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Stefan Kebekus
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2146909338
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@ -2,6 +2,7 @@ import Mathlib.Analysis.SpecialFunctions.Integrals
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import Mathlib.Analysis.SpecialFunctions.Log.NegMulLog
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import Mathlib.Analysis.SpecialFunctions.Log.NegMulLog
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import Mathlib.Analysis.Convex.SpecificFunctions.Deriv
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import Mathlib.Analysis.Convex.SpecificFunctions.Deriv
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import Nevanlinna.analyticAt
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import Nevanlinna.analyticAt
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import Nevanlinna.mathlibAddOn
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open Interval Topology
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open Interval Topology
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open Real Filter MeasureTheory intervalIntegral
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open Real Filter MeasureTheory intervalIntegral
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@ -20,3 +21,36 @@ instance
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coe := Divisor.toFun
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coe := Divisor.toFun
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attribute [coe] Divisor.toFun
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attribute [coe] Divisor.toFun
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theorem Divisor.closedSupport
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{U : Set ℂ}
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(hU : IsClosed U)
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(D : Divisor U) :
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IsClosed D.toFun.support := by
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rw [← isOpen_compl_iff]
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rw [isOpen_iff_eventually]
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intro x hx
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by_cases h₁x : x ∈ U
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· have A := D.locallyFiniteInU x h₁x
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simp [A]
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simp at hx
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let B := Mnhds A hx
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simpa
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· rw [eventually_iff_exists_mem]
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use Uᶜ
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constructor
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· exact IsClosed.compl_mem_nhds hU h₁x
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· intro y hy
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simp
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exact Function.nmem_support.mp fun a => hy (D.supportInU a)
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theorem Divisor.finiteSupport
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{U : Set ℂ}
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(hU : IsCompact U)
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(D : Divisor U) :
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Set.Finite D.toFun.support := by
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sorry
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@ -1,6 +1,7 @@
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import Mathlib.Analysis.Analytic.Meromorphic
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import Mathlib.Analysis.Analytic.Meromorphic
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import Mathlib.Analysis.Calculus.ContDiff.Basic
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import Mathlib.Analysis.Calculus.ContDiff.Basic
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import Mathlib.Analysis.Calculus.FDeriv.Add
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import Mathlib.Analysis.Calculus.FDeriv.Add
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import Nevanlinna.analyticAt
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variable {𝕜 : Type*} [NontriviallyNormedField 𝕜]
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variable {𝕜 : Type*} [NontriviallyNormedField 𝕜]
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variable {E : Type*} [NormedAddCommGroup E] [NormedSpace 𝕜 E]
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variable {E : Type*} [NormedAddCommGroup E] [NormedSpace 𝕜 E]
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@ -51,3 +52,23 @@ theorem meromorphicAt_congr'
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{f : 𝕜 → E} {g : 𝕜 → E} {x : 𝕜}
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{f : 𝕜 → E} {g : 𝕜 → E} {x : 𝕜}
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(h : f =ᶠ[nhds x] g) : MeromorphicAt f x ↔ MeromorphicAt g x :=
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(h : f =ᶠ[nhds x] g) : MeromorphicAt f x ↔ MeromorphicAt g x :=
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meromorphicAt_congr (Filter.EventuallyEq.filter_mono h nhdsWithin_le_nhds)
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meromorphicAt_congr (Filter.EventuallyEq.filter_mono h nhdsWithin_le_nhds)
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open Topology Filter
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lemma Mnhds
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{α : Type}
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{f g : ℂ → α}
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{z₀ : ℂ}
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(h₁ : f =ᶠ[𝓝[≠] z₀] g)
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(h₂ : f z₀ = g z₀) :
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f =ᶠ[𝓝 z₀] g := by
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apply eventually_nhds_iff.2
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obtain ⟨t, h₁t, h₂t⟩ := eventually_nhds_iff.1 (eventually_nhdsWithin_iff.1 h₁)
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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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