| version 1.32, 2004/02/14 18:28:39 |
version 1.38, 2004/05/18 10:03:15 |
| Line 306 def makeret(Res,Vars,FLAG){ |
|
| Line 306 def makeret(Res,Vars,FLAG){ |
|
| else |
else |
| M=-1$ |
M=-1$ |
| |
|
| for(I=0;I<ResNum;I++){ |
for(I=0;I<ResNum;I++){ |
| if(member(Res[I][0],Vars)){ |
if(member(Res[I][0],Vars)){ |
| ResVec[I]=Res[I][1]$ |
ResVec[I]=Res[I][1]$ |
| |
|
| if(FLAG){ |
if(FLAG){ |
| if(type(ResVec[I])==1){ |
if(type(ResVec[I])==1){ |
| if(M==0) |
if(M==0) |
| M=ResVec[I]$ |
M=ResVec[I]$ |
| else |
else |
| if(ResVec[I]<M) |
if(ResVec[I]<M) |
| M=ResVec[I]$ |
M=ResVec[I]$ |
| } |
} |
| else |
else |
| M=-1$ |
M=-1$ |
| } |
} |
| } |
} |
| } |
} |
| |
|
| |
|
| if(M!=-1) |
if(M!=-1) |
| ResVec=ResVec/M; |
ResVec=ResVec/M; |
| |
|
| Line 455 def checktd(PolyList,Vars,ResVars){ |
|
| Line 454 def checktd(PolyList,Vars,ResVars){ |
|
| return 1$ |
return 1$ |
| } |
} |
| |
|
| def value2(Vars,Ans){ |
def value2(Vars,Ans,Ba,FLAG){ |
| |
|
| N=length(Vars)$ |
N=length(Vars)$ |
| Res=newvect(N)$ |
Res=newvect(N)$ |
| for(I=0;I<N;I++){ |
for(I=0;I<N;I++){ |
| Res[I]=newvect(2)$ |
Res[I]=newvect(2)$ |
| Res[I][0]=Vars[I]$ |
Res[I][0]=Vars[I]$ |
| Res[I][1]=Ans[I]$ |
Res[I][1]=Ba*Ans[I]$ |
| } |
} |
| Res=map(vtol,Res)$ |
Res=map(vtol,Res)$ |
| Res=vtol(Res)$ |
Res=vtol(Res)$ |
| Line 470 def value2(Vars,Ans){ |
|
| Line 469 def value2(Vars,Ans){ |
|
| Res=getgcd(Res,Vars)$ |
Res=getgcd(Res,Vars)$ |
| |
|
| if(nonposdegchk(Res)){ |
if(nonposdegchk(Res)){ |
| TMP1=makeret(Res,Vars,1)$ |
TMP1=makeret(Res,Vars,FLAG)$ |
| return vtol(TMP1[1])$ |
return vtol(TMP1[1])$ |
| } |
} |
| else |
else |
| Line 524 def qcheck(PolyList,Vars,FLAG){ |
|
| Line 523 def qcheck(PolyList,Vars,FLAG){ |
|
| |
|
| for(I=0;I<length(TMP0);I++) |
for(I=0;I<length(TMP0);I++) |
| TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
| RET0=value2(Vars,TMP)$ |
RET0=value2(Vars,TMP,1,0)$ |
| |
|
| if(RET0!=[]) |
if(RET0!=[]) |
| RET0=wsort(RET0,Vars,RET0,-1)$ |
RET0=wsort(RET0,Vars,RET0,-1)$ |
| } |
} |
| Line 534 def qcheck(PolyList,Vars,FLAG){ |
|
| Line 534 def qcheck(PolyList,Vars,FLAG){ |
|
| |
|
| for(I=0;I<length(TMP0);I++) |
for(I=0;I<length(TMP0);I++) |
| TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
| RET0=value2(Vars,TMP)$ |
RET0=value2(Vars,TMP,-1,0)$ |
| |
|
| if(RET0!=[]) |
if(RET0!=[]) |
| RET0=wsort(RET0,Vars,RET0,-1)$ |
RET0=wsort(RET0,Vars,RET0,-1)$ |
| Line 600 def unitweight2(NormMat0,ExpMat,Vars,FLAG,ID){ |
|
| Line 600 def unitweight2(NormMat0,ExpMat,Vars,FLAG,ID){ |
|
| if(FLAG==0){ |
if(FLAG==0){ |
| TMP=roundret(TMP1[1])$ |
TMP=roundret(TMP1[1])$ |
| |
|
| RET=append(RET,wsort(TMP1[1],Vars,map(drint,TMP1[1]*1.0),ID))$ |
RET=append(RET,wsort(TMP1[1],Vars,map(drint,TMP1[1]),ID))$ |
| |
|
| if(TMP!=[]) |
if(TMP!=[]) |
| RET=append(RET,wsort(TMP1[1],Vars,TMP,ID+1))$ |
RET=append(RET,wsort(TMP1[1],Vars,TMP,ID+1))$ |
| Line 610 def unitweight2(NormMat0,ExpMat,Vars,FLAG,ID){ |
|
| Line 610 def unitweight2(NormMat0,ExpMat,Vars,FLAG,ID){ |
|
| } |
} |
| } |
} |
| |
|
| return RET$ |
return [NormMat0,RET]$ |
| } |
} |
| |
|
| def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
| Line 674 def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
|
| Line 674 def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
|
| if(FLAG==0){ |
if(FLAG==0){ |
| TMP=roundret(TMP1[1])$ |
TMP=roundret(TMP1[1])$ |
| |
|
| RET=append(RET,wsort(TMP1[1],Vars,map(drint,TMP1[1]*1.0),1))$ |
RET=append(RET,wsort(TMP1[1],Vars,map(drint,TMP1[1]),1))$ |
| |
|
| if(TMP!=[]) |
if(TMP!=[]) |
| RET=append(RET,wsort(TMP1[1],Vars,TMP,2))$ |
RET=append(RET,wsort(TMP1[1],Vars,TMP,2))$ |
| Line 687 def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
|
| Line 687 def unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG){ |
|
| return [NormMat0,RET]$ |
return [NormMat0,RET]$ |
| } |
} |
| |
|
| |
def leastsq(NormMat,ExpMat,Vars,FLAG,ID){ |
| |
|
| |
RET=[]$ |
| |
|
| |
ExpMatRowNum=size(ExpMat)[0]$ |
| |
ExpMatColNum=size(ExpMat[0])[0]$ |
| |
|
| |
if(NormMat==0){ |
| |
NormMat=newmat(ExpMatColNum,ExpMatColNum)$ |
| |
|
| |
for(I=0;I<ExpMatColNum;I++) |
| |
for(J=I;J<ExpMatColNum;J++) |
| |
for(K=0;K<ExpMatRowNum;K++) |
| |
NormMat[I][J]+= |
| |
ExpMat[K][I]*ExpMat[K][J]$ |
| |
} |
| |
|
| |
BVec=newvect(ExpMatColNum)$ |
| |
|
| |
for(I=0;I<ExpMatColNum;I++) |
| |
for(J=0;J<ExpMatRowNum;J++) |
| |
BVec[I]+=ExpMat[J][I]$ |
| |
|
| |
SolveList=[]$ |
| |
for(I=0;I<ExpMatColNum;I++){ |
| |
TMP=0$ |
| |
for(J=0;J<I;J++) |
| |
TMP+=NormMat[J][I]*Vars[J]$ |
| |
|
| |
for(J=I;J<ExpMatColNum;J++) |
| |
TMP+=NormMat[I][J]*Vars[J]$ |
| |
|
| |
TMP-=BVec[I]$ |
| |
SolveList=cons(TMP,SolveList)$ |
| |
} |
| |
|
| |
Rea=vars(SolveList)$ |
| |
|
| |
VarsList=[]$ |
| |
for(I=0;I<length(Vars);I++) |
| |
if(member(Vars[I],Rea)) |
| |
VarsList=cons(Vars[I],VarsList)$ |
| |
|
| |
Res=solve(SolveList,VarsList)$ |
| |
Res=getgcd(Res,Rea)$ |
| |
|
| |
if(nonposdegchk(Res)){ |
| |
|
| |
TMP1=makeret(Res,Vars,1)$ |
| |
|
| |
if(FLAG==0){ |
| |
|
| |
if(TMP1[0]==0){ |
| |
|
| |
TMP=roundret(TMP1[1])$ |
| |
|
| |
RET=append(RET,wsort(TMP1[1],Vars,map(drint,TMP1[1]),ID))$ |
| |
|
| |
if(TMP!=[]) |
| |
RET=append(RET,wsort(TMP1[1],Vars,TMP,ID+1))$ |
| |
} |
| |
else{ |
| |
|
| |
TMP=vtol(TMP1[1])$ |
| |
RET0=[]$ |
| |
if((TMP0=fixedpoint(TMP,0))!=[]){ |
| |
|
| |
for(I=0;I<length(TMP0);I++) |
| |
TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
| |
RET0=value2(Vars,TMP,1,1)$ |
| |
|
| |
if(RET0!=[]) |
| |
RET0=wsort(RET0,Vars,map(drint,RET0),-ID)$ |
| |
} |
| |
|
| |
TMP=vtol(TMP1[1])$ |
| |
if(RET0==[] && (TMP0=fixedpoint(TMP,1))!=[]){ |
| |
|
| |
for(I=0;I<length(TMP0);I++) |
| |
TMP=map(subst,TMP,TMP0[I][0],TMP0[I][1])$ |
| |
RET0=value2(Vars,TMP,-1,1)$ |
| |
|
| |
if(RET0!=[]) |
| |
RET0=wsort(RET0,Vars,map(drint,RET0),-ID)$ |
| |
} |
| |
|
| |
RET=append(RET,RET0)$ |
| |
} |
| |
|
| |
} |
| |
else if(FLAG==1) |
| |
RET=append(RET,[[ID,Vars,vtol(TMP1[1])]])$ |
| |
} |
| |
|
| |
return [NormMat0,RET]$ |
| |
} |
| |
|
| def weight(PolyList,Vars,FLAG){ |
def weight(PolyList,Vars,FLAG){ |
| |
|
| Vars0=vars(PolyList)$ |
Vars0=vars(PolyList)$ |
| Line 724 def weight(PolyList,Vars,FLAG){ |
|
| Line 821 def weight(PolyList,Vars,FLAG){ |
|
| ExpMat=newvect(length(ExpMat),ExpMat)$ |
ExpMat=newvect(length(ExpMat),ExpMat)$ |
| |
|
| TMP=unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG)$ |
TMP=unitweight1(ExpMat,Vars,PolyListNum,OneMat,FLAG)$ |
| |
if(TMP[1]!=[]) |
| |
RET=append(RET,TMP[1])$ |
| |
|
| RET=append(RET,TMP[1])$ |
TMP=leastsq(0,ExpMat,Vars,FLAG,3)$ |
| |
if(TMP[1]!=[]) |
| |
RET=append(RET,TMP[1])$ |
| |
|
| TMP=unitweight2(TMP[0],ExpMat,Vars,FLAG,3)$ |
|
| |
|
| RET=append(RET,TMP)$ |
|
| |
|
| ExpMat=qsort(ExpMat,junban)$ |
ExpMat=qsort(ExpMat,junban)$ |
| |
|
| ExpMat2=[]$ |
ExpMat2=[]$ |
| Line 740 def weight(PolyList,Vars,FLAG){ |
|
| Line 837 def weight(PolyList,Vars,FLAG){ |
|
| |
|
| if(size(ExpMat)[0]!=length(ExpMat2)){ |
if(size(ExpMat)[0]!=length(ExpMat2)){ |
| ExpMat=newvect(length(ExpMat2),ExpMat2)$ |
ExpMat=newvect(length(ExpMat2),ExpMat2)$ |
| RET=append(RET,unitweight2(0,ExpMat,Vars,FLAG,5))$ |
TMP=leastsq(0,ExpMat,Vars,FLAG,5)$ |
| |
if(TMP[1]!=[]) |
| |
RET=append(RET,TMP[1])$ |
| } |
} |
| else{ |
else{ |
| TMP0=map(ltov,TMP0)$ |
TMP=map(ltov,TMP[1])$ |
| |
|
| for(I=0;I<length(TMP0);I++) |
for(I=0;I<length(TMP);I++){ |
| if(TMP0[I][0]==3) |
if(TMP[I][0]==3) |
| TMP0[I][0]=5$ |
TMP[I][0]=5$ |
| else if(TMP0[I][0]==4) |
else if(TMP[I][0]==4) |
| TMP0[I][0]=6$ |
TMP[I][0]=6$ |
| |
} |
| |
|
| TMP0=map(vtol,TMP0)$ |
TMP=map(vtol,TMP)$ |
| |
|
| RET=append(RET,TMP0)$ |
RET=append(RET,TMP)$ |
| } |
} |
| |
|
| return RET$ |
return RET$ |
| } |
} |
| |
|
| end$ |
end$ |
| |
|
| |
|
![[BACK]](/icons/cvsweb/back.gif){kind=icon}
Return to weight CVS log ![[TXT]](/icons/cvsweb/text.gif){kind=icon}
![[DIR]](/icons/cvsweb/dir.gif){kind=icon}
Up to [local] / OpenXM_contrib2 / asir2000 / lib