nevanlinna/Nevanlinna/stronglyMeromorphicOn.lean

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import Nevanlinna.stronglyMeromorphicAt
open Topology
/- Strongly MeromorphicOn -/
def StronglyMeromorphicOn
(f : )
(U : Set ) :=
∀ z ∈ U, StronglyMeromorphicAt f z
/- Strongly MeromorphicAt is Meromorphic -/
theorem StronglyMeromorphicOn.meromorphicOn
{f : }
{U : Set }
(hf : StronglyMeromorphicOn f U) :
MeromorphicOn f U := by
intro z hz
exact StronglyMeromorphicAt.meromorphicAt (hf z hz)
/- Strongly MeromorphicOn of non-negative order is analytic -/
theorem StronglyMeromorphicOn.analytic
{f : }
{U : Set }
(h₁f : StronglyMeromorphicOn f U)
(h₂f : ∀ x, (hx : x ∈ U) → 0 ≤ (h₁f x hx).meromorphicAt.order):
∀ z ∈ U, AnalyticAt f z := by
intro z hz
apply StronglyMeromorphicAt.analytic
exact h₂f z hz
exact h₁f z hz
/- Analytic functions are strongly meromorphic -/
theorem AnalyticOn.stronglyMeromorphicOn
{f : }
{U : Set }
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(h₁f : AnalyticOnNhd f U) :
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StronglyMeromorphicOn f U := by
intro z hz
apply AnalyticAt.stronglyMeromorphicAt
exact h₁f z hz
/- Make strongly MeromorphicAt -/
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noncomputable def MeromorphicOn.makeStronglyMeromorphicOn
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{f : }
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{U : Set }
(hf : MeromorphicOn f U) :
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:= by
intro z
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by_cases hz : z ∈ U
· exact (hf z hz).makeStronglyMeromorphicAt z
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· exact f z
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theorem makeStronglyMeromorphicOn_changeDiscrete
{f : }
{U : Set }
{z₀ : }
(hf : MeromorphicOn f U)
(hz₀ : z₀ ∈ U) :
hf.makeStronglyMeromorphicOn =ᶠ[𝓝[≠] z₀] f := by
apply Filter.eventually_iff_exists_mem.2
let A := (hf z₀ hz₀).eventually_analyticAt
obtain ⟨V, h₁V, h₂V⟩ := Filter.eventually_iff_exists_mem.1 A
use V
constructor
· assumption
· intro v hv
unfold MeromorphicOn.makeStronglyMeromorphicOn
by_cases h₂v : v ∈ U
· simp [h₂v]
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rw [← StronglyMeromorphicAt.makeStronglyMeromorphic_id]
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exact AnalyticAt.stronglyMeromorphicAt (h₂V v hv)
· simp [h₂v]
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theorem StronglyMeromorphicOn_of_makeStronglyMeromorphic
{f : }
(hf : MeromorphicOn f U) :
StronglyMeromorphicOn hf.makeStronglyMeromorphicOn U := by
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sorry
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theorem makeStronglyMeromorphicOn_changeDiscrete'
{f : }
{U : Set }
{z₀ : }
(hf : MeromorphicOn f U)
(hz₀ : z₀ ∈ U) :
hf.makeStronglyMeromorphicOn =ᶠ[𝓝 z₀] (hf z₀ hz₀).makeStronglyMeromorphicAt := by
apply Mnhds
let A := makeStronglyMeromorphicOn_changeDiscrete hf hz₀
apply Filter.EventuallyEq.trans A
exact m₂ (hf z₀ hz₀)
unfold MeromorphicOn.makeStronglyMeromorphicOn
simp [hz₀]
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theorem StronglyMeromorphicOn_of_makeStronglyMeromorphicOn
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{f : }
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{U : Set }
(hf : MeromorphicOn f U) :
StronglyMeromorphicOn hf.makeStronglyMeromorphicOn U := by
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intro z₀ hz₀
rw [stronglyMeromorphicAt_congr (makeStronglyMeromorphicOn_changeDiscrete' hf hz₀)]
exact StronglyMeromorphicAt_of_makeStronglyMeromorphic (hf z₀ hz₀)