DeRhamComputation/heisenberg_covers/dual_element.sage

28 lines
1.0 KiB
Python

def heisenberg_dual_elt(AS, zmag):
'''Find the trace dual of a given elt zmag in the function field of an Artin-Schreier cover AS.'''
p = AS.characteristic
n = 3
G = AS.group
variable_names = 'x, y'
for i in range(n):
variable_names += ', z' + str(i)
Rxyz = PolynomialRing(F, n+2, variable_names)
x, y = Rxyz.gens()[:2]
z = Rxyz.gens()[2:]
RxyzQ = FractionField(Rxyz)
M = matrix(RxyzQ, p^n, p^n)
for i in range(p^n):
for j in range(p^n):
print('creating matrix', i, j)
elt = tr2((zmag.group_action(G[i])*zmag.group_action(G[j]))).function
elt = Rxyz(elt.numerator())/Rxyz(elt.denominator())
M[i, j] = RxyzQ(elt)
main_det = -1 #M.determinant()
zvee = as_function(AS, 0)
for i in range(p^n):
print(i)
Mprim = matrix(RxyzQ, M)
Mprim[:, i] = vector([(j == 0) for j in range(p^n)])
fi = Mprim.determinant()/main_det
zvee += heisenberg_function(AS, fi*(zmag.group_action(G[i]).function))
return zvee