+y*dy+a)*(x*dx+y*dy+b), |
sm1_mul(dx,x*dx+c-1,V)-sm1_mul(x*dx+y*dy+a,x*dx+y*dy+b,V), |
x*dx+y*dy+a],V,W]); |
sm1_mul(dy,y*dy+cp-1,V)-sm1_mul(x*dx+y*dy+a,x*dx+y*dy+b,V)]; |
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G = sm1_gb([F,V,W]); |
G = G[0]; |
G = G[0]; |
B = contiguity_eliminated(G); |
B = contiguity_eliminated(G); |
print("b-function for HG is ",0); |
print("b-function for HG is ",0); |
Line 37 def contiguity_f4_a_bf() { |
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Line 37 def contiguity_f4_a_bf() { |
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def contiguity_f4_a() { |
def contiguity_f4_a() { |
V = [x,y,a,b,c,cp]; |
V = [x,y,a,b,c,cp]; |
W = [[dx,1,dy,1,x,1,y,1]]; |
W = [[dx,1,dy,1,x,1,y,1]]; |
F = [x*dx+y*dy+a, |
F = [x*dx+y*dy+a, |
dx*(x*dx+c)-(x*dx+y*dy+a)*(x*dx+y*dy+b), |
sm1_mul(dx,x*dx+c-1,V)-sm1_mul(x*dx+y*dy+a,x*dx+y*dy+b,V), |
dy*(y*dy+cp)-(x*dx+y*dy+a)*(x*dx+y*dy+b)]; |
sm1_mul(dy,y*dy+cp-1,V)-sm1_mul(x*dx+y*dy+a,x*dx+y*dy+b,V)]; |
G = sm1_syz([F,V,W]); |
G = sm1_syz([F,V,W]); |
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Gb = map(first,G[1][0]); |
Gb = map(first,G[1][0]); |
Line 48 def contiguity_f4_a() { |
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Line 48 def contiguity_f4_a() { |
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for (I=0; I<length(Gb); I++) { |
for (I=0; I<length(Gb); I++) { |
if (contiguity_param_only(Gb[I]) != 0) { |
if (contiguity_param_only(Gb[I]) != 0) { |
Ans = append(Ans,[ [Gb[I],C[I][0]] ]); |
Ans = append(Ans,[ [Gb[I],C[I][0]] ]); |
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/* print(sm1_mul(C[I],F,[x,y,a,b,c,cp])); */ /* check ! */ |
} |
} |
} |
} |
return(Ans); |
return(Ans); |