| version 1.2, 2000/08/02 05:14:30 |
version 1.3, 2000/08/09 03:45:27 |
|
|
| % $OpenXM: OpenXM/src/k097/lib/minimal/example-ja.tex,v 1.1 2000/08/02 03:23:36 takayama Exp $ |
% $OpenXM: OpenXM/src/k097/lib/minimal/example-ja.tex,v 1.2 2000/08/02 05:14:30 takayama Exp $ |
| \documentclass[12pt]{jarticle} |
\documentclass[12pt]{jarticle} |
| \newtheorem{example}{Example} |
\newtheorem{example}{Example} |
| \def\pd#1{ \partial_{#1} } |
\def\pd#1{ \partial_{#1} } |
| Line 50 complement of an affine variety via D-module computati |
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| Line 50 complement of an affine variety via D-module computati |
|
| Journal of pure and applied algebra, 139 (1999), 201--233. �$B$r;2>H�(B) |
Journal of pure and applied algebra, 139 (1999), 201--233. �$B$r;2>H�(B) |
| \end{enumerate} |
\end{enumerate} |
| |
|
| \begin{example} \rm |
\begin{example} \rm \label{example:cusp} |
| %Prog: minimal-test.k test18() |
%Prog: minimal-test.k test18() |
| $I = F^h\left[{\rm Ann}\left( D \frac{1}{x^3-y^2} \right) \right]$ |
$I = F^h\left[{\rm Ann}\left( D \frac{1}{x^3-y^2} \right) \right]$ |
| �$B$N>l9g�(B. |
�$B$N>l9g�(B. |
| Line 262 $(-{\bf 1},{\bf 1})$-minimal resolution |
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| Line 262 $(-{\bf 1},{\bf 1})$-minimal resolution |
|
| Degree shifts |
Degree shifts |
| [ [ 0 ] , [ 0 , 2 , 2 , 2 ] , [ 2 , 2 , 2 , 3 , 3 ] ] |
[ [ 0 ] , [ 0 , 2 , 2 , 2 ] , [ 2 , 2 , 2 , 3 , 3 ] ] |
| \end{verbatim}} |
\end{verbatim}} |
| %% �$B$3$N�(B resolution �$B$O<B$O�(B, toric �$B$N�(B resolution �$B$N�(B Koszul complex �$B$K$J$C$F$k�(B |
%%Prog:test23() of minimal-test.k |
| %% �$B$O$:�(B. |
�$B$3$N6K>.<+M3J,2r$O<B$O�(B �$B9TNs�(B $(1,2,3)$ �$B$G$-$^$k�(B affine toric ideal |
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�$B$N6K>.<+M3J,2r$N�(B Koszul complex �$B$K$J$C$F$k�(B. |
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Gel'fand, Kapranov, Zelevinsky �$B$K$h$C$FF3F~$5$l$?�(B $D/I$ |
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�$B$N�(B resolution �$B$r<+A3$K1dD9$7$?<!$N�(B 2 �$B=EJ#BN$r9M$($h$&�(B. |
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$$ |
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\begin{array}{ccccccccc} |
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0 & \longrightarrow & D^2 & \stackrel{d^1}{\longrightarrow} |
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& D^3 & \stackrel{d^2}{\longrightarrow} |
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& D & \longrightarrow & 0 \\ |
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& & u^1 \downarrow & |
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& u^2 \downarrow & |
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& u^3 \downarrow & \\ |
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0 & \longrightarrow & D^2 & \stackrel{d^1}{\longrightarrow} |
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& D^3 & \stackrel{d^2}{\longrightarrow} |
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& D & \longrightarrow & 0 |
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\end{array} |
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$$ |
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�$B$3$3$G$O�(B, (�$B8m2r$b$J$$$H;W$&$N$G�(B) $D$ �$B$GF1<!2=%o%$%kBe?t�(B, |
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$d^i$ �$B$G�(B affine toric ideal �$B$NF1<!2=$NB?9`<04D$G$N6K>.<+M3J,2r�(B |
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$$ d^2 = \pmatrix{ \pd{1}^2 - \pd{2}^2 h \cr |
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-\pd{1} \pd{2} + \pd{3} h \cr |
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\pd{2}^2 - \pd{1} \pd{3} \cr }, \ |
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d^1 = \pmatrix{ -\pd{2} & -\pd{1} & -h \cr |
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\pd{3} & \pd{2} & \pd{1} \cr } |
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$$ |
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�$B$r$"$i$o$9$b$N$H$9$k�(B. |
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�$B$^$?�(B $\ell = x_1 \pd{1} + 2 x_2 \pd{2} + 3 x_3 \pd{3}$ �$B$H$*$/$H$-�(B $u^i$ �$B$r�(B |
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�$B<!$N$h$&$K$-$a$k�(B. |
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$$ u^1=\pmatrix{ \ell + 4 h^2 & 0 \cr |
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0 & \ell+5 h^2 \cr}, \quad |
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u^2=\pmatrix{\ell+2 h^2 & 0 & 0 \cr |
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0 & \ell + 3 h^2 & 0 \cr |
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0 & 0 & \ell+ 4 h^2 \cr}, \quad |
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u^3 = \pmatrix{ \ell \cr}. |
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$$ |
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|
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�$B$3$N$H$-IU?o$9$k�(B 1 �$B=EJ#BN$O�(B |
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$$L^1 \ni f \mapsto (-d^1(f), u^1(f)) \in L^2 \oplus L^1, $$ |
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$$ L^2\oplus L^1 \ni (f,g)\mapsto (-d^2(f), u^2(f)+d^1(g)) \in L^3\oplus L^2, |
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$$ |
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$$ |
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L^3\oplus L^2 \ni (f,g)\mapsto u^3(f)+d^2(g) \in L^3. |
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$$ |
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�$B$G$"$?$($i$l$k�(B. |
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�$B$3$3$G�(B $L^1 = D^2$, $L^2 = D^3$, $L^3 = D$ �$B$G$"$k�(B. |
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�$B$3$N�(B 1 �$B=EJ#BN$N6qBN7A$O0J2<$N$H$&$j�(B. |
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\footnotesize{ |
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\begin{verbatim} |
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[ |
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[ |
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[ x1*Dx1+2*x2*Dx2+3*x3*Dx3 ] |
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[ Dx1^2-Dx2*h ] |
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[ -Dx1*Dx2+Dx3*h ] |
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[ Dx2^2-Dx1*Dx3 ] |
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] |
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[ |
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[ -Dx1^2+Dx2*h , x1*Dx1+2*x2*Dx2+3*x3*Dx3+2*h^2 , 0 , 0 ] |
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[ Dx1*Dx2-Dx3*h , 0 , x1*Dx1+2*x2*Dx2+3*x3*Dx3+3*h^2 , 0 ] |
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[ -Dx2^2+Dx1*Dx3 , 0 , 0 , x1*Dx1+2*x2*Dx2+3*x3*Dx3+4*h^2 ] |
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[ 0 , -Dx2 , -Dx1 , -h ] |
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[ 0 , Dx3 , Dx2 , Dx1 ] |
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] |
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[ |
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[ Dx2 , Dx1 , h , x1*Dx1+2*x2*Dx2+3*x3*Dx3+4*h^2 , 0 ] |
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[ -Dx3 , -Dx2 , -Dx1 , 0 , x1*Dx1+2*x2*Dx2+3*x3*Dx3+5*h^2 ] |
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] |
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] |
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\end{verbatim} |
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} |
| \end{example} |
\end{example} |
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|
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|
| $(-w,w)$-�$B6K>.<+M3J,2r$H�(B �$B6K>.<+M3J,2r$,$3$H$J$kNc$r$5$,$7$F$$$k$,�(B |
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| �$B$3$l$O$^$@8+$D$+$C$F$$$J$$�(B. |
|
| |
|
| \section{�$B<BAu�(B} |
\section{�$B<BAu�(B} |
| �$B$3$3$G$O�(B |
�$B$3$3$G$O�(B |
| \begin{verbatim} |
\begin{verbatim} |
| /* OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v |
/* OpenXM: OpenXM/src/k097/lib/minimal/minimal.k,v 1.25 |
| 1.23 2000/08/01 08:51:03 takayama Exp */ |
2000/08/02 05:14:31 takayama Exp */ |
| \end{verbatim} |
\end{verbatim} |
| �$BHG$N�(B {\tt minimal.k} �$B$K=`5r$7$F<BAu$N35N,$r2r@b$9$k�(B. |
�$BHG$N�(B {\tt minimal.k} �$B$K=`5r$7$F<BAu$N35N,$r2r@b$9$k�(B. |
| |
|
| �$B$^$@=q$$$F$J$$�(B. |
�$B<BAu$N@bL@$N$?$a$NNc$H$7$F%$%G%"%k�(B |
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$$ I = D \cdot \{ -2x\pd{x}-3y\pd{y}+h^2, -3y\pd{x}^2+2x\pd{y}h \} $$ |
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�$B$N�(B $(u,v) = (-1,-1,1,1)$-�$B6K>.J,2r$N9=@.�(B |
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�$B$r9M$($h$&�(B. |
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%%Prog: minimal-note-ja.txt 6/9 (Fri) �$B$*$h$S0J8e$N�(B bug fix �$B$N5-O?$r;2>H�(B. |
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%%�$BNc$H$7$F�(B, �$B%$%G%"%k�(B |
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%%$$ I = D \cdot \{ x^2 + y^2, x y \} $$ |
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%%�$B$N�(B $(u,v) = (-1,-1,1,1)$-�$B6K>.J,2r$N9=@.�(B |
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%%�$B$r9M$($h$&�(B. |
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%%(�$B$3$N>l9g$OB?9`<04D$NF1<!<0$G@8@.$5$l$k$N$G�(B, �$BB?9`<04D$G$N�(B |
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%% �$B6K>.<+M3J,2r$N7W;;$HF1$8$3$H$K$J$k�(B.) |
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�$B$3$N>l9g�(B, |
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$I$ �$B$N%0%l%V%J4pDl�(B $G$ �$B$O�(B |
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{\footnotesize |
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\begin{verbatim} |
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[ |
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[ -2*x*Dx-3*y*Dy+h^2 ] |
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[ -3*y*Dx^2+2*x*Dy*h ] |
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[ 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h ] |
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[ 27*y^3*Dy^2+27*y^2*Dy*h^2-3*y*h^4-8*x^3*Dy*h ] |
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] |
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\end{verbatim} |
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} \noindent |
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�$B$H$J$C$F$*$j�(B, |
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Schreyer resolution �$B$O�(B |
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{\footnotesize |
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\begin{verbatim} |
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[ |
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[ |
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[ -2*x*Dx-3*y*Dy+h^2 ] |
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[ -3*y*Dx^2+2*x*Dy*h ] |
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[ 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h ] |
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[ 27*y^3*Dy^2+27*y^2*Dy*h^2-3*y*h^4-8*x^3*Dy*h ] |
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] |
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[ |
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[ 9*y^2*Dy+3*y*h^2 , 0 , 2*x , 1 ] |
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[ -4*x^2*Dy*h , 0 , -3*y*Dy+4*h^2 , Dx ] |
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[ 2*x*Dy*h , 3*y*Dy-2*h^2 , Dx , 0 ] |
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[ 3*y*Dx , -2*x , 1 , 0 ] |
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] |
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[ |
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[ -Dx , 1 , 2*x , 3*y*Dy-2*h^2 ] |
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] |
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] |
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\end{verbatim} |
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} \noindent |
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�$B$G$"$k�(B. $1$ �$B$,$?$/$5$s�(B Schreyer resolution �$B$NCf$K$O$"$k$3$H$K�(B |
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�$BCm0U�(B. $1$ �$B$O6K>.<+M3J,2r$K$OI,MW$J$$85$G$"$k$3$H$r0UL#$9$k�(B. |
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�$B6K>.<+M3J,2r$O�(B, �$BNc�(B \ref{example:cusp} �$B$K6qBN7A$r=q$$$F$*$$$?�(B. |
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|
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\medbreak |
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|
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|
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�$B$3$N<BAu$G$O6K>.<+M3J,2r$r�(B LaScala �$B$N%"%k%4%j%:%`$r$b$H$K$7$F�(B |
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�$B9=@.$9$k�(B (LaScala and Stillman [??] �$B$*$h$S?tM}2J3X$N5-;v�(B ??? �$B$r;2>H�(B). |
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|
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�$B$3$N%"%k%4%j%:%`$O4{CN$H$7$F�(B, �$B0c$$$N$_$r@bL@$7$h$&�(B. |
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LaScala �$B$N%"%k%4%j%:%`$O�(B, |
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reduction �$B$7$?$H$-$K�(B $0$ �$B$K$J$C$?>l9g�(B, �$B$=$N�(B reduction �$B$KIU?o$7$?�(B |
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syzygy �$B$r�(B �$B6K>.<+M3J,2r$N85$H$7�(B, |
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reduction �$B$7$?$H$-$K�(B $0$ �$B$K$J$i$J$+$C$?>l9g�(B, �$B$=$N85$r�(B |
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�$B%0%l%V%J4pDl$N85$H$7$F2C$(�(B, �$BIU?o$7$?�(B syzygy �$B$O6K>.<+M3J,2r$G$OM>7W$J$b$N$H�(B |
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�$B$_$J$9�(B. |
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�$B$o$l$o$l$O�(B $(u,v)$-�$B6K>.$J<+M3J,2r$r$b$H$a$?$$�(B. |
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�$B$=$3$G>e$N<jB3$-$r<!$N$h$&$KJQ$($k�(B. |
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\begin{center} |
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\begin{minipage}{10cm} |
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Reduction �$B$7$?$H$-$K�(B modulo $(u,v)$-�$B%U%#%k%?!<$G�(B $0$ �$B$K$J$C$?>l9g�(B, |
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�$B$=$N�(B reduction �$B$KIU?o$7$?�(B syzygy �$B$r�(B �$B6K>.<+M3J,2r$N85$H$7�(B, �$B$5$i$K�(B |
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�$B$=$N85$,�(B $0$ �$B$G$J$1$l$P%0%l%V%J4pDl$K2C$($k�(B. |
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reduction �$B$7$?$H$-$K�(B modulo $(u,v)$-�$B%U%#%k%?!<$G�(B $0$ �$B$K$J$i$J$+$C$?>l9g�(B, |
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�$B$=$N85$r%0%l%V%J4pDl$N85$H$7$F2C$(�(B, |
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�$BIU?o$7$?�(B syzygy �$B$O6K>.<+M3J,2r$G$OM>7W$J$b$N$H$_$J$9�(B. |
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\end{minipage} |
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\end{center} |
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|
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�$B$A$J$_$K�(B, |
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$(-w,w)$-�$B6K>.<+M3J,2r$H�(B �$B6K>.<+M3J,2r$,$3$H$J$kNc$r$5$,$7$F$$$k$,�(B |
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�$B$3$l$O$^$@8+$D$+$C$F$$$J$$�(B. |
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�$B$A$g$C$HIT;W5D$G$"$k�(B. |
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|
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\bigbreak |
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|
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{\tt minimal.k} �$B$N%=!<%9%3!<%I$G$O$3$NItJ,$O<!$N$h$&$K$J$C$F$$$k�(B. |
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{\footnotesize |
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\begin{verbatim} |
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def SlaScala(g,opt) { |
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... |
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... |
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f = SpairAndReduction(skel,level,i,freeRes,tower,ww); |
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if (f[0] != Poly("0")) { |
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place = f[3]; |
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if (Sordinary) { |
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redundantTable[level-1,place] = redundant_seq; |
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redundant_seq++; |
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}else{ |
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if (f[4] > f[5]) { (�$B$$�(B) |
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/* Zero in the gr-module */ |
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Print("v-degree of [org,remainder] = "); |
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Println([f[4],f[5]]); |
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Print("[level,i] = "); Println([level,i]); |
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redundantTable[level-1,place] = 0; |
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}else{ (�$B$m�(B) |
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redundantTable[level-1,place] = redundant_seq; |
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redundant_seq++; |
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} |
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} |
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redundantTable_ordinary[level-1,place] |
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=redundant_seq_ordinary; |
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... |
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... |
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} |
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\end{verbatim} |
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} |
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|
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�$B>/!9D9$/$J$k$,�(B, �$B$3$NItJ,$K$"$i$o$l$kJQ?t$N@bL@$r$7$h$&�(B. |
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|
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LaScala �$B$N%"%k%4%j%:%`$G$O�(B, �$B:G=i$K7W;;$9$Y$-�(B S-pair �$B$N7W;;<j=g�(B, |
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�$B$*$h$S�(B Schreyer frame �$B$r:n@.$9$k�(B. |
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Schreyer frame �$B$O�(B Schreyer resolution �$B$N�(B initial �$B$G$"$k�(B. |
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�$B$3$l$i$O$"$i$+$8$a�(B |
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{\tt SresolutionFrameWithTower(g,opt);} |
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�$B$G7W;;$5$l$F�(B, {\tt tower} �$B$*$h$S�(B {\tt skel} �$B$K3JG<$5$l$F$$$k�(B. |
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�$B$3$l$i$NJQ?t$NCM$O�(B, �$B4X?t�(B {\tt Sminimal()} �$B$NLa$jCM$H$7$F�(B |
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�$B8+$k$3$H$,$G$-$k�(B. |
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�$B4X?t�(B {\tt Sminimal()} �$B$NLa$jCM$,JQ?t�(B $a$ �$B$K3JG<$5$l$F$$$k$H$9$k$H�(B, |
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{\tt a[0]} �$B$,6K>.<+M3J,2r�(B |
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{\tt a[3]} �$B$,�(B Schreyer �$B<+M3J,2r�(B(�$B$H$/$K�(B {\tt a[3,0]} �$B$,�(B |
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$I$ �$B$N%0%l%V%J4pDl�(B), |
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{\tt a[4]} �$B$,�(B, |
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�$B4X?t�(B {\tt SlaScala()} �$B$N�(B |
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�$BJQ?t�(B {\tt [rf[0], tower, skel, rf[3]]} �$B$NCM$G$"$k�(B. |
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�$B$7$?$,$C$F�(B, {\tt tower} �$B$O�(B {\tt a[4,1]} �$B$K3JG<$5$l$F$$$k�(B. |
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$I$ �$B$N>l9g$N�(B {\tt tower} �$B$O0J2<$N$H$&$j�(B. |
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{\footnotesize |
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\begin{verbatim} |
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In(25)=sm1_pmat(a[4,1]); |
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[ |
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[ -2*x*Dx , -3*y*Dx^2 , -9*y^2*Dx*Dy , -27*y^3*Dy^2 ] |
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[ -9*y^2*Dy , -3*es^2*y*Dy , -3*es*y*Dy , -3*y*Dx ] |
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[ -Dx ] |
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] |
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\end{verbatim} |
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} \noindent |
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�$B$3$3$G�(B ${\tt es}^i$ �$B$O%Y%/%H%k$N�(B �$BBh�(B $i$ �$B@.J,$G$"$k$3$H$r$7$a$7$F$$$k�(B. |
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�$B$?$H$($P�(B, |
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\verb# -3*es^2*y*Dy # �$B$O�(B |
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\verb# [0, 0, -3*y*Dy, 0] # �$B$r0UL#$9$k�(B. |
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|
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�$BJQ?t�(B |
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{\tt skel} �$B$K$O�(B |
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S-pair (sp) �$B$N7W;;<j=g$,$O$$$C$F$$$k�(B. |
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$I$ �$B$N>l9g$K$O0J2<$N$H$&$j�(B. |
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{\footnotesize |
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\begin{verbatim} |
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In(16)=sm1_pmat(a[4,2]); |
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[ |
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[ ] |
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[ |
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[ |
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[ 0 , 2 ] G'[0] �$B$H�(B G'[2] �$B$N�(B sp �$B$r7W;;�(B (0) |
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[ -9*y^2*Dy , 2*x ] |
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] |
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[ |
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[ 2 , 3 ] G'[2] �$B$H�(B G'[3] �$B$N�(B sp �$B$r7W;;�(B (1) |
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[ -3*y*Dy , Dx ] |
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] |
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[ |
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[ 1 , 2 ] G'[1] �$B$H�(B G'[2] �$B$N�(B sp �$B$r7W;;�(B (2) |
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[ -3*y*Dy , Dx ] |
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] |
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[ |
| |
[ 0 , 1 ] G'[0] �$B$H�(B G'[1] �$B$N�(B sp �$B$r7W;;�(B (3) |
| |
[ -3*y*Dx , 2*x ] |
| |
] |
| |
] |
| |
[ |
| |
[ |
| |
[ 0 , 3 ] G''[0] �$B$H�(B G''[3] �$B$N�(B sp �$B$r7W;;�(B |
| |
[ -Dx , 3*y*Dy ] |
| |
] |
| |
] |
| |
[ ] |
| |
] |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B$3$3$G�(B $G'$ �$B$O�(B Schreyer order �$B$GF@$i$l$?�(B $G$ �$B$N�(B syzygy �$B$N@8@.85�(B, |
| |
$G''$ �$B$O�(B Schreyer order �$B$GF@$i$l$?�(B $G'$ �$B$N�(B syzygy �$B$N@8@.85$r$"$i$o$9�(B. |
| |
�$B$?$H$($P>e$NNc$G$O�(B, |
| |
$G'[0]$ �$B$O�(B |
| |
$G[0]$ �$B$H�(B $G[2]$ �$B$N�(B sp �$B$N7W;;$K$h$jF@$i$l$?�(B syzygy, |
| |
$G'[1]$ �$B$O�(B |
| |
$G[2]$ �$B$H�(B $G[3]$ �$B$N�(B sp �$B$N7W;;$K$h$jF@$i$l$?�(B syzygy, |
| |
... |
| |
�$B$r0UL#$9$k�(B. |
| |
|
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
f = SpairAndReduction(skel,level,i,freeRes,tower,ww); |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B$G$O�(B {\tt skel[level,i]} �$B$K3JG<$5$l$?�(B |
| |
S-pair �$B$r7W;;$7$F�(B, {\tt freeRes[level-1]} �$B$G�(B reduction �$B$r$*$3$J$&�(B. |
| |
Reduction �$B$N$?$a$N�(B Schreyer order �$B$O�(B \\ |
| |
{\tt StowerOf(tower,level-1)} �$B$rMQ$$$k�(B. |
| |
�$B$?$H$($P�(B, ${\tt [level,i] = [1,3]}$ �$B$N$H$-$K�(B |
| |
�$B4X?t�(B {\tt SpairAndReduction} �$B$G�(B |
| |
�$B$I$N$h$&$J7W;;$,$J$5$l$F$$$k$+�(B $I$ �$B$N>l9g$K$_$F$_$h$&�(B. |
| |
|
| |
{\tt SpairAndReduction} �$B$N<B9T;~�(B |
| |
�$B$K<!$N$h$&$J%a%C%;!<%8$,$G$F$/$k�(B. |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
reductionTable= [ |
| |
[ 1 , 2 , 3 , 4 ] |
| |
[ 3 , 4 , 3 , 2 ] |
| |
[ 3 ] |
| |
] |
| |
[ 0 , 0 ] |
| |
Processing [level,i]= [ 0 , 0 ] Strategy = 1 |
| |
[ 0 , 1 ] |
| |
Processing [level,i]= [ 0 , 1 ] Strategy = 2 |
| |
[ 1 , 3 ] |
| |
Processing [level,i]= [ 1 , 3 ] Strategy = 2 |
| |
SpairAndReduction: |
| |
[ p and bases , [ [ 0 , 1 ] , [ -3*y*Dx , 2*x ] ] , |
| |
[-2*x*Dx-3*y*Dy+h^2 , -3*y*Dx^2+2*x*Dy*h , %[null] , %[null] ] ] |
| |
[ level= , 1 ] |
| |
[ tower2= , [ [ ] ] ] |
| |
[ -3*y*Dx , 2*es*x ] |
| |
[gi, gj] = [ -2*x*Dx-3*y*Dy+h^2 , -3*y*Dx^2+2*x*Dy*h ] |
| |
1 |
| |
Reduce the element 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h |
| |
by [ -2*x*Dx-3*y*Dy+h^2 , -3*y*Dx^2+2*x*Dy*h , %[null] , %[null] ] |
| |
result is [ 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h , 1 , [ 0 , 0 , 0 , 0 ] ] |
| |
vdegree of the original = 0 |
| |
vdegree of the remainder = 0 |
| |
[ 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h , |
| |
[ -3*y*Dx , 2*x , 0 , 0 ] , 3 , 2 , 0 , 0 ] |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B:G=i$KI=<($5$l$k�(B {\tt reductionTable} �$B$N0UL#$O$"$H$G@bL@$9$k�(B. |
| |
�$B<!$N9T$KCmL\$7$h$&�(B. �$B$3$3$G$O�(B {\tt skel[0,4]} �$B$N�(B S-pair |
| |
�$B$r7W;;$7$F�(Breduction �$B$7$F$$$k�(B. |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
SpairAndReduction: |
| |
[ p and bases , [ [ 0 , 1 ] , [ -3*y*Dx , 2*x ] ] , |
| |
[-2*x*Dx-3*y*Dy+h^2 , -3*y*Dx^2+2*x*Dy*h , %[null] , %[null] ] ] |
| |
\end{verbatim} |
| |
} \noindent |
| |
{\tt [0, 1]} �$B$O�(B $G'[0]$ �$B$H�(B $G'[1]$ �$B$N�(B sp �$B$r7W;;�(B |
| |
�$B$;$h$H$$$&0UL#$G$"$k�(B. |
| |
${\tt level} = 0$ �$B$G4{$K$b$H$^$C$F$$$k�(B �$B%V%l%V%J4pDl$O�(B |
| |
$G[0]$ �$B$H�(B $G[1]$ �$B$N$_$G$"$j�(B, |
| |
�$B$=$l$i$O$=$l$>$l�(B, |
| |
\verb# -2*x*Dx-3*y*Dy+h^2 , -3*y*Dx^2+2*x*Dy*h # |
| |
�$B$G$"$k�(B. |
| |
{\tt SpairAndReduction} �$B$O�(B $G[0]$, $G[1]$ �$B$N$_$rMQ$$$F�(B, |
| |
S-pair \\ |
| |
\verb# 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h # |
| |
�$B$r�(B reduction �$B$9$k�(B. |
| |
�$B7k6I�(B reduction �$B$N7k2L$O�(B 0 �$B$G$O$J$/$F�(B, \\ |
| |
\verb# 9*y^2*Dx*Dy+3*y*Dx*h^2+4*x^2*Dy*h # |
| |
�$B$H$J$k�(B. |
| |
LaScala �$B$N%"%k%4%j%:%`$N�(B 2 �$BG\$*F@%7%9%F%`$G�(B, |
| |
�$B$3$l$,?7$7$$%0%l%V%J4pDl$N85�(B {\tt G[place]} �$B$H$J$j�(B, |
| |
reduction �$B$N2aDx$h$j�(B syzygy �$B$bF@$i$l$k�(B. |
| |
|
| |
�$B$5$F�(B, $(u,v)$-�$B6K>.J,2r$r:n$k$K$O�(B, reduction �$B$7$?M>$j$,�(B |
| |
$(u,v)$-�$B%U%#%k%?!<$G�(B modulo �$B$7$F�(B $0$ �$B$+$I$&$+D4$Y$J$$$H$$$1$J$$�(B. |
| |
�$B$3$N$?$a�(B, |
| |
�$B4X?t�(B {\tt Sdegree()} �$B$rMQ$$$F�(B, reduction �$B$9$kA0$N85�(B, �$B$*$h$SM>$j$N�(B |
| |
�$B%7%U%HIU$-�(B $(u,v)$-order �$B$r7W;;$9$k�(B. |
| |
�$B$3$NNc$G$O�(B, �$BN>J}$H$b�(B $0$ �$B$G$"$k�(B. |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
vdegree of the original = 0 |
| |
vdegree of the remainder = 0 |
| |
\end{verbatim} |
| |
} |
| |
�$B$7$?$,$C$F�(B, modulo $(u,v)$-�$B%U%#%k%?!<$G$b�(B $0$ �$B$G$J$$�(B. |
| |
|
| |
�$B=`Hw@bL@$,$*$o$C$?�(B. �$B:G=i$N%W%m%0%i%`�(B {\tt SlaScala()} �$B$N@bL@$KLa$k�(B. |
| |
{\tt SpairAndReduction()} �$B$NLa$jCM�(B |
| |
{\tt f[0]} �$B$K$O�(B, reduction �$B$7$?M>$j�(B, |
| |
{\tt f[4]}, {\tt f[5]} �$B$K$O�(B, |
| |
reduction �$B$9$kA0$N85�(B, �$B$*$h$SM>$j$N�(B |
| |
�$B%7%U%HIU$-�(B $(u,v)$-order �$B$,3JG<$5$l$F$$$k�(B. |
| |
�$B$3$NNc$N>l9g$K$O�(B (�$B$m�(B) �$B$N>l9g$,<B9T$5$l$F�(B, |
| |
�$BIU?o$7$?�(B syzygy �$B$O�(B �$B6K>.<+M3J,2r$K$OITMW$J$b$N$H$7$F�(B |
| |
{\tt redundantTable} �$B$KEPO?$5$l$k�(B: |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
redundantTable[level-1,place] = redundant_seq; |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$BM>$j�(B {\tt f[0]} �$B$O�(B, laScala �$B$N%"%k%4%j%:%`$N�(B 2 �$BG\$*F@8=>]$GF@$i$l$?�(B, |
| |
�$B?7$7$$%V%l%V%J4pDl$N85$G$"$k$,�(B, �$B$3$l$rJ]B8$9$Y$->l=j$N%$%s%G%C%/%9$O�(B, |
| |
�$BLa$jCM�(B {\tt f[3]}({\tt place}) �$B$K3JG<$5$l$F$$$k�(B: |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
bases[place] = f[0]; |
| |
freeRes[level-1] = bases; |
| |
reducer[level-1,place] = f[1]; |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B$3$N�(B reduction �$B$GF@$i$l$?�(B syzygy (�$B$NK\<AE*ItJ,�(B)�$B$O�(B, |
| |
�$BJQ?t�(B {\tt reducer} �$B$KEPO?$5$l$k�(B. |
| |
�$B0J>e$G�(B $(u,v)$-�$B6K>.<+M3J,2rFCM-$N=hM}$NItJ,$N2r@b$r=*$($k�(B. |
| |
|
| |
|
| |
\bigbreak |
| |
�$B0J2<$G$O�(B, LaScala �$B$N%"%k%4%j%:%`$N$o$l$o$l$N<BAu$N35N,$HLdBjE@$r�(B |
| |
�$B=R$Y$k�(B. |
| |
|
| |
�$B$^$:�(B, �$BJQ?t�(B |
| |
{\tt reductionTable} �$B$N0UL#$r@bL@$7$h$&�(B. |
| |
LaScala �$B$N%"%k%4%j%:%`$G$O�(B, |
| |
{\tt level - Sdegree(s)} |
| |
�$B$N>.$5$$�(B S-pair �$B$+$i7W;;$7$F$$$/�(B. |
| |
�$B4X?t�(B {\tt Sdegree} �$B$O<!$N$h$&$K:F5"E*$KDj5A$5$l$F$$$k�(B. |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
/* f is assumed to be a monomial with toes. */ |
| |
def Sdegree(f,tower,level) { |
| |
local i,ww, wd; |
| |
/* extern WeightOfSweyl; */ |
| |
ww = WeightOfSweyl; |
| |
f = Init(f); |
| |
if (level <= 1) return(StotalDegree(f)); |
| |
i = Degree(f,es); |
| |
return(StotalDegree(f)+Sdegree(tower[level-2,i],tower,level-1)); |
| |
} |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B$3$3$G�(B {\tt StotalDegree(f)} �$B$O�(B $f$ �$B$NA4<!?t$G$"$k�(B. |
| |
|
| |
\noindent |
| |
�$B$5$F�(B, LaScala �$B$N%"%k%4%j%:%`$G$O�(B, |
| |
Resolution �$B$r2<$+$i=gHV$K7W;;$7$F$$$/$N$G$O$J$$�(B. |
| |
�$B$3$l$,K\<AE*$JE@$G$"$k�(B. |
| |
�$B$3$N=gHV$OJQ?t�(B {\tt reductionTable} �$B$K$O$C$F$$$k�(B. |
| |
$I$ �$B$NNc$G$O�(B |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
reductionTable= [ |
| |
[ 1 , 2 , 3 , 4 ] |
| |
[ 3 , 4 , 3 , 2 ] skel[0] �$B$KBP1~�(B |
| |
[ 3 ] skel[1] �$B$KBP1~�(B |
| |
] |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$B$H$J$k�(B. |
| |
|
| |
�$B8=:_$N<BAu$G$N7W;;B.EY�(B, �$B%a%b%j;HMQNL$N%\%H%k%M%C%/$r�(B |
| |
�$B;XE&$7$F$*$/�(B. |
| |
LaScala �$B$N%"%k%4%j%:%`$G$O�(B, Schreyer Frame �$B$r9=@.$7$F$+$i�(B, |
| |
�$B6K>.<+M3J,2r$r9=@.$9$k�(B. |
| |
�$B2<5-$N%W%m%0%i%`$NJQ?t�(B {\tt redundantTable[level,q]} �$B$K$O�(B, |
| |
�$BBP1~$9$k�(B syzygy �$B$H�(B �$B%0%l%V%J4pDl$N85$,2?2sL\$N�(B reduction �$B$G@8@.�(B |
| |
�$B$5$l$?$+$N?t$,$O$$$C$F$$$k�(B. |
| |
�$B6K>.<+M3J,2r$N9=@.$G$O�(B, �$B:G8e$N�(B reduction �$B$N�(B syzygy �$B$+$i;O$a$F�(B, |
| |
Schreyer resolution �$B$+$i6K>.<+M3J,2r$K$H$C$FM>J,$J85$r<h$j=|$$$F�(B |
| |
�$B$$$/�(B |
| |
({\tt seq} �$B$r�(B $1$ �$B$E$D8:$i$7$F$$$/�(B). |
| |
{\footnotesize |
| |
\begin{verbatim} |
| |
def Sminimal(g,opt) { |
| |
|
| |
.... |
| |
|
| |
while (seq > 1) { |
| |
seq--; |
| |
for (level = 0; level < maxLevel; level++) { |
| |
betti = Length(freeRes[level]); |
| |
for (q = 0; q<betti; q++) { |
| |
if (redundantTable[level,q] == seq) { |
| |
Print("[seq,level,q]="); Println([seq,level,q]); |
| |
if (level < maxLevel-1) { |
| |
bases = freeRes[level+1]; |
| |
dr = reducer[level,q]; |
| |
dr[q] = -1; |
| |
newbases = SnewArrayOfFormat(bases); |
| |
betti_levelplus = Length(bases); |
| |
/* |
| |
bases[i,j] ---> bases[i,j]+bases[i,q]*dr[j] |
| |
*/ |
| |
for (i=0; i<betti_levelplus; i++) { |
| |
newbases[i] = bases[i] + bases[i,q]*dr; |
| |
} |
| |
.... |
| |
} |
| |
.... |
| |
} |
| |
} |
| |
} |
| |
} |
| |
.... |
| |
} |
| |
\end{verbatim} |
| |
} \noindent |
| |
�$BLdBj$O�(B, |
| |
�$B6K>.<+M3J,2r<+BN$O$A$$$5$/$F$b�(B, Schreyer Frame �$B$,5pBg�(B ($10000$ �$BDxEY$N�(B |
| |
betti �$B?t�(B) �$B$H$J$k$3$H$bB?$$>l9g$,$"$k$3$H$G$"$k�(B. |
| |
�$B2<$NJQ?t�(B {\tt bases} �$B$K�(B, Schreyer resolution �$B$N�(B {\tt level} �$B<!$N�(B |
| |
syzygy �$B$r$$$l$F$$$k�(B. Schreyer Frame �$B$K�(B $10000$ �$BDxEY$N�(B betti |
| |
�$B?t$,$"$i$o$l$k$H$3$NJQ?t$O�(B �$B%5%$%:�(B $10000$ �$BDxEY$NG[Ns$H$J$k�(B. |
| |
�$B$5$i$K�(B, Schreyer �$BJ,2r$+$i6K>.<+M3J,2r$N$?$a$KITMW$J85$r$H$j$N$>$$$?�(B |
| |
�$BJ,2r$r:n$k$?$a$K�(B\\ |
| |
\verb# newbases[i] = bases[i] + bases[i,q]*dr; # \\ |
| |
�$B$J$k>C5n$r$*$3$J$$�(B, $0$ �$B$GKd$a$i$l$?Ns$^$?$O�(B $0$ �$B$GKd$a$i$l$?9T$r@8@.$7$F$$$k�(B. |
| |
�$B$3$NItJ,$,�(B, �$B%a%b%j$N;HMQ$r05Gw$7$F$*$j�(B, �$B7W;;;~4V$b$D$+$C$F$$$k�(B. |
| |
|
| |
|
| |
|
| \end{document} |
\end{document} |
| |
|
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