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D.10.1.6 AGcode_L
Procedure from library brnoeth.lib (see brnoeth_lib).
- Usage:
- AGcode_L( G, D, EC ); G,D intvec, EC a list
- Return:
- a generator matrix for the evaluation AG code defined by the
divisors G and D.
- Note:
- The procedure must be called within the ring EC[1][4],
where EC is the output of
extcurve(d) (or within
the ring EC[1][2] if d=1).
The entry i in the intvec D refers to the i-th rational
place in EC[1][5] (i.e., to POINTS[i], etc., see extcurve).
The intvec G represents a rational divisor (see BrillNoether
for more details).
The code evaluates the vector space basis of L(G) at the rational
places given by D.
- Warnings:
- G should satisfy
, which is
not checked by the algorithm.
G and D should have disjoint supports (checked by the algorithm).
Example:
| LIB "brnoeth.lib";
int plevel=printlevel;
printlevel=-1;
ring s=2,(x,y),lp;
list HC=Adj_div(x3+y2+y);
==> The genus of the curve is 1
HC=NSplaces(1..2,HC);
HC=extcurve(2,HC);
==> Total number of rational places : NrRatPl = 9
def ER=HC[1][4];
setring ER;
intvec G=5; // the rational divisor G = 5*HC[3][1]
intvec D=2..9; // D = sum of the rational places no. 2..9 over F_4
// let us construct the corresponding evaluation AG code :
matrix C=AGcode_L(G,D,HC);
==> Vector basis successfully computed
// here is a linear code of type [8,5,>=3] over F_4
print(C);
==> 0,0,1, 1, (a+1),(a), (a), (a+1),
==> 0,1,(a),(a+1),(a), (a+1),(a), (a+1),
==> 1,1,1, 1, 1, 1, 1, 1,
==> 0,0,1, 1, (a), (a+1),(a+1),(a),
==> 0,0,(a),(a+1),1, 1, (a+1),(a)
printlevel=plevel;
| See also:
AGcode_Omega;
Adj_div;
BrillNoether;
extcurve.
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