Induction on polynomials #
This file contains lemmas dealing with different flavours of induction on polynomials.
divX p
returns a polynomial q
such that q * X + C (p.coeff 0) = p
.
It can be used in a semiring where the usual division algorithm is not possible
Equations
- Polynomial.divX p = { toFinsupp := AddMonoidAlgebra.divOf p.toFinsupp 1 }
Instances For
@[simp]
theorem
Polynomial.coeff_divX
{R : Type u}
{n : ℕ}
[Semiring R]
{p : Polynomial R}
:
Polynomial.coeff (Polynomial.divX p) n = Polynomial.coeff p (n + 1)
theorem
Polynomial.divX_mul_X_add
{R : Type u}
[Semiring R]
(p : Polynomial R)
:
Polynomial.divX p * Polynomial.X + Polynomial.C (Polynomial.coeff p 0) = p
@[simp]
theorem
Polynomial.X_mul_divX_add
{R : Type u}
[Semiring R]
(p : Polynomial R)
:
Polynomial.X * Polynomial.divX p + Polynomial.C (Polynomial.coeff p 0) = p
@[simp]
theorem
Polynomial.divX_eq_zero_iff
{R : Type u}
[Semiring R]
{p : Polynomial R}
:
Polynomial.divX p = 0 ↔ p = Polynomial.C (Polynomial.coeff p 0)
theorem
Polynomial.divX_add
{R : Type u}
[Semiring R]
{p : Polynomial R}
{q : Polynomial R}
:
Polynomial.divX (p + q) = Polynomial.divX p + Polynomial.divX q
@[simp]
theorem
Polynomial.divX_C_mul
{R : Type u}
{a : R}
[Semiring R]
{p : Polynomial R}
:
Polynomial.divX (Polynomial.C a * p) = Polynomial.C a * Polynomial.divX p
divX
as an additive homomorphism.
Equations
- One or more equations did not get rendered due to their size.
Instances For
@[simp]
theorem
Polynomial.divX_hom_toFun
{R : Type u}
[Semiring R]
{p : Polynomial R}
:
Polynomial.divX_hom p = Polynomial.divX p
theorem
Polynomial.natDegree_divX_eq_natDegree_tsub_one
{R : Type u}
[Semiring R]
{p : Polynomial R}
:
noncomputable def
Polynomial.recOnHorner
{R : Type u}
[Semiring R]
{M : Polynomial R → Sort u_1}
(p : Polynomial R)
(M0 : M 0)
(MC : (p : Polynomial R) → (a : R) → Polynomial.coeff p 0 = 0 → a ≠ 0 → M p → M (p + Polynomial.C a))
(MX : (p : Polynomial R) → p ≠ 0 → M p → M (p * Polynomial.X))
:
M p
An induction principle for polynomials, valued in Sort* instead of Prop.
Equations
- One or more equations did not get rendered due to their size.
Instances For
theorem
Polynomial.degree_pos_induction_on
{R : Type u}
[Semiring R]
{P : Polynomial R → Prop}
(p : Polynomial R)
(h0 : 0 < Polynomial.degree p)
(hC : ∀ {a : R}, a ≠ 0 → P (Polynomial.C a * Polynomial.X))
(hX : ∀ {p : Polynomial R}, 0 < Polynomial.degree p → P p → P (p * Polynomial.X))
(hadd : ∀ {p : Polynomial R} {a : R}, 0 < Polynomial.degree p → P p → P (p + Polynomial.C a))
:
P p
A property holds for all polynomials of positive degree
with coefficients in a semiring R
if it holds for
a * X
, witha ∈ R
,p * X
, withp ∈ R[X]
,p + a
, witha ∈ R
,p ∈ R[X]
, with appropriate restrictions on each term.
See natDegree_ne_zero_induction_on
for a similar statement involving no explicit multiplication.
theorem
Polynomial.natDegree_ne_zero_induction_on
{R : Type u}
[Semiring R]
{M : Polynomial R → Prop}
{f : Polynomial R}
(f0 : Polynomial.natDegree f ≠ 0)
(h_C_add : ∀ {a : R} {p : Polynomial R}, M p → M (Polynomial.C a + p))
(h_add : ∀ {p q : Polynomial R}, M p → M q → M (p + q))
(h_monomial : ∀ {n : ℕ} {a : R}, a ≠ 0 → n ≠ 0 → M ((Polynomial.monomial n) a))
:
M f
A property holds for all polynomials of non-zero natDegree
with coefficients in a
semiring R
if it holds for
p + a
, witha ∈ R
,p ∈ R[X]
,p + q
, withp, q ∈ R[X]
,- monomials with nonzero coefficient and non-zero exponent,
with appropriate restrictions on each term.
Note that multiplication is "hidden" in the assumption on monomials, so there is no explicit
multiplication in the statement.
See
degree_pos_induction_on
for a similar statement involving more explicit multiplications.