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Stefan Kebekus 2024-07-31 14:54:41 +02:00
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import Nevanlinna.harmonicAt_examples
import Nevanlinna.harmonicAt_meanValue
theorem jensen_case_R_eq_one
(f : )
(h₁f : Differentiable f)
(h₂f : f 0 ≠ 0)
(S : Finset )
(a : S → )
(ha : ∀ s, a s ∈ Metric.ball 0 1)
(F : )
(h₁F : Differentiable F)
(h₂F : ∀ z, F z ≠ 0)
(h₃F : f = fun z ↦ (F z) * ∑ s : S, (z - a s))
:
Real.log ‖f 0‖ = -∑ s, Real.log (‖a s‖⁻¹) + (2 * Real.pi)⁻¹ * ∫ (x : ) in (0)..2 * Real.pi, Real.log ‖f (circleMap 0 1 x)‖ := by
let logAbsF := fun w ↦ Real.log ‖F w‖
have t₀ : ∀ z, HarmonicAt logAbsF z := by
intro z
apply logabs_of_holomorphicAt_is_harmonic
sorry
exact h₂F z
have t₁ : (∫ (x : ) in (0)..2 * Real.pi, logAbsF (circleMap 0 1 x)) = 2 * Real.pi * logAbsF 0 := by
apply harmonic_meanValue t₀ 1
exact Real.zero_lt_one
let logAbsf := fun w ↦ Real.log ‖f w‖
have s₀ : ∀ z, f z ≠ 0 → logAbsf z = logAbsF z + ∑ s, Real.log ‖z - a s‖ := by
sorry
have s₁ : ∀ z, f z ≠ 0 → logAbsF z = logAbsf z - ∑ s, Real.log ‖z - a s‖ := by
sorry
rw [s₁ 0 h₂f] at t₁
have {x : } : f (circleMap 0 1 x) ≠ 0 := by sorry
simp_rw [s₁ (circleMap 0 1 _) this] at t₁
rw [intervalIntegral.integral_sub] at t₁
rw [intervalIntegral.integral_finset_sum] at t₁
have {i : S} : ∫ (x : ) in (0)..2 * Real.pi, Real.log ‖circleMap 0 1 x - a i‖ = 0 := by
sorry
simp_rw [this] at t₁
simp at t₁
rw [t₁]
simp
have : Real.pi⁻¹ * 2⁻¹ * (2 * Real.pi * (logAbsf 0 - ∑ x ∈ S.attach, Real.log (Complex.abs (a x)))) = logAbsf 0 - ∑ x ∈ S.attach, Real.log (Complex.abs (a x)) := by
sorry
rw [this]
simp
rfl
-- ∀ i ∈ Finset.univ, IntervalIntegrable (fun x => Real.log ‖circleMap 0 1 x - a i‖) MeasureTheory.volume 0 (2 * Real.pi)
intro i hi
apply Continuous.intervalIntegrable
apply continuous_iff_continuousAt.2
intro x
have : (fun x => Real.log ‖circleMap 0 1 x - a i‖) = Real.log ∘ Complex.abs ∘ (fun x ↦ circleMap 0 1 x - a i) :=
rfl
rw [this]
apply ContinuousAt.comp
apply Real.continuousAt_log
simp
by_contra ha'
let A := ha i
rw [← ha'] at A
simp at A
apply ContinuousAt.comp
apply Complex.continuous_abs.continuousAt
fun_prop
-- IntervalIntegrable (fun x => logAbsf (circleMap 0 1 x)) MeasureTheory.volume 0 (2 * Real.pi)
apply Continuous.intervalIntegrable
apply continuous_iff_continuousAt.2
intro x
have : (fun x => logAbsf (circleMap 0 1 x)) = Real.log ∘ Complex.abs ∘ f ∘ (fun x ↦ circleMap 0 1 x) :=
rfl
rw [this]
apply ContinuousAt.comp
simp
sorry
apply ContinuousAt.comp
apply Complex.continuous_abs.continuousAt
apply ContinuousAt.comp
apply h₁f.continuous.continuousAt
let A := continuous_circleMap 0 1
apply A.continuousAt
-- IntervalIntegrable (fun x => ∑ s : { x // x ∈ S }, Real.log ‖circleMap 0 1 x - a s‖) MeasureTheory.volume 0 (2 * Real.pi)
apply Continuous.intervalIntegrable
apply continuous_finset_sum
intro i hi
apply continuous_iff_continuousAt.2
intro x
have : (fun x => Real.log ‖circleMap 0 1 x - a i‖) = Real.log ∘ Complex.abs ∘ (fun x ↦ circleMap 0 1 x - a i) :=
rfl
rw [this]
apply ContinuousAt.comp
apply Real.continuousAt_log
simp
by_contra ha'
let A := ha i
rw [← ha'] at A
simp at A
apply ContinuousAt.comp
apply Complex.continuous_abs.continuousAt
fun_prop