Absolute value on polynomials over a finite field. #
Let 𝔽_q
be a finite field of cardinality q
, then the map sending a polynomial p
to q ^ degree p
(where q ^ degree 0 = 0
) is an absolute value.
Main definitions #
Polynomial.cardPowDegree
is an absolute value on𝔽_q[t]
, the ring of polynomials over a finite field of cardinalityq
, mapping a polynomialp
toq ^ degree p
(whereq ^ degree 0 = 0
)
Main results #
Polynomial.cardPowDegree_isEuclidean
:cardPowDegree
respects the Euclidean domain structure on the ring of polynomials
noncomputable def
Polynomial.cardPowDegree
{Fq : Type u_1}
[Field Fq]
[Fintype Fq]
:
AbsoluteValue (Polynomial Fq) ℤ
cardPowDegree
is the absolute value on 𝔽_q[t]
sending f
to q ^ degree f
.
cardPowDegree 0
is defined to be 0
.
Equations
- One or more equations did not get rendered due to their size.
Instances For
theorem
Polynomial.cardPowDegree_apply
{Fq : Type u_1}
[Field Fq]
[Fintype Fq]
[DecidableEq Fq]
(p : Polynomial Fq)
:
Polynomial.cardPowDegree p = if p = 0 then 0 else ↑(Fintype.card Fq) ^ Polynomial.natDegree p
@[simp]
theorem
Polynomial.cardPowDegree_nonzero
{Fq : Type u_1}
[Field Fq]
[Fintype Fq]
(p : Polynomial Fq)
(hp : p ≠ 0)
:
Polynomial.cardPowDegree p = ↑(Fintype.card Fq) ^ Polynomial.natDegree p
theorem
Polynomial.cardPowDegree_isEuclidean
{Fq : Type u_1}
[Field Fq]
[Fintype Fq]
:
AbsoluteValue.IsEuclidean Polynomial.cardPowDegree