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finish more on the PolyType_0 lemma
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1 changed files with 45 additions and 29 deletions
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@ -70,7 +70,7 @@ end section
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noncomputable section
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-- Polynomial type of degree d
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@[simp]
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def PolyType (f : ℤ → ℤ) (d : ℕ) := ∃ Poly : Polynomial ℚ, ∃ (N : ℤ), ∀ (n : ℤ), (N ≤ n → f n = Polynomial.eval (n : ℚ) Poly) ∧ d = Polynomial.degree Poly
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def PolyType (f : ℤ → ℤ) (d : ℕ) := ∃ Poly : Polynomial ℚ, ∃ (N : ℤ), (∀ (n : ℤ), N ≤ n → f n = Polynomial.eval (n : ℚ) Poly) ∧ d = Polynomial.degree Poly
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section
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-- structure PolyType (f : ℤ → ℤ) where
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-- Poly : Polynomial ℤ
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@ -107,7 +107,7 @@ def f (n : ℤ) := n
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end section
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-- (NO NEED TO PROVE) Constant polynomial function = constant function
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-- (NO need to prove another direction) Constant polynomial function = constant function
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lemma Poly_constant (F : Polynomial ℚ) (c : ℚ) :
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(F = Polynomial.C (c : ℚ)) ↔ (∀ r : ℚ, (Polynomial.eval r F) = (c : ℚ)) := by
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constructor
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@ -132,6 +132,8 @@ lemma Poly_shifting (f : ℤ → ℤ) (g : ℤ → ℤ) (hf : PolyType f d) (s :
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-- set_option pp.all true in
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-- PolyType 0 = constant function
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lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N : ℤ), ∀ (n : ℤ), (N ≤ n → f n = c) ∧ (c ≠ 0)) := by
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@ -139,10 +141,9 @@ lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N :
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· intro h
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rcases h with ⟨Poly, hN⟩
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rcases hN with ⟨N, hh⟩
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have H1 := λ n=> (hh n).left
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have H2 := λ n=> (hh n).right
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clear hh
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specialize H2 (N + 1)
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rcases hh with ⟨H1, H2⟩
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-- have H1 := λ n=> (hh n).left
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-- have H2 := λ n=> (hh n).right
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have this1 : Polynomial.degree Poly = 0 := by
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have : N ≤ N + 1 := by
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norm_num
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@ -170,7 +171,6 @@ lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N :
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constructor
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· intro HH1
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-- have H6 := H1 HH1
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--
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have this3 : f n = Polynomial.eval (n : ℚ) Poly := by
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tauto
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have this4 : Polynomial.eval (n : ℚ) Poly = c := by
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@ -179,7 +179,6 @@ lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N :
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have this5 : f n = (c : ℚ) := by
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rw [←this4, this3]
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exact Iff.mp (Rat.coe_int_inj (f n) c) this5
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--
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· intro c0
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-- have H7 := H2 (by norm_num)
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@ -189,27 +188,46 @@ lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N :
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· intro h
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rcases h with ⟨c, N, aaa⟩
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let (Poly : Polynomial ℚ) := Polynomial.C (c : ℚ)
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rcases h with ⟨c, N, hh⟩
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let Poly := Polynomial.C (c : ℚ)
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--unfold PolyType
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use Poly
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--simp at Poly
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use N
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intro n
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specialize aaa n
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have this1 : c ≠ 0 → f n = c := by
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tauto
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rcases aaa with ⟨A, B⟩
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have this1 : f n = c := by
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tauto
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have H1 := λ n=> (hh n).left
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have H22 := λ n=> (hh n).right
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have H2 : c ≠ 0 := by
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exact H22 0
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clear H22
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constructor
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clear A
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· have this2 : ∀ (t : ℚ), (Polynomial.eval t Poly) = (c : ℚ) := by
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rw [← Poly_constant Poly (c : ℚ)]
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sorry
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specialize this2 n
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rw [this2]
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tauto
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· sorry
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-- apply Polynomial.degree_C c
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· intro n Nn
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specialize H1 n
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have this : f n = c := by
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tauto
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rw [this]
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have this2 : Polynomial.eval (n : ℚ) Poly = (c : ℚ) := by
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have this3 : ∀ r : ℚ, (Polynomial.eval r Poly) = (c : ℚ) := (Poly_constant Poly (c : ℚ)).mp rfl
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exact this3 n
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exact this2.symm
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· sorry
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-- intro n
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-- specialize aaa n
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-- have this1 : c ≠ 0 → f n = c := by
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-- sorry
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-- rcases aaa with ⟨A, B⟩
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-- have this1 : f n = c := by
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-- tauto
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-- constructor
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-- clear A
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-- · have this2 : ∀ (t : ℚ), (Polynomial.eval t Poly) = (c : ℚ) := by
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-- rw [← Poly_constant Poly (c : ℚ)]
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-- sorry
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-- specialize this2 n
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-- rw [this2]
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-- tauto
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-- · sorry
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@ -244,9 +262,7 @@ lemma Δ_PolyType_d_to_PolyType_0 (f : ℤ → ℤ) (d : ℕ): PolyType f d →
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intro h
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rcases h with ⟨Poly, hN⟩
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rcases hN with ⟨N, hh⟩
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have H1 := λ n => (hh n).left
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have H2 := λ n => (hh n).right
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clear hh
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rcases hh with ⟨H1, H2⟩
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have HH2 : d = Polynomial.degree Poly := by
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sorry
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induction' d with d hd
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