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D.15.1.1 autKS

Procedure from library autgradalg.lib (see autgradalg_lib).

Usage:
autKS(TOR); TOR: optional list of elementary divisors in case of torsion.

Assume:
the basering is multigraded having used the command setBaseMultigrading(Q) from 'multigrading.lib'.

Purpose:
Compute the subgroup Aut_K(S) of GL(n) of graded automorphisms of the polynomial ring S (the basering).

Return:
returns a ring S and exports an ideal ideal Iexported in the coordinate ring S = K[Y_ij] of GL(n) such that Aut_K(S) = V(I).

Example:
 
LIB "autgradalg.lib";
//////////////////
// example: fano 15:
intmat Q[1][5] = 3,3,2,2,1;
ring R = 0,T(1..5),dp;
// attach degree matrix Q to R:
setBaseMultigrading(Q);
//ideal I = T(1)*T(2) + T(3)^2*T(4) + T(5)^6;
def S = autKS();
==> // coefficients: QQ
==> // number of vars : 50
==> //        block   1 : ordering dp
==> //                  : names    T(1) T(2) T(3) T(4) T(5) Y(1) Y(2) Y(3) Y(\
   4) Y(5) Y(6) Y(7) Y(8) Y(9) Y(10) Y(11) Y(12) Y(13) Y(14) Y(15) Y(16) Y(1\
   7) Y(18) Y(19) Y(20) Y(21) Y(22) Y(23) Y(24) Y(25) Y(26) Y(27) Y(28) Y(29\
   ) Y(30) Y(31) Y(32) Y(33) Y(34) Y(35) Y(36) Y(37) Y(38) Y(39) Y(40) Y(41)\
    Y(42) Y(43) Y(44) Y(45)
==> //        block   2 : ordering C
setring S;
dim(std(Iexported));
==> 17
basering;
==> // coefficients: QQ
==> // number of vars : 46
==> //        block   1 : ordering dp
==> //                  : names    Y(1) Y(2) Y(3) Y(4) Y(5) Y(6) Y(7) Y(8) Y(\
   9) Y(10) Y(11) Y(12) Y(13) Y(14) Y(15) Y(16) Y(17) Y(18) Y(19) Y(20) Y(21\
   ) Y(22) Y(23) Y(24) Y(25) Y(26) Y(27) Y(28) Y(29) Y(30) Y(31) Y(32) Y(33)\
    Y(34) Y(35) Y(36) Y(37) Y(38) Y(39) Y(40) Y(41) Y(42) Y(43) Y(44) Y(45)
==> //        block   2 : ordering dp
==> //                  : names    Z
==> //        block   3 : ordering C
autKSexported;
==> [1]:
==>    [1]:
==>       _[1,1]=Y(1)
==>       _[1,2]=Y(2)
==>       _[1,3]=0
==>       _[1,4]=0
==>       _[1,5]=0
==>       _[1,6]=Y(6)
==>       _[1,7]=Y(7)
==>       _[1,8]=0
==>       _[1,9]=Y(9)
==>       _[2,1]=Y(10)
==>       _[2,2]=Y(11)
==>       _[2,3]=0
==>       _[2,4]=0
==>       _[2,5]=0
==>       _[2,6]=Y(15)
==>       _[2,7]=Y(16)
==>       _[2,8]=0
==>       _[2,9]=Y(18)
==>       _[3,1]=0
==>       _[3,2]=0
==>       _[3,3]=Y(21)
==>       _[3,4]=Y(22)
==>       _[3,5]=0
==>       _[3,6]=0
==>       _[3,7]=0
==>       _[3,8]=Y(26)
==>       _[3,9]=0
==>       _[4,1]=0
==>       _[4,2]=0
==>       _[4,3]=Y(30)
==>       _[4,4]=Y(31)
==>       _[4,5]=0
==>       _[4,6]=0
==>       _[4,7]=0
==>       _[4,8]=Y(35)
==>       _[4,9]=0
==>       _[5,1]=0
==>       _[5,2]=0
==>       _[5,3]=0
==>       _[5,4]=0
==>       _[5,5]=Y(41)
==>       _[5,6]=0
==>       _[5,7]=0
==>       _[5,8]=0
==>       _[5,9]=0
==>       _[6,1]=0
==>       _[6,2]=0
==>       _[6,3]=0
==>       _[6,4]=0
==>       _[6,5]=0
==>       _[6,6]=Y(21)*Y(41)
==>       _[6,7]=Y(22)*Y(41)
==>       _[6,8]=0
==>       _[6,9]=Y(26)*Y(41)
==>       _[7,1]=0
==>       _[7,2]=0
==>       _[7,3]=0
==>       _[7,4]=0
==>       _[7,5]=0
==>       _[7,6]=Y(30)*Y(41)
==>       _[7,7]=Y(31)*Y(41)
==>       _[7,8]=0
==>       _[7,9]=Y(35)*Y(41)
==>       _[8,1]=0
==>       _[8,2]=0
==>       _[8,3]=0
==>       _[8,4]=0
==>       _[8,5]=0
==>       _[8,6]=0
==>       _[8,7]=0
==>       _[8,8]=Y(41)^2
==>       _[8,9]=0
==>       _[9,1]=0
==>       _[9,2]=0
==>       _[9,3]=0
==>       _[9,4]=0
==>       _[9,5]=0
==>       _[9,6]=0
==>       _[9,7]=0
==>       _[9,8]=0
==>       _[9,9]=Y(41)^3
==>    [2]:
==>       1
==>    [3]:
==>       _[1]=Y(3)
==>       _[2]=Y(4)
==>       _[3]=Y(5)
==>       _[4]=Y(8)
==>       _[5]=Y(12)
==>       _[6]=Y(13)
==>       _[7]=Y(14)
==>       _[8]=Y(17)
==>       _[9]=Y(19)
==>       _[10]=Y(20)
==>       _[11]=Y(23)
==>       _[12]=Y(24)
==>       _[13]=Y(25)
==>       _[14]=Y(27)
==>       _[15]=Y(28)
==>       _[16]=Y(29)
==>       _[17]=Y(32)
==>       _[18]=Y(33)
==>       _[19]=Y(34)
==>       _[20]=Y(36)
==>       _[21]=Y(37)
==>       _[22]=Y(38)
==>       _[23]=Y(39)
==>       _[24]=Y(40)
==>       _[25]=Y(42)
==>       _[26]=Y(43)
==>       _[27]=Y(44)
==>       _[28]=Y(45)
==>       _[29]=-Y(2)*Y(10)*Y(22)^2*Y(30)^2*Y(41)^8*Z+Y(1)*Y(11)*Y(22)^2*Y(30\
   )^2*Y(41)^8*Z+2*Y(2)*Y(10)*Y(21)*Y(22)*Y(30)*Y(31)*Y(41)^8*Z-2*Y(1)*Y(11)\
   *Y(21)*Y(22)*Y(30)*Y(31)*Y(41)^8*Z-Y(2)*Y(10)*Y(21)^2*Y(31)^2*Y(41)^8*Z+Y\
   (1)*Y(11)*Y(21)^2*Y(31)^2*Y(41)^8*Z-1
==>    [4]:
==>       T(1),T(2),T(3),T(4),T(5),T(3)*T(5),T(4)*T(5),T(5)^2,T(5)^3
getVariableWeights();
==> 3,3,2,2,1,3,3,2,3,3,3,2,2,1,3,3,2,3,3,3,2,2,1,3,3,2,3,3,3,2,2,1,3,3,2,3,3\
   ,3,2,2,1,3,3,2,3,-22 
kill S, Q, R;
/////////////
// example 3.14 from the paper
intmat Q[3][5] =
1,1,1,1,1,
1,-1,0,0,1,
1,1,1,0,0;
list TOR = 2;
ring R = 0,T(1..5),dp;
// attach degree matrix Q to R:
setBaseMultigrading(Q);
//ideal I = T(1)*T(2) + T(3)^2 + T(4)^2;
def S = autKS();
==> // coefficients: QQ
==> // number of vars : 30
==> //        block   1 : ordering dp
==> //                  : names    T(1) T(2) T(3) T(4) T(5) Y(1) Y(2) Y(3) Y(\
   4) Y(5) Y(6) Y(7) Y(8) Y(9) Y(10) Y(11) Y(12) Y(13) Y(14) Y(15) Y(16) Y(1\
   7) Y(18) Y(19) Y(20) Y(21) Y(22) Y(23) Y(24) Y(25)
==> //        block   2 : ordering C
==> // ** redefining adMons (  list adMons;) autgradalg.lib::autKS:2325
==> // ** redefining MONexported (  export(MONexported);)
setring S;
Iexported;
==> Iexported[1]=Y(23)
==> Iexported[2]=Y(22)
==> Iexported[3]=Y(21)
==> Iexported[4]=Y(18)
==> Iexported[5]=Y(17)
==> Iexported[6]=Y(16)
==> Iexported[7]=Y(15)
==> Iexported[8]=Y(14)
==> Iexported[9]=Y(12)
==> Iexported[10]=Y(11)
==> Iexported[11]=Y(10)
==> Iexported[12]=Y(9)
==> Iexported[13]=Y(8)
==> Iexported[14]=Y(5)
==> Iexported[15]=Y(4)
==> Iexported[16]=Y(3)
==> Iexported[17]=Y(24)*Y(25)
==> Iexported[18]=Y(20)*Y(25)
==> Iexported[19]=Y(6)*Y(25)
==> Iexported[20]=Y(2)*Y(25)
==> Iexported[21]=Y(19)*Y(24)
==> Iexported[22]=Y(7)*Y(24)
==> Iexported[23]=Y(1)*Y(24)
==> Iexported[24]=Y(19)*Y(20)
==> Iexported[25]=Y(7)*Y(20)
==> Iexported[26]=Y(1)*Y(20)
==> Iexported[27]=Y(6)*Y(19)
==> Iexported[28]=Y(2)*Y(19)
==> Iexported[29]=Y(6)*Y(7)
==> Iexported[30]=Y(2)*Y(7)
==> Iexported[31]=Y(1)*Y(6)
==> Iexported[32]=Y(1)*Y(2)
==> Iexported[33]=Y(2)*Y(6)*Y(13)*Y(20)*Y(24)*Z+Y(1)*Y(7)*Y(13)*Y(19)*Y(25)*Z\
   -1
==> Iexported[34]=Y(1)*Y(7)*Y(13)*Y(19)*Y(25)^2*Z-Y(25)
==> Iexported[35]=Y(1)*Y(7)*Y(13)*Y(19)^2*Y(25)*Z-Y(19)
==> Iexported[36]=Y(1)*Y(7)^2*Y(13)*Y(19)*Y(25)*Z-Y(7)
==> Iexported[37]=Y(1)^2*Y(7)*Y(13)*Y(19)*Y(25)*Z-Y(1)
print(getVariableWeights());
==>      1     1     1     1     1     1     1     1     1     1     1     1 \
       1     1     1     1     1     1     1     1     1     1     1     1  \
      1    -5
==>      1    -1     0     0     1     1    -1     0     0     1     1    -1 \
       0     0     1     1    -1     0     0     1     1    -1     0     0  \
      1    -1
==>      1     1     1     0     0     1     1     1     0     0     1     1 \
       1     0     0     1     1     1     0     0     1     1     1     0  \
      0    -3
kill S, R, Q;


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