Update stronglyMeromorphic.lean
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@ -3,6 +3,9 @@ import Nevanlinna.analyticAt
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import Nevanlinna.mathlibAddOn
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import Nevanlinna.mathlibAddOn
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open Topology
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/- Strongly MeromorphicAt -/
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/- Strongly MeromorphicAt -/
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def StronglyMeromorphicAt
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def StronglyMeromorphicAt
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(f : ℂ → ℂ)
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(f : ℂ → ℂ)
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@ -108,22 +111,28 @@ lemma m₂
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{f : ℂ → ℂ}
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{f : ℂ → ℂ}
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{z₀ : ℂ}
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{z₀ : ℂ}
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(hf : MeromorphicAt f z₀) :
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(hf : MeromorphicAt f z₀) :
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∀ᶠ (z : ℂ) in nhdsWithin z₀ {z₀}ᶜ, f z = hf.makeStronglyMeromorphicAt z := by
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f =ᶠ[𝓝[≠] z₀] hf.makeStronglyMeromorphicAt := by
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apply eventually_nhdsWithin_of_forall
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apply eventually_nhdsWithin_of_forall
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exact fun x a => m₁ hf x a
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exact fun x a => m₁ hf x a
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open Topology
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lemma Mnhds
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lemma Mnhds
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{f g : ℂ → ℂ}
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{f g : ℂ → ℂ}
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{z₀ : ℂ}
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{z₀ : ℂ}
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(h₁ : ∀ᶠ (z : ℂ) in nhdsWithin z₀ {z₀}ᶜ, f z = g z)
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(h₁ : f =ᶠ[𝓝[≠] z₀] g)
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(h₂ : f z₀ = g z₀) :
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(h₂ : f z₀ = g z₀) :
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∀ᶠ (z : ℂ) in nhds z₀, f z = g z := by
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f =ᶠ[𝓝 z₀] g := by
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rw [eventually_nhds_iff]
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apply eventually_nhds_iff.2
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rw [eventually_nhdsWithin_iff] at h₁
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obtain ⟨t, h₁t, h₂t⟩ := eventually_nhds_iff.1 (eventually_nhdsWithin_iff.1 h₁)
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sorry
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use t
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constructor
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· intro y hy
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by_cases h₂y : y ∈ ({z₀}ᶜ : Set ℂ)
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· exact h₁t y hy h₂y
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· simp at h₂y
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rwa [h₂y]
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· exact h₂t
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theorem StronglyMeromorphicAt_of_makeStronglyMeromorphic
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theorem StronglyMeromorphicAt_of_makeStronglyMeromorphic
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{f : ℂ → ℂ}
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{f : ℂ → ℂ}
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@ -132,51 +141,39 @@ theorem StronglyMeromorphicAt_of_makeStronglyMeromorphic
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StronglyMeromorphicAt hf.makeStronglyMeromorphicAt z₀ := by
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StronglyMeromorphicAt hf.makeStronglyMeromorphicAt z₀ := by
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by_cases h₂f : hf.order = ⊤
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by_cases h₂f : hf.order = ⊤
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· rw [MeromorphicAt.order_eq_top_iff] at h₂f
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· have : hf.makeStronglyMeromorphicAt =ᶠ[𝓝 z₀] 0 := by
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let Z : ℂ → ℂ := fun z ↦ 0
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have : hf.makeStronglyMeromorphicAt =ᶠ[𝓝 z₀] 0 := by
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--unfold Filter.EventuallyEq
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apply Mnhds
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apply Mnhds
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· apply eventually_nhdsWithin_of_forall
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· apply Filter.EventuallyEq.trans (Filter.EventuallyEq.symm (m₂ hf))
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intro x hx
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exact (MeromorphicAt.order_eq_top_iff hf).1 h₂f
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· unfold MeromorphicAt.makeStronglyMeromorphicAt
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sorry
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simp [h₂f]
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sorry
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apply AnalyticAt.stronglyMeromorphicAt
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apply AnalyticAt.stronglyMeromorphicAt
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rw [analyticAt_congr this]
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rw [analyticAt_congr this]
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apply analyticAt_const
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apply analyticAt_const
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· let n := hf.order.untop h₂f
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have : hf.order = n := by
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exact Eq.symm (WithTop.coe_untop hf.order h₂f)
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rw [hf.order_eq_int_iff] at this
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obtain ⟨g, h₁g, h₂g, h₃g⟩ := this
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right
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use n
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use g
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constructor
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· assumption
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· constructor
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· assumption
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· apply Mnhds
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· apply Filter.EventuallyEq.trans (Filter.EventuallyEq.symm (m₂ hf))
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exact h₃g
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· unfold MeromorphicAt.makeStronglyMeromorphicAt
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simp
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by_cases h₃f : hf.order = 0
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· simp [h₃f]
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sorry
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· simp [h₃f]
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by_cases h₂f : hf.order = 0
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· apply AnalyticAt.stronglyMeromorphicAt
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let A := h₂f
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rw [(by rfl : (0 : WithTop ℤ) = (0 : ℤ)), hf.order_eq_int_iff] at A
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simp at A
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have : hf.makeStronglyMeromorphicAt = Classical.choose A := by
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simp [MeromorphicAt.makeStronglyMeromorphicAt, h₂f]
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let B := Classical.choose_spec A
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rw [this]
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tauto
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· by_cases h₃f : hf.order = ⊤
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· rw [MeromorphicAt.order_eq_top_iff] at h₃f
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left
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left
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apply zero_zpow n
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sorry
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dsimp [n]
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· sorry
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rwa [WithTop.untop_eq_iff h₂f]
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theorem makeStronglyMeromorphic_eventuallyEq
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{f : ℂ → ℂ}
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{z₀ : ℂ}
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(hf : MeromorphicAt f z₀) :
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∀ᶠ (z : ℂ) in nhdsWithin z₀ {z₀}ᶜ, f z = hf.makeStronglyMeromorphicAt z := by
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sorry
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