OpenXM/src/k097/lib/restriction/demo.k - diff

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Diff for /OpenXM/src/k097/lib/restriction/demo.k between version 1.5 and 1.7

version 1.5, 2000/12/28 00:08:14

version 1.7, 2001/01/26 12:24:57

Line 1

/* $OpenXM: OpenXM/src/k097/lib/restriction/demo.k,v 1.4 2000/12/27 10:16:13 takayama Exp $ */

/* $OpenXM: OpenXM/src/k097/lib/restriction/demo.k,v 1.6 2001/01/05 11:14:29 takayama Exp $ */

load["restriction.k"];;

load("../ox/ox.k");;

Line 11 def demoSendAsirCommand(a) {

a.executeString(" def mygeneric_bfct(F,VV,DD,WW) { print([F,VV,DD,WW]); return(generic_bfct(F,VV,DD,WW));}; ");

}

as = startAsir();

if (Boundp("NoX")) {

as = Asir.generate(false);

}else{

as = Asir.generate();

}

asssssir = as;

demoSendAsirCommand(as);

RingD("x,y,z,s");

Line 43 def asir_generic_bfct(a,ii,vv,dd,ww) {

Line 48 def asir_generic_bfct(a,ii,vv,dd,ww) {

asir_generic_bfct(a,[Dx^2+Dy^2-1,Dx*Dy-4],[x,y],[Dx,Dy],[1,1]): */

/* usage: misc/tmp/complex-ja.texi */

def changeRing(f) {

def ChangeRing(f) {

local r;

r = GetRing(f);

if (Tag(r) == 14) {

Line 57 def changeRing(f) {

Line 62 def changeRing(f) {

def asir_BfRoots2(G) {

local bb,ans,ss;

sm1(" G flatten {dehomogenize} map /G set ");

changeRing(G);

ChangeRing(G);

ss = asir_generic_bfct(asssssir,G,[x,y],[Dx,Dy],[1,1]);

bb = [ss];

sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set ");

Line 66 def asir_BfRoots2(G) {

Line 71 def asir_BfRoots2(G) {

def asir_BfRoots3(G) {

local bb,ans,ss;

sm1(" G flatten {dehomogenize} map /G set ");

changeRing(G);

ChangeRing(G);

ss = asir_generic_bfct(asssssir,G,[x,y,z],[Dx,Dy,Dz],[1,1,1]);

bb = [ss];

sm1(" bb 0 get findIntegralRoots { (universalNumber) dc } map /ans set ");

Line 94 def asirAnnXYZ(a,f) {

Line 99 def asirAnnXYZ(a,f) {

def nonquasi2(p,q) {

local s,ans,f;

sm1("0 set_timer "); sm1(" oxNoX ");

asssssir.OnTimer();

f = x^p+y^q+x*y^(q-1);

Print("f=");Println(f);

s = ToString(f);

Line 114 def nonquasi2(p,q) {

Line 123 def nonquasi2(p,q) {

Print("Roots and b-function are "); Println(R);

R0 = R[0];

Ans=Srestall(Res0, ["x", "y"], ["x", "y"], R0[Length(R0)-1]);

Println("Timing data: sm1 "); sm1(" 1 set_timer ");

Print(" ox_asir [CPU,GC]: ");Println(asssssir.OffTimer());

Print("Answer is "); Println(Ans[0]);

return(Ans);

}

Line 129 def asirAnn0XYZ(a,f) {

Line 142 def asirAnn0XYZ(a,f) {

def DeRham2WithAsir(f) {

local s;

sm1("0 set_timer "); sm1(" oxNoX ");

asssssir.OnTimer();

s = ToString(f);

II = asirAnn0XYZ(asssssir,f);

Print("Step 1: Annhilating ideal (II)"); Println(II);

Line 144 def DeRham2WithAsir(f) {

Line 161 def DeRham2WithAsir(f) {

Print("Roots and b-function are "); Println(R);

R0 = R[0];

Ans=Srestall(Res0, ["x", "y"], ["x", "y"],R0[Length(R0)-1] );

Println("Timing data: sm1 "); sm1(" 1 set_timer ");

Print(" ox_asir [CPU,GC]: ");Println(asssssir.OffTimer());

Print("Answer is ");Println(Ans[0]);

return(Ans);

}

def DeRham3WithAsir(f) {

local s;

sm1("0 set_timer "); sm1(" oxNoX ");

asssssir.OnTimer();

s = ToString(f);

II = asirAnn0XYZ(asssssir,f);

Print("Step 1: Annhilating ideal (II)"); Println(II);

Line 164 def DeRham3WithAsir(f) {

Line 189 def DeRham3WithAsir(f) {

Print("Roots and b-function are "); Println(R);

R0 = R[0];

Ans=Srestall(Res0, ["x", "y", "z"], ["x", "y", "z"],R0[Length(R0)-1] );

Println("Timing data: sm1 "); sm1(" 1 set_timer ");

Print(" ox_asir [CPU,GC]: ");Println(asssssir.OffTimer());

Print("Answer is ");Println(Ans[0]);

return(Ans);

}

/* test data

NoX=true;

nonquasi2(4,5);

nonquasi2(4,6);

nonquasi2(4,7);

nonquasi2(4,8);

nonquasi2(4,9);

nonquasi2(4,10);

nonquasi2(5,6);

nonquasi2(6,7);

nonquasi2(7,8);

nonquasi2(8,9);

nonquasi2(9,10);

P2 = [

"x^3-y^2",

"y^2-x^3-x-1",

"y^2-x^5-x-1",

"y^2-x^7-x-1",

"y^2-x^9-x-1",

"y^2-x^11-x-1"

];

P3 = [

"x^3-y^2*z^2",

"x^2*z+y^3+y^2*z+z^3",

"y*z^2+x^3+x^2*y^2+y^6",

"x*z^2+x^2*y+x*y^3+y^5"

];

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