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Moved dim_eq_zero_iff_field to the main file
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@ -88,7 +88,65 @@ lemma dim_eq_bot_iff : krullDim R = ⊥ ↔ Subsingleton R := by
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. rw [h.forall_iff]
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. rw [h.forall_iff]
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trivial
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trivial
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lemma dim_eq_zero_iff_field [IsDomain R] : krullDim R = 0 ↔ IsField R := by sorry -- It's been done in another file
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@[simp]
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lemma field_prime_bot {K: Type _} [Field K] (P : Ideal K) : IsPrime P ↔ P = ⊥ := by
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constructor
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· intro primeP
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obtain T := eq_bot_or_top P
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have : ¬P = ⊤ := IsPrime.ne_top primeP
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tauto
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· intro botP
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rw [botP]
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exact bot_prime
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lemma field_prime_height_zero {K: Type _} [Field K] (P : PrimeSpectrum K) : height P = 0 := by
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unfold height
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simp
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by_contra spec
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change _ ≠ _ at spec
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rw [← Set.nonempty_iff_ne_empty] at spec
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obtain ⟨J, JlP : J < P⟩ := spec
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have P0 : IsPrime P.asIdeal := P.IsPrime
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have J0 : IsPrime J.asIdeal := J.IsPrime
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rw [field_prime_bot] at P0 J0
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have : J.asIdeal = P.asIdeal := Eq.trans J0 (Eq.symm P0)
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have : J = P := PrimeSpectrum.ext J P this
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have : J ≠ P := ne_of_lt JlP
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contradiction
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lemma dim_field_eq_zero {K : Type _} [Field K] : krullDim K = 0 := by
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unfold krullDim
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simp [field_prime_height_zero]
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lemma isField.dim_zero {D: Type _} [CommRing D] [IsDomain D] (h: krullDim D = 0) : IsField D := by
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unfold krullDim at h
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simp [height] at h
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by_contra x
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rw [Ring.not_isField_iff_exists_prime] at x
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obtain ⟨P, ⟨h1, primeP⟩⟩ := x
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let P' : PrimeSpectrum D := PrimeSpectrum.mk P primeP
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have h2 : P' ≠ ⊥ := by
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by_contra a
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have : P = ⊥ := by rwa [PrimeSpectrum.ext_iff] at a
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contradiction
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have PgtBot : P' > ⊥ := Ne.bot_lt h2
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have pos_height : ¬ ↑(Set.chainHeight {J | J < P'}) ≤ 0 := by
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have : ⊥ ∈ {J | J < P'} := PgtBot
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have : {J | J < P'}.Nonempty := Set.nonempty_of_mem this
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rw [←Set.one_le_chainHeight_iff] at this
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exact not_le_of_gt (Iff.mp ENat.one_le_iff_pos this)
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have nonpos_height : (Set.chainHeight {J | J < P'}) ≤ 0 := by
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have : (⨆ (I : PrimeSpectrum D), (Set.chainHeight {J | J < I} : WithBot ℕ∞)) ≤ 0 := h.le
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rw [iSup_le_iff] at this
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exact Iff.mp WithBot.coe_le_zero (this P')
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contradiction
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lemma dim_eq_zero_iff_field {D: Type _} [CommRing D] [IsDomain D] : krullDim D = 0 ↔ IsField D := by
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constructor
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· exact isField.dim_zero
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· intro fieldD
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let h : Field D := IsField.toField fieldD
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exact dim_field_eq_zero
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#check Ring.DimensionLEOne
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#check Ring.DimensionLEOne
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lemma dim_le_one_iff : krullDim R ≤ 1 ↔ Ring.DimensionLEOne R := sorry
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lemma dim_le_one_iff : krullDim R ≤ 1 ↔ Ring.DimensionLEOne R := sorry
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