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Mathlib.Topology.ContinuousFunction.Polynomial

Constructions relating polynomial functions and continuous functions. #

Main definitions #

Every polynomial with coefficients in a topological semiring gives a (bundled) continuous function.

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    A polynomial as a continuous function, with domain restricted to some subset of the semiring of coefficients.

    (This is particularly useful when restricting to compact sets, e.g. [0,1].)

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      @[simp]
      theorem Polynomial.aeval_continuousMap_apply {R : Type u_1} {α : Type u_2} [TopologicalSpace α] [CommSemiring R] [TopologicalSpace R] [TopologicalSemiring R] (g : Polynomial R) (f : C(α, R)) (x : α) :
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      The algebra map from R[X] to continuous functions C(R, R).

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        The algebra map from R[X] to continuous functions C(X, R), for any subset X of R.

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          noncomputable def polynomialFunctions {R : Type u_1} [CommSemiring R] [TopologicalSpace R] [TopologicalSemiring R] (X : Set R) :

          The subalgebra of polynomial functions in C(X, R), for X a subset of some topological semiring R.

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            The preimage of polynomials on [0,1] under the pullback map by x ↦ (b-a) * x + a is the polynomials on [a,b].

            theorem polynomialFunctions.le_equalizer {R : Type u_1} [CommSemiring R] [TopologicalSpace R] [TopologicalSemiring R] {A : Type u_2} [Semiring A] [Algebra R A] (s : Set R) (φ : C(s, R) →ₐ[R] A) (ψ : C(s, R) →ₐ[R] A) (h : φ ((Polynomial.toContinuousMapOnAlgHom s) Polynomial.X) = ψ ((Polynomial.toContinuousMapOnAlgHom s) Polynomial.X)) :