| version 1.8, 2000/07/31 01:21:41 |
version 1.11, 2000/08/01 06:26:10 |
|
|
| /* $OpenXM: OpenXM/src/k097/lib/minimal/minimal-test.k,v 1.7 2000/07/30 02:26:25 takayama Exp $ */ |
/* $OpenXM: OpenXM/src/k097/lib/minimal/minimal-test.k,v 1.10 2000/08/01 05:16:02 takayama Exp $ */ |
| load["minimal.k"]; |
load["minimal.k"]; |
| def sm1_resol1(p) { |
def sm1_resol1(p) { |
| sm1(" p resol1 /FunctionValue set "); |
sm1(" p resol1 /FunctionValue set "); |
| Line 79 def test_ann3(f) { |
|
| Line 79 def test_ann3(f) { |
|
| ans2 = ReParse(ans2); |
ans2 = ReParse(ans2); |
| r= IsExact_h(ans2,[x,y,z]); |
r= IsExact_h(ans2,[x,y,z]); |
| Println(r); |
Println(r); |
| return([r,ans2]); |
return([r,ans2,a]); |
| } |
} |
| def test11a() { |
def test11a() { |
| local a,v,ww2,ans2; |
local a,v,ww2,ans2; |
|
|
| return(Sminimal(ans3)); |
return(Sminimal(ans3)); |
| } |
} |
| |
|
| |
|
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|
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def test17() { |
| |
a=Sannfs3("x^3-y^2*z^2"); |
| |
b=a[0]; w = ["x",-1,"y",-1,"z",-1,"Dx",1,"Dy",1,"Dz",1]; |
| |
Sweyl("x,y,z",[w]); b = Reparse(b); |
| |
c=Sinit_w(b,w); |
| |
Println("Resolution (b)----"); |
| |
sm1_pmat(b); |
| |
Println("Initial (c)----"); |
| |
sm1_pmat(c); |
| |
Println(IsExact_h(c,"x,y,z")); |
| |
} |
| |
|
| |
def test_if_v_strict(resmat,w,v) { |
| |
local b,c,g,cc; |
| |
Sweyl(v,[w]); b = Reparse(resmat); |
| |
c=Sinit_w(b,w); |
| |
Println("Resolution (b)----"); |
| |
sm1_pmat(b); |
| |
Println("Initial (c)----"); |
| |
sm1_pmat(c); cc=c; |
| |
Println("Exactness of the resolution ---"); |
| |
Println(IsExact_h(b,v)); /* IsExact_h breaks the variable c. |
| |
THIS BUG SHOULD BE FIXED. */ |
| |
Println("Why is the initial c rewritten by b? (buggy) ");sm1_pmat(c[0]); |
| |
Println("Exactness of the initial complex.---"); |
| |
Println(IsExact_h(cc,v)); |
| |
g = Sinvolutive(b[0],w); |
| |
/* Println("Involutive basis ---"); |
| |
sm1_pmat(g); |
| |
Println(Sinvolutive(cc[0],w)); |
| |
sm1(" /gb.verbose 1 def "); */ |
| |
Println("Is same ideal?"); |
| |
Println(IsSameIdeal_h(g,cc[0],v)); |
| |
} |
| |
def test17b() { |
| |
a=Sannfs3("x^3-y^2*z^2"); |
| |
b=a[0]; w = ["x",-1,"y",-1,"z",-1,"Dx",1,"Dy",1,"Dz",1]; |
| |
test_if_v_strict(b,w,"x,y,z"); |
| |
return(a); |
| |
} |
| |
|
| |
def test18() { |
| |
a=Sannfs2("x^3-y^2"); |
| |
b=a[0]; w = ["x",-1,"y",-1,"Dx",1,"Dy",1]; |
| |
test_if_v_strict(b,w,"x,y"); |
| |
return(a); |
| |
} |
| |
|
| |
def test19() { |
| |
Println("test19 try to construct a minimal free resolution and check if it is v-strict."); |
| |
Println("of a GKZ system [[1,2,3]] by -1,1"); |
| |
ww2 = ["Dx1",1,"Dx2",1,"Dx3",1,"x1",-1,"x2",-1,"x3",-1]; |
| |
ans2 = GKZ([[1,2,3]],[0]); |
| |
Sweyl("x1,x2,x3",[ww2]); |
| |
ans2 = ReParse(ans2[0]); |
| |
a = Sminimal(ans2); |
| |
Println("Minimal Resolution is "); sm1_pmat(a[0]); |
| |
b = a[0]; |
| |
test_if_v_strict(b,ww2,"x1,x2,x3"); |
| |
return(a); |
| |
} |
| |
|
| |
def test20() { |
| |
w = ["Dx1",1,"Dx2",1,"Dx3",1,"Dx4",1,"x1",-1,"x2",-1,"x3",-1,"x4",-1]; |
| |
ans2 = GKZ([[1,1,1,1],[0,1,3,4]],[0,0]); |
| |
Sweyl("x1,x2,x3,x4",[w]); |
| |
ans2 = ReParse(ans2[0]); |
| |
a = Sminimal(ans2); |
| |
Println("Minimal Resolution is "); sm1_pmat(a[0]); |
| |
b = a[0]; |
| |
/* test_if_v_strict(b,w,"x1,x2,x3,x4"); */ |
| |
return(a); |
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} |
| |
def test20b() { |
| |
w = ["Dx1",1,"Dx2",1,"Dx3",1,"Dx4",1,"x1",-1,"x2",-1,"x3",-1,"x4",-1]; |
| |
ans2 = GKZ([[1,1,1,1],[0,1,3,4]],[1,2]); |
| |
Sweyl("x1,x2,x3,x4",[w]); |
| |
ans2 = ReParse(ans2[0]); |
| |
a = Sminimal(ans2); |
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Println("Minimal Resolution is "); sm1_pmat(a[0]); |
| |
b = a[0]; |
| |
/* test_if_v_strict(b,w,"x1,x2,x3,x4"); */ |
| |
return(a); |
| |
} |
| |
|
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