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Merge pull request #97 from GTBarkley/jayden
Is it too late to say sorry
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cf2cedb093
1 changed files with 56 additions and 11 deletions
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@ -16,6 +16,7 @@ import Mathlib.Order.ConditionallyCompleteLattice.Basic
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import Mathlib.Algebra.Ring.Pi
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import Mathlib.Algebra.Ring.Pi
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import Mathlib.RingTheory.Finiteness
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import Mathlib.RingTheory.Finiteness
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import Mathlib.Util.PiNotation
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import Mathlib.Util.PiNotation
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import Mathlib.RingTheory.Ideal.MinimalPrime
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import CommAlg.krull
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import CommAlg.krull
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open PiNotation
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open PiNotation
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@ -43,6 +44,8 @@ class IsLocallyNilpotent {R : Type _} [CommRing R] (I : Ideal R) : Prop :=
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#check Ideal.IsLocallyNilpotent
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#check Ideal.IsLocallyNilpotent
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end Ideal
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end Ideal
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def RingJacobson (R) [Ring R] := Ideal.jacobson (⊥ : Ideal R)
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-- Repeats the definition of the length of a module by Monalisa
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-- Repeats the definition of the length of a module by Monalisa
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variable (R : Type _) [CommRing R] (I J : Ideal R)
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variable (R : Type _) [CommRing R] (I J : Ideal R)
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variable (M : Type _) [AddCommMonoid M] [Module R M]
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variable (M : Type _) [AddCommMonoid M] [Module R M]
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@ -169,15 +172,15 @@ abbrev Prod_of_localization :=
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def foo : Prod_of_localization R →+* R where
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def foo : Prod_of_localization R →+* R where
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toFun := sorry
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toFun := sorry
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-- invFun := sorry
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-- invFun := sorry
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left_inv := sorry
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--left_inv := sorry
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right_inv := sorry
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--right_inv := sorry
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map_mul' := sorry
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map_mul' := sorry
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map_add' := sorry
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map_add' := sorry
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def product_of_localization_at_maximal_ideal [Finite (MaximalSpectrum R)]
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def product_of_localization_at_maximal_ideal [Finite (MaximalSpectrum R)]
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(h : Ideal.IsLocallyNilpotent (Ideal.jacobson (⊥ : Ideal R))) :
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(h : Ideal.IsLocallyNilpotent (RingJacobson R)) :
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Prod_of_localization R ≃+* R := by sorry
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R ≃+* Prod_of_localization R := by sorry
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-- Stacks Lemma 10.53.6: R is Artinian iff R has finite length as an R-mod
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-- Stacks Lemma 10.53.6: R is Artinian iff R has finite length as an R-mod
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lemma IsArtinian_iff_finite_length :
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lemma IsArtinian_iff_finite_length :
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@ -193,18 +196,61 @@ lemma primes_of_Artinian_are_maximal
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-- Lemma: Krull dimension of a ring is the supremum of height of maximal ideals
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-- Lemma: Krull dimension of a ring is the supremum of height of maximal ideals
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-- Lemma: X is an irreducible component of Spec(R) ↔ X = V(I) for I a minimal prime
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lemma irred_comp_minmimal_prime (X) :
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X ∈ irreducibleComponents (PrimeSpectrum R)
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↔ ∃ (P : minimalPrimes R), X = PrimeSpectrum.zeroLocus P := by
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sorry
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-- Lemma: localization of Noetherian ring is Noetherian
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-- lemma localization_of_Noetherian_at_prime [IsNoetherianRing R]
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-- (atprime: Ideal.IsPrime I) :
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-- IsNoetherianRing (Localization.AtPrime I) := by sorry
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-- Stacks Lemma 10.60.5: R is Artinian iff R is Noetherian of dimension 0
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-- Stacks Lemma 10.60.5: R is Artinian iff R is Noetherian of dimension 0
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lemma dim_le_zero_Noetherian_iff_Artinian (R : Type _) [CommRing R] :
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lemma Artinian_if_dim_le_zero_Noetherian (R : Type _) [CommRing R] :
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IsNoetherianRing R ∧ Ideal.krullDim R ≤ 0 ↔ IsArtinianRing R := by
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IsNoetherianRing R ∧ Ideal.krullDim R ≤ 0 → IsArtinianRing R := by
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constructor
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rintro ⟨RisNoetherian, dimzero⟩
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rintro ⟨RisNoetherian, dimzero⟩
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rw [ring_Noetherian_iff_spec_Noetherian] at RisNoetherian
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rw [ring_Noetherian_iff_spec_Noetherian] at RisNoetherian
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have := fun X => (irred_comp_minmimal_prime R X).mp
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choose F hf using this
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let Z := irreducibleComponents (PrimeSpectrum R)
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let Z := irreducibleComponents (PrimeSpectrum R)
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have Zfinite : Set.Finite Z := by
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-- have Zfinite : Set.Finite Z := by
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-- apply TopologicalSpace.NoetherianSpace.finite_irreducibleComponents ?_
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-- apply TopologicalSpace.NoetherianSpace.finite_irreducibleComponents ?_
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-- sorry
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--let P := fun
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rw [← ring_Noetherian_iff_spec_Noetherian] at RisNoetherian
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have PrimeIsMaximal : ∀ X : Z, Ideal.IsMaximal (F X X.2).1 := by
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intro X
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have prime : Ideal.IsPrime (F X X.2).1 := (F X X.2).2.1.1
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rw [Ideal.dim_le_zero_iff] at dimzero
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exact dimzero ⟨_, prime⟩
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have JacLocallyNil : Ideal.IsLocallyNilpotent (RingJacobson R) := by sorry
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let Loc := fun X : Z ↦ Localization.AtPrime (F X.1 X.2).1
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have LocNoetherian : ∀ X, IsNoetherianRing (Loc X) := by
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intro X
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sorry
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sorry
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-- apply IsLocalization.isNoetherianRing (F X.1 X.2).1 (Loc X) RisNoetherian
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sorry
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have Locdimzero : ∀ X, Ideal.krullDim (Loc X) ≤ 0 := by sorry
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have powerannihilates : ∀ X, ∃ n : ℕ,
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((F X.1 X.2).1) ^ n • (⊤: Submodule R (Loc X)) = 0 := by sorry
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have LocFinitelength : ∀ X, ∃ n : ℕ, Module.length R (Loc X) ≤ n := by
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intro X
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have idealfg : Ideal.FG (F X.1 X.2).1 := by
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rw [isNoetherianRing_iff_ideal_fg] at RisNoetherian
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specialize RisNoetherian (F X.1 X.2).1
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exact RisNoetherian
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have modulefg : Module.Finite R (Loc X) := by sorry -- not sure if this is true
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specialize PrimeIsMaximal X
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specialize powerannihilates X
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apply power_zero_finite_length R (F X.1 X.2).1 (Loc X) idealfg powerannihilates
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have RingFinitelength : ∃ n : ℕ, Module.length R R ≤ n := by sorry
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rw [IsArtinian_iff_finite_length]
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exact RingFinitelength
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lemma dim_le_zero_Noetherian_if_Artinian (R : Type _) [CommRing R] :
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IsArtinianRing R → IsNoetherianRing R ∧ Ideal.krullDim R ≤ 0 := by
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intro RisArtinian
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intro RisArtinian
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constructor
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constructor
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apply finite_length_is_Noetherian
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apply finite_length_is_Noetherian
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@ -213,7 +259,6 @@ lemma dim_le_zero_Noetherian_iff_Artinian (R : Type _) [CommRing R] :
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intro I
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intro I
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apply primes_of_Artinian_are_maximal
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apply primes_of_Artinian_are_maximal
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-- Use TopologicalSpace.NoetherianSpace.exists_finset_irreducible :
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