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Merge pull request #92 from GTBarkley/monalisa
Filled in proofs for Delta_1_
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1 changed files with 36 additions and 13 deletions
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@ -66,13 +66,6 @@ end section
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def Δ : (ℤ → ℤ) → ℕ → (ℤ → ℤ)
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def Δ : (ℤ → ℤ) → ℕ → (ℤ → ℤ)
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| f, 0 => f
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| f, 0 => f
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| f, d + 1 => fun (n : ℤ) ↦ (Δ f d) (n + 1) - (Δ f d) (n)
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| f, d + 1 => fun (n : ℤ) ↦ (Δ f d) (n + 1) - (Δ f d) (n)
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section
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#check Δ
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def f (n : ℤ) := n
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#eval (Δ f 1) 100
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-- #check (by (show_term unfold Δ) : Δ f 0=0)
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end section
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-- (NO need to prove another direction) 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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lemma Poly_constant (F : Polynomial ℚ) (c : ℚ) :
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@ -109,7 +102,6 @@ lemma Poly_shifting (f : ℤ → ℤ) (g : ℤ → ℤ) (hf : PolyType f d) (s :
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sorry
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sorry
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· rw [h2, s2]
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· rw [h2, s2]
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-- PolyType 0 = constant function
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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),
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lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N : ℤ), (∀ (n : ℤ),
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(N ≤ n → f n = c)) ∧ c ≠ 0) := by
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(N ≤ n → f n = c)) ∧ c ≠ 0) := by
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@ -142,12 +134,44 @@ lemma PolyType_0 (f : ℤ → ℤ) : (PolyType f 0) ↔ (∃ (c : ℤ), ∃ (N :
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lemma Δ_0 (f : ℤ → ℤ) : (Δ f 0) = f := by rfl
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lemma Δ_0 (f : ℤ → ℤ) : (Δ f 0) = f := by rfl
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--simp only [Δ]
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--simp only [Δ]
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-- Δ of 1 times decreaes the polynomial type by one
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-- Δ of 1 times decreaes the polynomial type by one
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lemma Δ_1 (f : ℤ → ℤ) (d : ℕ): PolyType f (d + 1) → PolyType (Δ f 1) d := by
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lemma Δ_1 (f : ℤ → ℤ) (d : ℕ) : PolyType f (d + 1) → PolyType (Δ f 1) d := by
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intro h
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simp only [PolyType, Δ, Int.cast_sub, exists_and_right]
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rcases h with ⟨F, N, h⟩
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rcases h with ⟨h1, h2⟩
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have this : ∃ (G : Polynomial ℚ), (∀ (x : ℚ), Polynomial.eval x G = Polynomial.eval (x + 1) F) ∧ (Polynomial.degree G = Polynomial.degree F) := by
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exact Polynomial_shifting F 1
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rcases this with ⟨G, hG, hGG⟩
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let Poly := G - F
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use Poly
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constructor
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· use N
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intro n hn
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specialize hG n
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norm_num
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rw [hG]
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let h3 := h1
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specialize h3 n
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have this1 : f n = Polynomial.eval (n : ℚ) F := by tauto
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have this2 : f (n + 1) = Polynomial.eval ((n + 1) : ℚ) F := by
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specialize h1 (n + 1)
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have this3 : N ≤ n + 1 := by linarith
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aesop
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rw [←this1, ←this2]
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· have this1 : Polynomial.degree Poly = d := by
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have this2 : Polynomial.degree Poly ≤ d := by
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sorry
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sorry
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have this3 : Polynomial.degree Poly ≥ d := by
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sorry
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sorry
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tauto
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-- Δ of d times maps polynomial of degree d to polynomial of degree 0
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-- Δ of d times maps polynomial of degree d to polynomial of degree 0
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lemma Δ_1_s_equiv_Δ_s_1 (f : ℤ → ℤ) (s : ℕ) : Δ (Δ f 1) s = (Δ f (s + 1)) := by
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lemma Δ_1_s_equiv_Δ_s_1 (f : ℤ → ℤ) (s : ℕ) : Δ (Δ f 1) s = (Δ f (s + 1)) := by
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sorry
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induction' s with s hs
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· norm_num
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· aesop
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lemma foofoo (d : ℕ) : (f : ℤ → ℤ) → (PolyType f d) → (PolyType (Δ f d) 0):= by
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lemma foofoo (d : ℕ) : (f : ℤ → ℤ) → (PolyType f d) → (PolyType (Δ f d) 0):= by
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induction' d with d hd
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induction' d with d hd
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· intro f h
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· intro f h
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@ -189,7 +213,6 @@ lemma foo (d : ℕ) : (f : ℤ → ℤ) → (∃ (c : ℤ), ∃ (N : ℤ), (∀
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have this : PolyType f (d + 1) := by
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have this : PolyType f (d + 1) := by
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rcases h with ⟨H,c0⟩
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rcases h with ⟨H,c0⟩
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let g := (Δ f 1)
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let g := (Δ f 1)
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-- let g := fun (x : ℤ) => (f (x + 1) - f (x))
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have this1 : (∃ (c : ℤ), ∃ (N : ℤ), (∀ (n : ℤ), N ≤ n → (Δ g d) (n) = c) ∧ c ≠ 0) := by
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have this1 : (∃ (c : ℤ), ∃ (N : ℤ), (∀ (n : ℤ), N ≤ n → (Δ g d) (n) = c) ∧ c ≠ 0) := by
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use c; use N
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use c; use N
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constructor
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constructor
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@ -204,7 +227,7 @@ lemma foo (d : ℕ) : (f : ℤ → ℤ) → (∃ (c : ℤ), ∃ (N : ℤ), (∀
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apply hd
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apply hd
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tauto
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tauto
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exact Δ_1_ f d this2
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exact Δ_1_ f d this2
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tauto
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exact this
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-- [BH, 4.1.2] (a) => (b)
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-- [BH, 4.1.2] (a) => (b)
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-- Δ^d f (n) = c for some nonzero integer c for n >> 0 → f is of polynomial type d
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-- Δ^d f (n) = c for some nonzero integer c for n >> 0 → f is of polynomial type d
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