DeRhamComputation/elementary_covers/tests/group_action_matrices_test.sage

p = 3
m = 2
F = GF(p)
Rx.<x> = PolynomialRing(F)
f = x^3 + x
C_super = superelliptic(f, m)

f1 = C_super.x^2*C_super.y
f2 = C_super.x^3
AS = as_cover(C_super, [f1, f2], prec=1000)

A, B = AS.group_action_matrices_holo()
n = A.dimensions()[0]
print(A*B == B*A)
print(A^p == identity_matrix(n))
print(B^p == identity_matrix(n))

print(magma_module_decomposition(A, B))
arbitrary p-gp covers, pt 1 2024-06-10 19:55:49 +02:00			`p = 3`
			`m = 2`
			`F = GF(p)`
			`Rx.<x> = PolynomialRing(F)`
			`f = x^3 + x`
			`C_super = superelliptic(f, m)`

			`f1 = C_super.x^2*C_super.y`
			`f2 = C_super.x^3`
			`AS = as_cover(C_super, [f1, f2], prec=1000)`

			`A, B = AS.group_action_matrices_holo()`
			`n = A.dimensions()[0]`
			`print(AB == BA)`
			`print(A^p == identity_matrix(n))`
			`print(B^p == identity_matrix(n))`

			`print(magma_module_decomposition(A, B))`