| version 1.1, 2000/05/19 11:16:51 |
version 1.11, 2000/08/02 05:14:30 |
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| $OpenXM$ |
$OpenXM: OpenXM/src/k097/lib/minimal/minimal-note-ja.txt,v 1.10 2000/08/01 08:51:02 takayama Exp $ |
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| SpairAndReduction() : |
SpairAndReduction() : |
| �$BM?$($i$l$?�(B pair �$B$r�(B reduction �$B$9$k�(B. |
�$BM?$($i$l$?�(B pair �$B$r�(B reduction �$B$9$k�(B. |
| Line 60 In(17)=sm1_pmat(a2[2]); |
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| Line 60 In(17)=sm1_pmat(a2[2]); |
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| [ -Dz , 3*Dx^2*h , Dy , -2*x*Dx-3*y*Dy-3*h^2 , -3*Dy*Dz , 0 ] |
[ -Dz , 3*Dx^2*h , Dy , -2*x*Dx-3*y*Dy-3*h^2 , -3*Dy*Dz , 0 ] |
| ] |
] |
| In(18)= |
In(18)= |
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--------------------------- |
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May 22, (Tue), 5:50 (Spain local time, 12:50 JST) |
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kan96xx/Kan/resol.c �$B$G�(B, |
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RemoveRedundantInSchreyerSkelton = 0 |
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�$B$KJQ$($F�(B (�$B$3$N�(B option �$B$b$"$?$i$7$/2C$($k�(B), schreyer �$B$,@5$7$/F0$/$+�(B |
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�$BD4$Y$k$3$H$K$9$k�(B. |
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( commit �$B$O�(B kan96xx �$B$H�(B k097 �$BN>J}$9$Y$7�(B.) |
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test8() �$B$G�(B sm1 �$B$G=q$$$?J}$N�(B Schreyer �$B$r8+$k$H�(B, |
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RemoveRedundantInSchreyerSkelton = 1 |
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�$B$G$b�(B, |
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kernel = image |
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�$B$H$J$C$F$$$k$N$G0J8e$3$N�(B option �$B$O�(B 1 �$B$N$^$^;H$&$3$H$H$9$k�(B. |
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�$BMW$9$k$K�(B k0 �$B$N%3!<%I$,$I$&$d$i$*$+$7$$$i$7$$�(B. |
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==> |
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6/8 �$B$N%N!<%H$h$j�(B. |
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syzygy �$B$r�(B homogenization �$B$r2p$7$F7W;;$9$k$N$OLdBj$"$j�(B. |
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--> usage of isExact |
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�$BMW$9$k$K�(B kernel = image �$B$N%3!<%I$bJQ�(B. Homogenized �$B$N$^$^$d$kI,MW$"$j�(B. |
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----------------------------------- |
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June 8, 2000 (Thu), 9:10 (Spain local time) |
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hol.sm1 : gb_h, syz_h, isSameIdeal, isSameIdeal_h |
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complex.sm1 : isExact, isExact_h |
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syzygy �$B$r�(B homogenization �$B$r2p$7$F7W;;$9$k$N$OLdBj$"$j�(B. |
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--> usage of isExact |
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[(Homogenize_vec) 0] system_variable : vector �$B$N�(B homogenize �$B$r$7$J$$�(B. |
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(grade) (module1v) switch_function : vector �$BJQ?t$O�(B, total |
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degree �$B$K?t$($J$$�(B. |
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==> �$BL58B%k!<%W$KCm0U�(B ---> gb_h, syz_h �$B$N�(B usage. |
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minimal-test.k �$B$N�(B ann(x^3-y^2*z^2) �$B$N�(B laplace �$BJQ49$N�(B |
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betti �$B?t$,JQ�(B, exact �$B$G$J$$�(B, �$B$r�(B isExact_h �$B$G�(B check |
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�$B$7$h$&�(B. |
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minimal-test.k |
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test10(); |
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LaScala-Stillman �$B$NJ}K!$G$D$/$C$?�(B, schreyer resol �$B$,�(B exact �$B$+�(B |
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�$BD4$Y$k�(B. |
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�$BNcBj$O�(B, ann(1/(x^3-y^2 z^2)) �$B$N�(B Laplace �$BJQ49�(B. |
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==> OK. IsExact_h �$B$G$7$i$Y$k�(B. (IsExact �$B$O$@$a$h�(B) |
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June 8, 2000 (Thu), 19:35 |
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load["minimal-test.k"];; |
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test11(); |
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LaScala-Stillman �$B$NJ}K!$G$D$/$C$?�(B, minimal resol �$B$,�(B exact �$B$+�(B |
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�$BD4$Y$k�(B. |
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�$BNcBj$O�(B, ann(1/(x^3-y^2 z^2)) �$B$N�(B Laplace �$BJQ49�(B. |
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SwhereInTower �$B$r;H$&$H$-$O�(B, |
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SsetTower() �$B$G�(B gbList �$B$rJQ99$7$J$$$H$$$1$J$$�(B. |
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�$B$b$A$m$s;HMQ$7$?$i�(B, �$B$=$l$rLa$9$3$H�(B. |
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SpairAndReduction, SpairAndReduction2 �$B$G�(B, |
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SsetTower(StowerOf(tower,level)); |
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pos = SwhereInTower(syzHead,tower[level]); |
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SsetTower(StowerOf(tower,level-1)); |
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pos2 = SwhereInTower(tmp[0],tower[level-1]); |
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�$B$H�(B, SwhereInTower �$B$NA0$K�(B setTower �$B$r$/$o$($?�(B. |
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( �$B0c$&%l%Y%k$G$NHf3S$N$?$a�(B.) |
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IsExact_h �$B$O�(B, 0 �$B%Y%/%H%k$r4^$`>l9g�(B, �$B$?$@$7$/F0:n$7$J$$$h$&$@�(B. |
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test11(). |
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test11a() �$B$G�(B, 0 �$B%Y%/%H%k$r<j$G=|$$$?9TNs$N�(B exactness �$B$r%A%'%C%/�(B. ==> OK. |
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--------------------------------- |
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June 9, 6:20 |
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SpairAndReduction |
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�$B$H�(B |
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SpairAndReduction2 |
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�$B$N0c$$�(B. |
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SpairAndReduction : SlaScala (LaScala-Stillman's algorithm �$B$G;H$&�(B) |
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SpairAndReduction2 : Sschreyer (schreyer algorithm �$B$G;H$&�(B, laScala �$B$O$J$7�(B.) |
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0 �$B$r<+F0$G=|$/%3!<%I$r=q$3$&�(B. |
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SpruneZeroRow() �$B$r�(B Sminimal() �$B$K2C$($?�(B. |
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test11() �$B$b@5$7$/F0:n$9$k$O$:�(B. |
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IsExact_h �$B$O�(B schreyer �$B$r�(B off �$B$7$F�(B, ReParse �$B$7$F$+$i�(B, |
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�$B8F$S=P$9$3$H�(B. |
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#ifdef TOTAL_STRATEGY |
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return(StotalDegree(f)+Sdegree(tower[level-2,i],tower,level-1)); |
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#endif |
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/* Strategy must be compatible with ordering. */ |
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/* Weight vector must be non-negative, too. */ |
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/* See Sdegree, SgenerateTable, reductionTable. */ |
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wd = Sord_w(f,ww); |
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return(wd+Sdegree(tower[level-2,i],tower,level-1)); |
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TOTAL_STRATEGY �$B$rMQ$$$kI,MW$,$"$k$N$G$O�(B?? |
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Example 1: Sweyl("x,y",[["x",-1,"y",-1,"Dx",1,"Dy",1]]); |
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v=[[2*x*Dx + 3*y*Dy+6, 0], |
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[3*x^2*Dy + 2*y*Dx, 0], |
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[0, x^2+y^2], |
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[0, x*y]]; |
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a=Sminimal(v); |
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strategy �$B$,$*$+$7$$$H$$$C$F$H$^$k�(B. �$BM}M3$O�(B? |
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a=test_ann3("x^3+y^3+z^3); �$B$O;~4V$,$+$+$j$=$&�(B. |
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a=test_ann3("x^3+y^3"); OK. |
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a=test_ann3("x^2+y^2+z"); OK. |
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�$B>e$N�(B example 1 �$B$N%(%i!<�(B �$B$N8+J}�(B: |
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Processing [ 1 , 3 ] Strategy = 2 |
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1 �$B$N�(B 3 �$BHVL\$N�(B spair �$B$N�(B reduction �$B$r=hM}Cf�(B. |
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In(7)=reductionTable: |
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[[ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
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-- �$B$3$l�(B. |
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SpairAndReduction: |
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[ p and bases , [ [ 0 , 3 ] , [ y*h , -x ] ] , [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , %[null] ] ] |
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0 �$B$N�(B 0 �$BHVL\$H�(B 3 �$BHVL\�(B �$B$N�(B spair �$B$r7W;;$7$F�(B, 0 �$B%l%Y%k$N�(B gb �$B$G�(B reduction. |
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[ 1 , 1 , 1 , 2 , 2 , 3 ] �$B$K$"$k$h$&$K�(B, strategy 3 �$B0J30$O7W;;$:$_�(B. |
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( �$B7W;;$7$F$J$$$b$N$O�(B %[null] �$B$H$J$C$F$k�(B. ) |
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[ level= , 1 ] |
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[ tower2= , [ [ ] ] ] ( �$B0lHV2<$J$N$G�(B, tower �$B$O$J$7$h�(B. ) |
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[ y*h , -es^3*x ] |
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[gi, gj] = [ 2*x*Dx+3*y*Dy+6*h^2 , 2*y*Dx*h+3*x^2*Dy ] |
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1 |
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Reduce the element 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy |
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by [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , %[null] ] |
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result is [ 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy , 1 , [ 0 , 0 , 0 , 0 , 0 , 0 ] ] |
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vdegree of the original = -1 |
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vdegree of the remainder = -1 |
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[ 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy , [ y*h , 0 , 0 , -x , 0 , 0 ] , 3 , 5 , -1 , -1 ] |
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In(11)=freeRes: |
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[ [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy ] , [ %[null] , [ 0 , 0 , y^2 , 0 , -x , 0 ] , [ 0 , -y , x , 0 , 1 , 0 ] , [ -y*h , 0 , 0 , x , 0 , 1 ] , %[null] ] , [ %[null] ] ] |
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�$B$r$_$l$P$o$+$k$h$&$K�(B, SlaScala �$B$G�(B, freeRes �$B$K$3$N85$,�(B [0,5] �$B$K2C$(�(B |
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�$B$i$l$?�(B. |
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�$B<!$K�(B SnextI �$B$,�(B SlaScala �$B$h$j8F$P$l$F$3$N%(%i!<�(B. |
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i = SnextI(reductionTable_tmp,strategy,redundantTable, |
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skel,level,freeRes); |
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In(22)=reductionTable: |
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[ [ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
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�$B$J$N$G�(B, �$B:G8e�(B �$B$N�(B 2 �$B$,=hM}$5$l$k$O$:$@$,�(B, |
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In(25)=skel[2]: |
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[ [ [ 0 , 2 ] , [ 1 , -y^2 ] ] ] |
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�$B$N$h$&$K�(B, 0 �$BHVL\$H�(B, 2 �$BHVL\$N�(B spair. |
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�$B$7$+$7�(B, |
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In(26)=bases: |
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[ %[null] , [ 0 , 0 , y^2 , 0 , -x , 0 ] , [ 0 , -y , x , 0 , 1 , 0 ] , [ -y*h , 0 , 0 , x , 0 , 1 ] , %[null] ] |
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�$B$N$h$&$K�(B, 0 �$BHVL\$O�(B strategy 3 �$B$J$N$G�(B, �$B$^$@$b$H$^$C$F$$$J$$�(B. |
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reductionTable_tmp=[ 2 ] |
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See also reductionTable, strategy, level,i |
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ERROR(sm): error operator : SnextI: bases[i] or bases[j] is null for all combinations. |
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--- Engine error or interrupt : In function : Error of class PrimitiveObject |
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Type in Cleards() to exit the debug mode and Where() to see the stack trace. |
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In(7)=reductionTable: |
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[ [ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
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In(8)=strategy: |
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2 |
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In(9)=level: |
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2 |
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RemoveRedundantInSchreyerSkelton = 0 |
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�$B$H$7$F$bF1$8%(%i!<�(B. |
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------------------------------------------------- |
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test_ann3("x*y+y*z+z*x"); OK. |
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6/9 (Fri) |
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Sminimal �$B$N<BAu$KAjJQ$o$i$:6lO+$7$F$^$9�(B. |
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Sevilla �$B$G$$$m$$$m$HD>$7$?7k2L�(B, |
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Sminimal �$B$O$&$^$/$&$4$1$P@5$7$$Ez$($r$@$7$F$k$_$?$$$G$9$,�(B |
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(D<h> : homogenized Weyl �$B$G�(B ker = im �$B$r�(B check �$B$7$F$k�(B, |
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V-adapted (strict) �$B$+$I$&$+$N�(B check routing �$B$O$^$@=q$$$F$J$$�(B), |
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strategy �$B$,$&$^$/$&$4$+$J$/$F$H$^$k>l9g$b$"$j$^$9�(B |
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( strategy = 2 �$B$N�(B sp �$B$r7W;;$9$k$N$K�(B, strategy 3 �$B$N�(B �$B85$rI,MW$H�(B |
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�$B$7$?$j$9$k>l9g$"$j�(B). |
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strategy �$B$O�(B |
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def Sdegree(f,tower,level) { |
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local i,ww, wd; |
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/* extern WeightOfSweyl; */ |
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ww = WeightOfSweyl; |
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f = Init(f); |
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if (level <= 1) return(StotalDegree(f)); |
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i = Degree(f,es); |
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return(StotalDegree(f)+Sdegree(tower[level-2,i],tower,level-1)); |
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} |
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�$B$rMQ$$$F�(B, |
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ans_at_each_floor[j] = Sdegree(tower[i,j],tower,i+1)-(i+1) |
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�$B$G7W;;$7$F$^$9�(B. |
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�$B$$$/$D$+=PNO$r$D$1$F$*$-$^$9$N$G�(B, �$B8!F$�(B!!! |
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�$BNc�(B 1: |
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load["minimal-test.k"];; |
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a=test_ann3("x^3-y^2*z^2"); �$B0z?t$N�(B annihilating ideal �$B$N�(B laplace �$BJQ49$N�(B |
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homogenization �$B$N�(B resolution. |
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weight vector �$B$O�(B (-1,-1,-1,1,1,1) |
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In(4)=sm1_pmat(a[1]); |
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[ |
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[ 0 �$B<!�(B |
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[ y*Dy-z*Dz ] |
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[ -2*x*Dx-3*z*Dz+h^2 ] |
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[ 2*x*Dy*Dz^2-3*y*Dx^2*h ] |
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[ 2*x*Dy^2*Dz-3*z*Dx^2*h ] |
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] |
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[ 1 �$B<!�(B |
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[ 3*Dx^2*h , 0 , Dy , -Dz ] |
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[ 6*x*Dy*Dz^2-9*y*Dx^2*h , -2*x*Dy*Dz^2+3*y*Dx^2*h , -2*x*Dx-3*y*Dy , 0 ] |
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[ 0 , 2*x*Dy^2*Dz-3*z*Dx^2*h , 0 , 2*x*Dx+3*z*Dz ] |
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[ 2*x*Dx+3*z*Dz-h^2 , y*Dy-z*Dz , 0 , 0 ] |
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[ 2*x*Dy*Dz , 0 , z , -y ] |
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] |
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[ 2 �$B<!�(B |
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[ -2*x*Dx-3*y*Dy-3*z*Dz-6*h^2 , -Dy , -Dz , 3*Dx^2*h , 3*Dy*Dz ] |
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[ 3*y*z , z , y , -2*x*Dy*Dz , 2*x*Dx ] |
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] |
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] |
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In(5)= |
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�$BNc�(B 2: |
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load["minimal-test.k"];; |
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a=test_ann3("x*y+y*z+z*x"); |
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In(6)=sm1_pmat(a[1]); |
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[ |
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[ 0 �$B<!�(B |
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[ 2*x*Dx+x*Dz-y*Dz+z*Dz+h^2 ] |
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[ -2*y*Dy+x*Dz-y*Dz-z*Dz-h^2 ] |
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[ -2*x*Dy+2*z*Dy+x*Dz-y*Dz+3*z*Dz+h^2 ] |
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[ -2*y*Dx+2*z*Dx-x*Dz+y*Dz+3*z*Dz+h^2 ] |
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] |
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[ 1 �$B<!�(B |
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[ y-z , x-z , -y , x ] |
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[ 2*Dy-2*Dz , 2*Dx-2*Dz , 2*Dx+2*Dz , -2*Dy-2*Dz ] |
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[ 2*y*Dx-2*z*Dx+x*Dz-y*Dz-3*z*Dz-2*h^2 , 0 , 0 , 2*x*Dx+x*Dz-y*Dz+z*Dz+2*h^2 ] |
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[ 2*y*Dy-2*z*Dy+y*Dz-z*Dz+h^2 , 2*x*Dz-y*Dz+2*z*Dz+h^2 , -x*Dz+z*Dz , 2*x*Dy+x*Dz ] |
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[ -2*y*Dy+2*z*Dy+y*Dz-z*Dz , y*Dz-4*z*Dz , -2*y*Dx+2*z*Dx-y*Dz+2*z*Dz , -2*z*Dy+y*Dz-3*z*Dz ] |
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] |
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[ 2 �$B<!�(B |
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[ -2*y*Dx+2*z*Dx-y*Dz+2*z*Dz , x*y-x*z-y*z+z^2 , y-z , y , x+y-z ] |
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[ -6*Dx*Dz-2*Dz^2 , x*Dz+y*Dz-5*z*Dz-4*h^2 , -2*Dy+2*Dz , 2*Dx+2*Dz , 4*Dz ] |
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] |
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] |
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In(7)= |
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�$BNc�(B 3: �$B$&$^$/9T$+$J$$Nc�(B: |
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Example 1: Sweyl("x,y",[["x",-1,"y",-1,"Dx",1,"Dy",1]]); |
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v=[[2*x*Dx + 3*y*Dy+6, 0], |
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[3*x^2*Dy + 2*y*Dx, 0], |
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[0, x^2+y^2], |
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[0, x*y]]; |
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a=Sminimal(v); |
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strategy �$B$,$*$+$7$$$H$$$C$F$H$^$k�(B. �$BM}M3$O�(B? |
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Negative weight vector �$B$r;H$o$J$$$H$-$A$s$HF0$-$^$9�(B. |
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DEBUG �$B=PNO�(B: |
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rf= [ |
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[ |
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[ Schreyer frame. |
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[ 0 , y^3 , 0 , 0 , -x^2 , 0 ] |
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[ 0 , 0 , y^2 , 0 , -x , 0 ] |
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[ 0 , y , -x , 0 , 0 , 0 ] |
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[ y*h , 0 , 0 , -x , 0 , 0 ] |
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[ 0 , 0 , 0 , 3*y*Dy , 0 , -2*Dx ] |
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] |
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[ |
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[ 1 , 0 , -y^2 , 0 , 0 ] |
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] |
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[ ] |
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] |
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[ |
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[ 2*x*Dx , e_*x^2 , e_*x*y , 2*y*Dx*h , e_*y^3 , 3*y^2*Dy*h ] |
| |
[ es*y^3 , es^2*y^2 , es*y , y*h , 3*es^3*y*Dy ] |
| |
[ 1 ] |
| |
] |
| |
[ |
| |
[ ] |
| |
[ |
| |
[ |
| |
[ 1 , 4 ] |
| |
[ y^3 , -x^2 ] |
| |
] |
| |
[ |
| |
[ 2 , 4 ] |
| |
[ y^2 , -x ] |
| |
] |
| |
[ |
| |
[ 1 , 2 ] |
| |
[ y , -x ] |
| |
] |
| |
[ |
| |
[ 0 , 3 ] |
| |
[ y*h , -x ] |
| |
] |
| |
[ |
| |
[ 3 , 5 ] |
| |
[ 3*y*Dy , -2*Dx ] |
| |
] |
| |
] |
| |
[ |
| |
[ |
| |
[ 0 , 2 ] |
| |
[ 1 , -y^2 ] |
| |
] |
| |
] |
| |
[ ] |
| |
] |
| |
[ resolution �$B$9$Y$-�(B �$BItJ,2C72�(B e_ �$B$O�(B �$B%Y%/%H%k@.J,$N%^!<%/�(B. |
| |
[ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy ] |
| |
] |
| |
] |
| |
|
| |
�$BN,�(B |
| |
Processing [ 1 , 3 ] Strategy = 2 |
| |
1 �$B$N�(B 3 �$BHVL\$N�(B spair �$B$N�(B reduction �$B$r=hM}Cf�(B. |
| |
In(7)=reductionTable: |
| |
[[ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
| |
-- �$B$3$l�(B. |
| |
SpairAndReduction: |
| |
[ p and bases , [ [ 0 , 3 ] , [ y*h , -x ] ] , [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , %[null] ] ] |
| |
0 �$B$N�(B 0 �$BHVL\$H�(B 3 �$BHVL\�(B �$B$N�(B spair �$B$r7W;;$7$F�(B, 0 �$B%l%Y%k$N�(B gb �$B$G�(B reduction. |
| |
[ 1 , 1 , 1 , 2 , 2 , 3 ] �$B$K$"$k$h$&$K�(B, strategy 3 �$B0J30$O7W;;$:$_�(B. |
| |
( �$B7W;;$7$F$J$$$b$N$O�(B %[null] �$B$H$J$C$F$k�(B. ) |
| |
[ level= , 1 ] |
| |
[ tower2= , [ [ ] ] ] ( �$B0lHV2<$J$N$G�(B, tower �$B$O$J$7$h�(B. ) |
| |
[ y*h , -es^3*x ] |
| |
[gi, gj] = [ 2*x*Dx+3*y*Dy+6*h^2 , 2*y*Dx*h+3*x^2*Dy ] |
| |
1 |
| |
Reduce the element 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy |
| |
by [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , %[null] ] |
| |
result is [ 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy , 1 , [ 0 , 0 , 0 , 0 , 0 , 0 ] ] |
| |
vdegree of the original = -1 |
| |
vdegree of the remainder = -1 |
| |
[ 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy , [ y*h , 0 , 0 , -x , 0 , 0 ] , 3 , 5 , -1 , -1 ] |
| |
|
| |
In(11)=freeRes: |
| |
[ [ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy ] , [ %[null] , [ 0 , 0 , y^2 , 0 , -x , 0 ] , [ 0 , -y , x , 0 , 1 , 0 ] , [ -y*h , 0 , 0 , x , 0 , 1 ] , %[null] ] , [ %[null] ] ] |
| |
�$B$r$_$l$P$o$+$k$h$&$K�(B, SlaScala �$B$G�(B, freeRes �$B$K$3$N85$,�(B [0,5] �$B$K2C$(�(B |
| |
�$B$i$l$?�(B. |
| |
|
| |
�$B<!$K�(B SnextI �$B$,�(B SlaScala �$B$h$j8F$P$l$F$3$N%(%i!<�(B. |
| |
i = SnextI(reductionTable_tmp,strategy,redundantTable, |
| |
skel,level,freeRes); |
| |
In(22)=reductionTable: |
| |
[ [ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
| |
�$B$J$N$G�(B, �$B:G8e�(B �$B$N�(B 2 �$B$,=hM}$5$l$k$O$:$@$,�(B, |
| |
In(25)=skel[2]: |
| |
[ [ [ 0 , 2 ] , [ 1 , -y^2 ] ] ] |
| |
�$B$N$h$&$K�(B, 0 �$BHVL\$H�(B, 2 �$BHVL\$N�(B spair. |
| |
�$B$7$+$7�(B, |
| |
In(26)=bases: |
| |
[ %[null] , [ 0 , 0 , y^2 , 0 , -x , 0 ] , [ 0 , -y , x , 0 , 1 , 0 ] , [ -y*h , 0 , 0 , x , 0 , 1 ] , %[null] ] |
| |
�$B$N$h$&$K�(B, 0 �$BHVL\$O�(B strategy 3 �$B$J$N$G�(B, �$B$^$@$b$H$^$C$F$$$J$$�(B. |
| |
|
| |
reductionTable_tmp=[ 2 ] |
| |
See also reductionTable, strategy, level,i |
| |
ERROR(sm): error operator : SnextI: bases[i] or bases[j] is null for all combinations. |
| |
--- Engine error or interrupt : In function : Error of class PrimitiveObject |
| |
|
| |
Type in Cleards() to exit the debug mode and Where() to see the stack trace. |
| |
In(7)=reductionTable: |
| |
[ [ 1 , 1 , 1 , 2 , 2 , 3 ] , [ 3 , 2 , 1 , 2 , 3 ] , [ 2 ] ] |
| |
In(8)=strategy: |
| |
2 |
| |
In(9)=level: |
| |
2 |
| |
�$B$3$N;~E@$^$G$G$b$H$^$C$?�(B basis |
| |
[ |
| |
[ 2*x*Dx+3*y*Dy+6*h^2 , e_*x^2+e_*y^2 , e_*x*y , 2*y*Dx*h+3*x^2*Dy , e_*y^3 , 3*y^2*Dy*h+6*y*h^3-3*x^3*Dy ] |
| |
[ %[null] , [ 0 , 0 , y^2 , 0 , -x , 0 ] , [ 0 , -y , x , 0 , 1 , 0 ] , [ -y*h , 0 , 0 , x , 0 , 1 ] , %[null] ] |
| |
[ %[null] ] |
| |
] |
| |
|
| |
------------------------------------- |
| |
|
| |
Sweyl("x,y",[["x",-1,"y",-1,"Dx",1,"Dy",1]]); |
| |
a=Sminimal([x^2+y^2,x*y]); |
| |
�$B$3$l$G$b;w$?$h$&$J%(%i!<$r$@$;$k�(B. |
| |
�$B$3$NJ}$,�(B debug �$B$7$d$9$$�(B: |
| |
Sweyl("x,y",[["x",-1,"y",-1,"Dx",1,"Dy",1]]); |
| |
a=Sminimal([x*y,x^2+y^2]); |
| |
�$B$G$O%(%i!<$,$G$J$$$N$,IT;W5D�(B. |
| |
pruneZero �$B$,F0$$$F$J$$$N$,JQ�(B. |
| |
|
| |
rf= [ |
| |
[ |
| |
[ |
| |
[ y^3 , 0 , -x^2 ] |
| |
[ 0 , y^2 , -x ] |
| |
[ y , -x , 0 ] |
| |
] |
| |
[ |
| |
[ 1 , 0 , -y^2 ] |
| |
] |
| |
[ ] |
| |
] |
| |
[ |
| |
[ x^2 , x*y , y^3 ] |
| |
[ y^3 , es*y^2 , y ] |
| |
[ 1 ] |
| |
] |
| |
[ |
| |
[ ] |
| |
[ |
| |
[ |
| |
[ 0 , 2 ] |
| |
[ y^3 , -x^2 ] |
| |
] |
| |
[ |
| |
[ 1 , 2 ] |
| |
[ y^2 , -x ] |
| |
] |
| |
[ |
| |
[ 0 , 1 ] |
| |
[ y , -x ] |
| |
] |
| |
] |
| |
[ |
| |
[ |
| |
[ 0 , 2 ] |
| |
[ 1 , -y^2 ] |
| |
] |
| |
] |
| |
[ ] |
| |
] |
| |
[ |
| |
[ x^2+y^2 , x*y , y^3 ] |
| |
] |
| |
] |
| |
[ 0 , 0 ] |
| |
Processing [ 0 , 0 ] Strategy = 1 |
| |
[ 0 , 1 ] |
| |
Processing [ 0 , 1 ] Strategy = 1 |
| |
[ 1 , 2 ] |
| |
Processing [ 1 , 2 ] Strategy = 1 |
| |
SpairAndReduction: |
| |
[ p and bases , [ [ 0 , 1 ] , [ y , -x ] ] , [ x^2+y^2 , x*y , %[null] ] ] |
| |
[ level= , 1 ] |
| |
[ tower2= , [ [ ] ] ] |
| |
[ y , -es*x ] |
| |
[gi, gj] = [ x^2+y^2 , x*y ] |
| |
1 |
| |
Reduce the element y^3 |
| |
by [ x^2+y^2 , x*y , %[null] ] |
| |
result is [ y^3 , 1 , [ 0 , 0 , 0 ] ] |
| |
vdegree of the original = -3 |
| |
vdegree of the remainder = -3 |
| |
[ y^3 , [ y , -x , 0 ] , 2 , 2 , -3 , -3 ] |
| |
[ 0 , 2 ] |
| |
Processing [ 0 , 2 ] Strategy = 2 |
| |
[ 1 , 1 ] |
| |
Processing [ 1 , 1 ] Strategy = 2 |
| |
SpairAndReduction: |
| |
[ p and bases , [ [ 1 , 2 ] , [ y^2 , -x ] ] , [ x^2+y^2 , x*y , y^3 ] ] |
| |
[ level= , 1 ] |
| |
[ tower2= , [ [ ] ] ] |
| |
[ es*y^2 , -es^2*x ] |
| |
[gi, gj] = [ x*y , y^3 ] |
| |
1 |
| |
Reduce the element 0 |
| |
by [ x^2+y^2 , x*y , y^3 ] |
| |
result is [ 0 , 1 , [ 0 , 0 , 0 ] ] |
| |
vdegree of the original = -4 |
| |
vdegree of the remainder = %[null] |
| |
[ 0 , [ 0 , y^2 , -x ] , 1 , -1 , -4 , %[null] ] |
| |
reductionTable_tmp=[ 2 ] |
| |
See also reductionTable, strategy, level,i |
| |
ERROR(sm): error operator : SnextI: bases[i] or bases[j] is null for all combinations. |
| |
--- Engine error or interrupt : In function : Error of class PrimitiveObject |
| |
|
| |
Type in Cleards() to exit the debug mode and Where() to see the stack trace. |
| |
In(10)=reductionTable : |
| |
[ [ 1 , 1 , 2 ] , [ 3 , 2 , 1 ] , [ 2 ] ] |
| |
In(11)=bases: |
| |
[ %[null] , [ 0 , y^2 , -x ] , [ -y , x , 1 ] ] |
| |
In(12)= �$B$3$l$O�(B, [3, 2, 1] �$B$N85$N$&$A�(B, 2,1 �$B$,$b$H$^$C$F$$$k�(B. |
| |
�$B:G8e$N�(B [ 2 ] �$B$N7W;;$K�(B 0 �$BHVL\$,I,MW$G$3$l$,$^$@$J$$�(B. |
| |
�$BMW$9$k$K�(B 1 �$BHVL\$H�(B 3 �$BHVL\$r>C$9�(B operator [1, 0, -y^2] |
| |
[ y^3 , 0 , -x^2 ] |
| |
[ 0 , y^2 , -x ] |
| |
[ y , -x , 0 ] |
| |
�$B$N�(B reduction �$B$,I,MW�(B. |
| |
|
| |
----------------------------------------- |
| |
June 11, 2000 (Tue), 20:05 |
| |
V-strict �$B$+$I$&$+$r%A%'%C%/$9$k4X?t$r=q$-$?$$�(B. |
| |
�$B0BA4$K�(B ring (schreyer order) �$B$rDj5A$9$k4X?t$,M_$7$$�(B. |
| |
�$B0BA4$K�(B parse �$B$9$k4X?t$bM_$7$$�(B. |
| |
�$B%Y%/%H%k$H�(B es �$BI=8=$NJQ494X?t$b$$$k�(B. |
| |
|
| |
AvoidTheSameRing == 1 �$B$J$i�(B, schreyer �$B$N�(B gbList �$B$bJQ99$G$-$J$$$h$&$K�(B |
| |
�$B$9$Y$-$+!)�(B |
| |
�$B4XO"JQ?t�(B: |
| |
needWarningForAvoidTheSameRing |
| |
isTheSameRing() : ring �$B$,F1$8$+�(B check. pointer �$B$G$J$/Cf?H$^$G$_$k�(B. |
| |
see poly4.c. �$B$3$3$N%3%a%s%H$O;29M$K$J$k�(B. |
| |
3.If Schreyer = 1, then the system always generates a new ring. |
| |
|
| |
define_ring �$B$K�(B gbList �$B$bEO$;$k$N�(B? |
| |
==> set_up_ring@ �$B$r8+$k�(B. grep set_up_ring ==> |
| |
primitive.c KsetUpRing() grep KsetUpRing ==> |
| |
keyword gbListTower �$B$,;H$($k$,�(B, list �$B$GM?$($J$$$H$$$1$J$$�(B. |
| |
list �$B$KJQ49$9$k$N$O�(B, (list) dc. |
| |
|
| |
tparse �$B$NI,MW$J$o$1�(B? |
| |
?? �$B$*$b$$$@$;$J$$�(B. |
| |
|
| |
ring_def �$B$G�(B ring (schreyer order) �$B$rDj5A$9$k$H�(B, �$B7W;;$N$H$-$N�(B |
| |
order �$B$b�(B tower �$B$G$d$C$F$/$l$k$N�(B? |
| |
�$BB?J,�(B NO. |
| |
grep ppAdd *.c ==> |
| |
poly2.c |
| |
checkRing(f,g); |
| |
|
| |
while (f != POLYNULL && g != POLYNULL) { |
| |
/*printf("%s + %s\n",POLYToString(f,'*',1),POLYToString(g,'*',1));*/ |
| |
checkRing2(f,g); /* for debug */ |
| |
gt = (*mmLarger)(f,g); |
| |
|
| |
mmLarger �$B$OJQ$($F$J$$$h$&$K8+$($k�(B. checkRing �$B$O%^%/%m�(B. |
| |
|
| |
mmLarger_tower �$B$O�(B |
| |
if (!(f->m->ringp->schreyer) || !(g->m->ringp->schreyer)) |
| |
return(mmLarger_matrix(f,g)); |
| |
�$B$H$J$C$F$k$N$G�(B mmLarger_tower �$B$r�(B default �$B$K$7$F$*$1$P?4G[$J$$$h$&$K8+$($k�(B. |
| |
|
| |
ring_def �$B$O@5$7$/F0$/�(B? |
| |
|
| |
TODO: |
| |
�$B4X?t$N;EMM�(B: ( new.sm1 �$B$^$?$O�(B complex.sm1 �$B$K$*$$$H$/�(B ) |
| |
mmLarger �$B$O�(B tower �$B$KJQ$($F$7$^$&�(B. |
| |
�$BJQ?tL>�(B, weight vector, �$B%7%U%H%Y%/%H%k�(B m �$B$rM?$($k$H�(B ring (with schreyer order) |
| |
�$B$r:n$k�(B. ==> weyl<m>, weyl |
| |
parser �$B$O$H$/$K:n$kI,MW$,$J$$$h$&$K8+$($k$,�(B...(tparse) ==> name |
| |
�$B%Y%/%H%k�(B <---> es �$BI=8=�(B cf. toVectors, [(toe_) f] gbext ==> name |
| |
�$BE,@Z$J�(B homogenization �$B4X?t�(B ==> homogenize<m> |
| |
ord_w �$B$N�(B schreyer �$BHG�(B ==> ord_w<m> |
| |
init �$B$N�(B schreyer �$BHG�(B ==> init<m> |
| |
gb_h, syz_h �$B$NBP1~HG�(B ==> [ ii vv ww m] syz_h |
| |
resolution �$B$+$i�(B shift vector �$B$r7W;;$9$k4X?t�(B. |
| |
|
| |
�$B7k2L$N�(B check �$B$r$9$k�(B assert �$B4X?t$bI,MW�(B. |
| |
|
| |
�$B>e$N�(B �$B%7%U%H%Y%/%H%kBP1~HG$N4X?t$OEvJ,�(B new.sm1 �$B$X�(B. �$B$=$N$"$H�(B complex.sm1 �$B$X�(B. |
| |
|
| |
cohom.sm1 �$B$N�(B interface �$B4X?t$O�(B cohom.k �$B$X�(B. |
| |
Help key word �$B$O�(B (Cohom.deRham) �$B$_$?$$$K�(B, . �$B$G$/$.$C$F=q$/�(B. |
| |
|
| |
---------------------- |
| |
�$B%(%i!<$N860x$,$h$&$d$/$o$+$k�(B: June 14, 19:00 |
| |
Schreyer frame �$B$NCJ3,$G�(B syz �$B$K�(B 1 �$B$,$"$k$H�(B strategy �$B$,�(B |
| |
�$B$O$?$i$+$J$$�(B. |
| |
|
| |
test13() GKZ �$B$N�(B minimal free resolution. 2 �$BEY<B9T$9$k$HJQ�(B. |
| |
grade �$B$,JQ99$5$l$k$H�(B, �$BJQ$J$3$H$,$*$-$k$N$G�(B, |
| |
ScheckIfSchreyer() �$B4X?t$G�(B, �$B$3$l$r�(B scheck �$B$9$k$3$H$K$7$?�(B. |
| |
sm1(" (report) (mmLarger) switch_function /ss set "); |
| |
�$B$O$^$@$d$a$H$/�(B. matrix �$B$K$J$C$F$k$N$G�(B. |
| |
|
| |
------------------------------------------ |
| |
June 15, 2000 |
| |
TODO: |
| |
1.if (IdenfityIntegerAndUniversalNumber) �$B$N$H$-�(B --- default |
| |
lt, gt, eq �$B$G�(B integer �$B$H�(B universalNumber �$B$NHf3S$,$G$-$k$h$&$K$9$k�(B. |
| |
rational �$B$H$NHf3S$b2DG=$K$9$k�(B. |
| |
|
| |
2. sm1_push_int0 �$B$KBP1~$9$k$3$H$r�(B, sm1 �$B$NB&$G$d$k�(B. |
| |
�$B%^%/%mL>�(B obj to_int --> Done. |
| |
weight_vector �$B$N�(B universalNumber ==> �$B$^$@�(B. �$B%(%i!<$r$@$5$J$$$N$,$3$o$$�(B. |
| |
s_weight_vector |
| |
weightv |
| |
ord_w |
| |
toVectors |
| |
define_ring |
| |
init |
| |
gkz |
| |
|
| |
------------- |
| |
Schreyer skelton �$B$,$I$&$7$F�(B 1 �$B$rMWAG$K$b$D$+$7$i$Y$k�(B. |
| |
|
| |
June 24 (Sat), 22:30 at Posthouse (Heathrow) www.posthouse-hotels.com |
| |
Sevilla �$BBZ:_�(B, Mega �$B$b$h$&$d$/$*$o$j�(B minimal resolution �$B$N�(B check �$B$KLa$k�(B. |
| |
resol1.c �$B$K<!$N�(B line �$B$r2C$($?�(B. |
| |
/* If isConstant(sv.a) is added, (x^3 - y^2 z^2) deRham stops |
| |
with an error. I've not yet understood the reason. |
| |
At Posthouse at Heathrow. June 24, 2000 */ |
| |
if (isConstant(sv.b)) { |
| |
s->deleted = 1; |
| |
} |
| |
===> �$B$*$+$7$$$N$G:o=|�(B. |
| |
|
| |
isConstant(sv.a) �$B$,$J$$$H�(B, �$B$3$s$I$O�(B, |
| |
Sminimal([x^2+y^2,x*y]); �$B$,%(%i!<$G$H$^$k�(B. |
| |
(x,y �$B$N�(B weight �$B$O�(B -1). |
| |
LaScala-Stillman �$B$NO@J8$r$b$&0lEY$J$,$a$h$&�(B. |
| |
|
| |
commit �$B$9$Y$-�(B: misc/mega2000 (cvs-misc add) Done. |
| |
OpenXM/src/kan96xx Done. |
| |
OpenXM/src/k097/lib/minimal Done. |
| |
|
| |
July 26. |
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resol.c �$B$N�(B schreyerSkelton0 �$B$G�(B, skelton �$B$,�(B minimal �$B$K$J$k$h$&$K�(B |
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�$B%3!<%I$rA^F~�(B. |
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�$B%F%9%H$O�(B |
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cd src/k097/lib/minimal |
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k0 |
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load["minimal.k"];; |
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Sweyl("x,y",[["x",-1,"y",-1,"Dx",1,"Dy",1]]); |
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Sminimal([x^2+y^2,x*y]); |
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�$B$G�(B. |
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|
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LaScala-Stillman �$B$NO@J85U$G�(B i<j �$B$J$i�(B e_i > e_j �$B$H$J$k�(B. |
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(order.c mmLarger_tower()) |
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|
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�$B%F%9%H�(B 2. |
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cd src/k097/lib/minimal |
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k0 |
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load["minimal-test.k"];; |
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v: |
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Sminimal(v); |
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|
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test11(); /* a = test_ann3("x^3-y^2*z^2"); */ |
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test14(); /* gkz (1,2,3) */ |
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|
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July 30. Removed unnecessary code. |
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�$BNc�(B: |
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Sminimal("x^3-y^2"); |
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test12() ( x^3-y^2 z^2) |
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test15() GKZ 1,2,3 with a check. |
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test15b() toric |
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test15c() (u,v) = (-1,1) |
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|
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August 1. |
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(u,v)-minimal �$B$N%F%9%H%3!<%I$r$$$l$?�(B. |
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IsExact_h �$B$G�(B �$BJQ?t�(B c �$B$NCM$,$+$o$k�(B. �$B860xITL@�(B. |
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c=Sinit_w(b,w); |
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Println("Resolution (b)----"); |
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sm1_pmat(b); |
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Println("Initial (c)----"); |
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sm1_pmat(c); cc=c; |
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Println("Exactness of the resolution ---"); |
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Println(IsExact_h(b,v)); /* IsExact_h breaks the variable c. |
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THIS BUG SHOULD BE FIXED. */ |
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�$B$3$N$"$H$J$<$+�(B, c �$B$,�(B b �$B$NCM$K$+$o$C$F$7$^$&�(B. |
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�$B$J$*�(B def IsExact(c,...) �$B$HDj5A$5$l$F$*$j�(B, �$B$3$N�(B c �$B$rJL$NJQ?tL>$K�(B |
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�$BJQ$($l$P$3$NLdBj$O$*$-$J$$�(B. |
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Println("Why is the initial c rewritten by b? (buggy) ");sm1_pmat(c[0]); |
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|
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===> complex.sm1 �$B$N�(B isExact_h (isExact) �$B$G�(B popVariables �$B$rK:$l$F$?$@$1�(B. |
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|
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betti �$B?t$O�(B, �$B9TNs$N>C5n$r$d$k$^$G$o$+$i$J$$$N�(B? |
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SbettiTable(). |
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|
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Sminimal �$B$O�(B [(Homogenize_vec) 0] system_variable �$B$K$9$k$h$&$G�(B, |
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�$B$3$l$,�(B cohomology �$B$N7W;;$K$O<YKb�(B. |
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|
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August 2, 2000. |
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|
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Sminimal �$B$O�(B [(Homogenize_vec) 0] system_variable �$B$K$9$k$h$&$G�(B, |
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�$B$3$l$,�(B cohomology �$B$N7W;;$K$O<YKb�(B. |
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( cf. �$BBg0$5W;a$N%9%/%j%W%H�(B. �$B8=:_?@8M$KBZ:_Cf�(B. ) |
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|
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/restoreEnvAfterResolution { |
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[(AvoidTheSameRing)] pushEnv |
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[ [(AvoidTheSameRing) 0] system_variable |
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[(gbListTower) [[ ]] (list) dc] system_variable |
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] pop popEnv |
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setupEnvForResolution.opts restoreOptions <=== �$BJQ99�(B. opts �$B$O$$$m$s$J$H$3$m$G;H$C$F$k�(B. |
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} def |
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�$B$3$N%^%/%m$r$h$Y$P$$$$$N$+!)�(B |
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sm1(" restoreEnvAfterResolution "); |
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�$B$r�(B Sminimal �$B$N$*$o$j$K8F$V$h$&$KJQ$($?�(B. |
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test17b(), test18() �$B$O@5>oF0:n�(B. |
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