version 1.3, 2000/12/27 08:09:27 |
version 1.5, 2000/12/28 00:08:14 |
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/* $OpenXM: OpenXM/src/k097/lib/restriction/demo.k,v 1.2 2000/12/15 02:44:32 takayama Exp $ */ |
/* $OpenXM: OpenXM/src/k097/lib/restriction/demo.k,v 1.4 2000/12/27 10:16:13 takayama Exp $ */ |
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load["restriction.k"];; |
load["restriction.k"];; |
load("../ox/ox.k");; |
load("../ox/ox.k");; |
Line 8 def demoSendAsirCommand(a) { |
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Line 8 def demoSendAsirCommand(a) { |
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a.executeString(" def myann(F) { B=ann(eval_str(F)); print(B); return(map(dp_ptod,B,[hoge,x,y,z,s,hh,ee,dx,dy,dz,ds,dhh])); }; "); |
a.executeString(" def myann(F) { B=ann(eval_str(F)); print(B); return(map(dp_ptod,B,[hoge,x,y,z,s,hh,ee,dx,dy,dz,ds,dhh])); }; "); |
a.executeString(" def myann0(F) { B=ann0(eval_str(F)); print(B); return(map(dp_ptod,B[1],[hoge,x,y,z,s,hh,ee,dx,dy,dz,ds,dhh])); }; "); |
a.executeString(" def myann0(F) { B=ann0(eval_str(F)); print(B); return(map(dp_ptod,B[1],[hoge,x,y,z,s,hh,ee,dx,dy,dz,ds,dhh])); }; "); |
a.executeString(" def mybfct(F) { return(rtostr(bfct(eval_str(F)))); }; "); |
a.executeString(" def mybfct(F) { return(rtostr(bfct(eval_str(F)))); }; "); |
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a.executeString(" def mygeneric_bfct(F,VV,DD,WW) { print([F,VV,DD,WW]); return(generic_bfct(F,VV,DD,WW));}; "); |
} |
} |
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as = startAsir(); |
as = startAsir(); |
Line 32 def asirAnnfsXYZ(a,f) { |
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Line 33 def asirAnnfsXYZ(a,f) { |
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return(b); |
return(b); |
} |
} |
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def asir_rpc_old(argv_rpc_asir) { |
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sm1(" oxasir.ccc [ ] eq { |
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(Starting ox_asir server.) message |
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ox_asirConnectMethod |
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} { } ifelse "); |
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sm1(" oxasir.ccc argv_rpc_asir asir /FunctionValue set "); |
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} |
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def asir_define_own_functions() { |
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asir_rpc_old(["igcd",2,3]); |
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sm1(" oxasir.ccc (def mygeneric_bfct(Id,V,DV,W) { |
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return( rtostr(generic_bfct(Id,V,DV,W))); |
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}) oxsubmit "); |
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} |
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def asir_generic_bfct(ii,vv,dd,ww) { |
def asir_generic_bfct(a,ii,vv,dd,ww) { |
local ans; |
local ans; |
ans = asir_rpc_old(["mygeneric_bfct",ii,vv,dd,ww]); |
ans = a.rpc_str("mygeneric_bfct",[ii,vv,dd,ww]); |
return(ans); |
return(ans); |
} |
} |
/* asir_generic_bfct([Dx^2+Dy^2-1,Dx*Dy-4],[x,y],[Dx,Dy],[1,1]): */ |
/* a=startAsir(); |
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asir_generic_bfct(a,[Dx^2+Dy^2-1,Dx*Dy-4],[x,y],[Dx,Dy],[1,1]): */ |
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/* usage: misc/tmp/complex-ja.texi */ |
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def changeRing(f) { |
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local r; |
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r = GetRing(f); |
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if (Tag(r) == 14) { |
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SetRing(r); |
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return(true); |
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}else{ |
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return(false); |
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} |
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} |
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def asir_BfRoots2(G) { |
def asir_BfRoots2(G) { |
local bb,ans,ss; |
local bb,ans,ss; |
sm1(" G flatten {dehomogenize} map /G set "); |
sm1(" G flatten {dehomogenize} map /G set "); |
asir_define_own_functions(); |
changeRing(G); |
ss = asir_generic_bfct(G,[x,y],[Dx,Dy],[1,1]); |
ss = asir_generic_bfct(asssssir,G,[x,y],[Dx,Dy],[1,1]); |
bb = [ss]; |
bb = [ss]; |
sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set "); |
sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set "); |
return([ans, bb]); |
return([ans, bb]); |
Line 65 def asir_BfRoots2(G) { |
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Line 66 def asir_BfRoots2(G) { |
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def asir_BfRoots3(G) { |
def asir_BfRoots3(G) { |
local bb,ans,ss; |
local bb,ans,ss; |
sm1(" G flatten {dehomogenize} map /G set "); |
sm1(" G flatten {dehomogenize} map /G set "); |
asir_define_own_functions(); |
changeRing(G); |
ss = asir_generic_bfct(G,[x,y,z],[Dx,Dy,Dz],[1,1,1]); |
ss = asir_generic_bfct(asssssir,G,[x,y,z],[Dx,Dy,Dz],[1,1,1]); |
bb = [ss]; |
bb = [ss]; |
sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set "); |
sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set "); |
return([ans, bb]); |
return([ans, bb]); |
Line 157 def DeRham3WithAsir(f) { |
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Line 158 def DeRham3WithAsir(f) { |
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Res = Sminimal(pp); |
Res = Sminimal(pp); |
Res0 = Res[0]; |
Res0 = Res[0]; |
Print("Step2: (-1,1)-minimal resolution (Res0) "); sm1_pmat(Res0); |
Print("Step2: (-1,1)-minimal resolution (Res0) "); sm1_pmat(Res0); |
/* R = BfRoots1(Res0[0],"x,y,z"); */ |
/* R = BfRoots1(Res0[0],"x,y,z"); */ |
R = asir_BfRoots3(Res0[0]); |
R = asir_BfRoots3(Res0[0]); |
Println("Step3: computing the cohomology of the truncated complex."); |
Println("Step3: computing the cohomology of the truncated complex."); |
Print("Roots and b-function are "); Println(R); |
Print("Roots and b-function are "); Println(R); |