Split (1)

train · 219k rows

url stringclasses 147 values	commit stringclasses 147 values	file_path stringlengths 7 101	full_name stringlengths 1 94	start stringlengths 6 10	end stringlengths 6 11	tactic stringlengths 1 11.2k	state_before stringlengths 3 2.09M	state_after stringlengths 6 2.09M	input stringlengths 73 2.09M
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	simp only [mem_prod_eq, mem_image, mem_union, mem_singleton_iff, mem_univ, true_and_iff, Prod.ext_iff] at yt m ⊢	case intro.intro.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X z : �...	case intro.intro.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X z : �...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	induction' z using OnePoint.rec with z	case intro.intro.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X z : �...	case intro.intro.intro.intro.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X yt...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	simp only [eq_self_iff_true, or_true_iff]	case intro.intro.intro.intro.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X yt...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	simp only [coe_eq_inf_iff, or_false_iff, coe_eq_coe] at m ⊢	case intro.intro.intro.intro.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X yt...	case intro.intro.intro.intro.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X yt...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	rcases m with ⟨w, wu, wz⟩	case intro.intro.intro.intro.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ⊆ s y : X yt...	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	refine ⟨⟨y, z⟩, sub (mk_mem_prod yt ?_), rfl, rfl⟩	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	rw [← wz]	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.prod_mem_inf_of_mem_atInf	[353, 1]	[366, 13]	exact wu	case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t : Set X tx : t ∈ 𝓝 x u : Set ℂ ui : u ∈ atInf sub : t ×ˢ u ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case intro.intro.intro.intro.h₂.intro.intro X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T s : Set (X × ℂ) x : X f : s ∈ (𝓝 x).prod atInf t...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	rw [holomorphic_iff]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ Holomorphic I I fun z => ↑z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => ↑z) ∧ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ Holomorphic I I fun z => ↑z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	use continuous_coe	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => ↑z) ∧ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => ↑z) ∧ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	intro z	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I ↑z) ∘ (fun z => ↑z) ∘ ↑(extChartAt I z).symm) (↑(extChartAt I z) z)	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : ℂ), AnalyticAt ℂ (↑(extChartAt I ↑x) ∘ (fun z => ↑z) ∘ ↑(extChartAt I x)....
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	simp only [extChartAt_coe, extChartAt_eq_refl, PartialEquiv.refl_symm, PartialEquiv.refl_coe, Function.comp_id, id_eq, Function.comp, PartialEquiv.invFun_as_coe]	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I ↑z) ∘ (fun z => ↑z) ∘ ↑(extChartAt I z).symm) (↑(extChartAt I z) z)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑coePartialEquiv.symm ↑x) z	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I ↑z) ∘ (fun z => ↑z) ∘ ↑(extChartAt I z).symm)...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	rw [← PartialEquiv.invFun_as_coe]	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑coePartialEquiv.symm ↑x) z	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => coePartialEquiv.invFun ↑x) z	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑coePartialEquiv.symm ↑x) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	simp only [coePartialEquiv, toComplex_coe]	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => coePartialEquiv.invFun ↑x) z	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => coePartialEquiv.invFun ↑x) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_coe	[369, 1]	[373, 101]	apply analyticAt_id	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_toComplex	[376, 1]	[380, 22]	rw [holomorphicAt_iff]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ HolomorphicAt I I OnePoint.toComplex ↑z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ ContinuousAt OnePoint.toComplex ↑z ∧ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex) ∘ OnePoint.toComplex ∘ ↑(extChartAt I ↑z).symm) (↑(extChartA...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ HolomorphicAt I I OnePoint.toComplex ↑z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_toComplex	[376, 1]	[380, 22]	use continuousAt_toComplex	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ ContinuousAt OnePoint.toComplex ↑z ∧ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex) ∘ OnePoint.toComplex ∘ ↑(extChartAt I ↑z).symm) (↑(extChartA...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex) ∘ OnePoint.toComplex ∘ ↑(extChartAt I ↑z).symm) (↑(extChartAt I ↑z) ↑z)	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ ContinuousAt OnePoint.toComplex ↑z ∧ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex)...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_toComplex	[376, 1]	[380, 22]	simp only [toComplex_coe, Function.comp, extChartAt_coe, extChartAt_eq_refl, PartialEquiv.refl_coe, id, PartialEquiv.symm_symm, coePartialEquiv_apply, coePartialEquiv_symm_apply]	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex) ∘ OnePoint.toComplex ∘ ↑(extChartAt I ↑z).symm) (↑(extChartAt I ↑z) ↑z)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I (↑z).toComplex) ∘ OnePoint.toComplex ∘ ↑(extC...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_toComplex	[376, 1]	[380, 22]	apply analyticAt_id	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => x) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	rw [holomorphic_iff]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ Holomorphic I I fun z => z⁻¹	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => z⁻¹) ∧ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ Holomorphic I I fun z => z⁻¹ TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	use continuous_inv	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => z⁻¹) ∧ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ (Continuous fun z => z⁻¹) ∧ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	intro z	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I x).symm) (↑(extChartAt I x) x)	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : 𝕊 ⊢ AnalyticAt ℂ (↑(extChartAt I z⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I z).symm) (↑(extChartAt I z) z)	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ ∀ (x : 𝕊), AnalyticAt ℂ (↑(extChartAt I x⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	induction' z using OnePoint.rec with z	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : 𝕊 ⊢ AnalyticAt ℂ (↑(extChartAt I z⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I z).symm) (↑(extChartAt I z) z)	case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (↑(extChartAt I ∞⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ∞).symm) (↑(extChartAt I ∞) ∞) case right.h₂ X : Type inst✝⁴ : Topolo...	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : 𝕊 ⊢ AnalyticAt ℂ (↑(extChartAt I z⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I z).sy...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	simp only [inv_inf, extChartAt_inf, ← coe_zero, extChartAt_coe, Function.comp, PartialEquiv.trans_apply, Equiv.toPartialEquiv_apply, invEquiv_apply, coePartialEquiv_symm_apply, toComplex_coe, PartialEquiv.coe_trans_symm, PartialEquiv.symm_symm, coePartialEquiv_apply, Equiv.toPartialEquiv_symm_apply, invEquiv_symm...	case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (↑(extChartAt I ∞⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ∞).symm) (↑(extChartAt I ∞) ∞)	case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (fun x => x) 0	Please generate a tactic in lean4 to solve the state. STATE: case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (↑(extChartAt I ∞⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ∞).symm) ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	apply analyticAt_id	case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (fun x => x) 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T ⊢ AnalyticAt ℂ (fun x => x) 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	simp only [extChartAt_coe, PartialEquiv.symm_symm, Function.comp, coePartialEquiv_apply, coePartialEquiv_symm_apply, toComplex_coe]	case right.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I (↑z)⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ↑z).symm) (↑(extChartAt I ↑z) ↑z)	case right.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z	Please generate a tactic in lean4 to solve the state. STATE: case right.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (↑(extChartAt I (↑z)⁻¹) ∘ (fun z => z⁻¹) ∘ ↑(extChartAt I ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	by_cases z0 : z = 0	case right.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : Topol...	Please generate a tactic in lean4 to solve the state. STATE: case right.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	simp only [z0, coe_zero, extChartAt_inf, PartialEquiv.trans_apply, coePartialEquiv_symm_apply, invEquiv_apply, Equiv.toPartialEquiv_apply, inv_zero', inv_inv, toComplex_coe]	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => x) 0	Please generate a tactic in lean4 to solve the state. STATE: case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	apply analyticAt_id	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => x) 0	no goals	Please generate a tactic in lean4 to solve the state. STATE: case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : z = 0 ⊢ AnalyticAt ℂ (fun x => x) 0 TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	simp only [inv_coe z0, extChartAt_coe, coePartialEquiv_symm_apply]	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ AnalyticAt ℂ (fun x => (↑x)⁻¹.toComplex) z	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ AnalyticAt ℂ (fun x => ↑(extChartAt I (↑z)⁻¹) (↑x)⁻¹) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	refine ((analyticAt_id _ _).inv z0).congr ?_	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ AnalyticAt ℂ (fun x => (↑x)⁻¹.toComplex) z	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ (𝓝 z).EventuallyEq (fun x => (id x)⁻¹) fun x => (↑x)⁻¹.toComplex	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ AnalyticAt ℂ (fun x => (↑x)⁻¹.toComplex) z TACTIC:
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	refine (continuousAt_id.eventually_ne z0).mp (eventually_of_forall fun w w0 ↦ ?_)	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ (𝓝 z).EventuallyEq (fun x => (id x)⁻¹) fun x => (↑x)⁻¹.toComplex	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : id w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toComplex) w	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 ⊢ (𝓝 z).EventuallyEq (fun x => (id x)⁻¹) fun x => (↑x)⁻¹.toComple...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	rw [id] at w0	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : id w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toComplex) w	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toComplex) w	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : id w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toC...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_inv	[383, 1]	[399, 63]	simp only [inv_coe w0, toComplex_coe, id]	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toComplex) w	no goals	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T z : ℂ z0 : ¬z = 0 w : ℂ w0 : w ≠ 0 ⊢ (fun x => (id x)⁻¹) w = (fun x => (↑x)⁻¹.toComp...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_fill_coe	[426, 1]	[428, 69]	simp only [OnePoint.continuousAt_coe, Function.comp, fill_coe, fc]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : ContinuousAt f z ⊢ ContinuousAt (fill f y) ↑z	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : ContinuousAt f z ⊢ Continuo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_fill_inf	[431, 1]	[434, 63]	simp only [OnePoint.continuousAt_infty', lift_inf, Filter.coclosedCompact_eq_cocompact, ← atInf_eq_cocompact, Function.comp, fill_coe, fill_inf, fi]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fi : Tendsto f atInf (𝓝 y) ⊢ ContinuousAt (fill f y) ∞	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fi : Tendsto f atInf (𝓝 y) ⊢ Co...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_fill	[437, 1]	[441, 48]	rw [continuous_iff_continuousAt]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) ⊢ Continuous (fill f y)	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) ⊢ ∀ (x : 𝕊), ContinuousAt (fill f y) x	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_fill	[437, 1]	[441, 48]	intro z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) ⊢ ∀ (x : 𝕊), ContinuousAt (fill f y) x	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) z : 𝕊 ⊢ ContinuousAt (fill f y) z	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_fill	[437, 1]	[441, 48]	induction z using OnePoint.rec	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) z : 𝕊 ⊢ ContinuousAt (fill f y) z	case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) ⊢ ContinuousAt (fill f y) ∞ case h₂ X ...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_fill	[437, 1]	[441, 48]	exact continuousAt_fill_inf fi	case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) ⊢ ContinuousAt (fill f y) ∞	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : T...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_fill	[437, 1]	[441, 48]	exact continuousAt_fill_coe fc.continuousAt	case h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : Tendsto f atInf (𝓝 y) x✝ : ℂ ⊢ ContinuousAt (fill f y) ↑x✝	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → X y : X fc : Continuous f fi : T...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_coe	[444, 1]	[451, 28]	have e : (fun x : 𝕊 ↦ f x.toComplex) =ᶠ[𝓝 ↑z] fill f y := by simp only [OnePoint.nhds_coe_eq, Filter.EventuallyEq, Filter.eventually_map, toComplex_coe, fill_coe, eq_self_iff_true, Filter.eventually_true]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z ⊢ HolomorphicAt I I (fill f y) ↑z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ Hol...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z ⊢ Hol...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_coe	[444, 1]	[451, 28]	refine HolomorphicAt.congr ?_ e	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ Hol...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ Hol...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_coe	[444, 1]	[451, 28]	refine fa.comp_of_eq holomorphicAt_toComplex ?_	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ Hol...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ (↑z...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_coe	[444, 1]	[451, 28]	simp only [toComplex_coe]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y) ⊢ (↑z...	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z e : (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_coe	[444, 1]	[451, 28]	simp only [OnePoint.nhds_coe_eq, Filter.EventuallyEq, Filter.eventually_map, toComplex_coe, fill_coe, eq_self_iff_true, Filter.eventually_true]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z ⊢ (𝓝 ↑z).EventuallyEq (fun x => f x.toComplex) (fill f y)	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : HolomorphicAt I I f z ⊢ (𝓝...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	rw [holomorphicAt_iff]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ HolomorphicAt I...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ContinuousAt (f...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, Holomo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	use continuousAt_fill_inf fi	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ContinuousAt (f...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ Anal...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, Holomo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [Function.comp, extChartAt, PartialHomeomorph.extend, fill, rec_inf, modelWithCornersSelf_partialEquiv, PartialEquiv.trans_refl, chartAt_inf, PartialHomeomorph.symm_toPartialEquiv, PartialEquiv.symm_symm, PartialHomeomorph.toFun_eq_coe, invCoePartialHomeomorph_apply, PartialHomeomorph.coe_coe_symm, invC...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ Anal...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ Anal...	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in at...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	rw [e]	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) e : (f...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) e : (f...	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in at...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	clear e	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) e : (f...	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ Anal...	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in at...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply Complex.analyticAt_of_differentiable_on_punctured_nhds_of_continuousAt	case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ Anal...	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	Please generate a tactic in lean4 to solve the state. STATE: case right X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in at...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	funext z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ (fun z => ↑(cha...	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ ⊢ ↑...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, Holomo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	by_cases z0 : z = 0	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ ⊢ ↑...	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ z...	Please generate a tactic in lean4 to solve the state. STATE: case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [if_pos z0, z0, coe_zero, inv_zero', rec_inf, extChartAt, PartialHomeomorph.extend, modelWithCornersSelf_partialEquiv, PartialEquiv.trans_refl, PartialHomeomorph.toFun_eq_coe, if_true]	case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ z...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case pos X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atI...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [inv_coe z0, rec_coe, extChartAt, PartialHomeomorph.extend, modelWithCornersSelf_partialEquiv, PartialEquiv.trans_refl, z0, ite_false, PartialHomeomorph.toFun_eq_coe]	case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ z...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case neg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atI...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply (inv_tendsto_atInf.eventually fa).mp	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply (inv_tendsto_atInf.eventually (fi.eventually ((isOpen_extChartAt_source I y).eventually_mem (mem_extChartAt_source I y)))).mp	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply eventually_nhdsWithin_of_forall	case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ ∀...	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	intro z z0 m fa	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢...	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [Set.mem_compl_iff, Set.mem_singleton_iff] at z0	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	have e : (fun z ↦ extChartAt I y (if z = 0 then y else f z⁻¹)) =ᶠ[𝓝 z] fun z ↦ extChartAt I y (f z⁻¹) := by refine (continuousAt_id.eventually_ne z0).mp (eventually_of_forall fun w w0 ↦ ?_) simp only [Ne, id_eq] at w0; simp only [w0, if_false]	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	refine DifferentiableAt.congr_of_eventuallyEq ?_ e	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply AnalyticAt.differentiableAt	case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y)...	case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 ...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply HolomorphicAt.analyticAt I I	case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 ...	case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 ...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	refine (HolomorphicAt.extChartAt ?_).comp ?_	case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 ...	case right.hd.h.a.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f a...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h.a X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	exact m	case right.hd.h.a.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f a...	case right.hd.h.a.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f a...	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h.a.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	exact fa.comp (holomorphicAt_id.inv z0)	case right.hd.h.a.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f a...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right.hd.h.a.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	refine (continuousAt_id.eventually_ne z0).mp (eventually_of_forall fun w w0 ↦ ?_)	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ m : f z⁻¹...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ m : f z⁻¹...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, Holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [Ne, id_eq] at w0	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ m : f z⁻¹...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ m : f z⁻¹...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, Holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [w0, if_false]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) z : ℂ m : f z⁻¹...	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa✝ : ∀ᶠ (z : ℂ) in atInf, Holo...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	refine (continuousAt_extChartAt' I ?_).comp ?_	case right.hc X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (𝓝 y) ⊢ C...	case right.hc.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [eq_self_iff_true, if_pos, mem_extChartAt_source]	case right.hc.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_1 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [← continuousWithinAt_compl_self, ContinuousWithinAt]	case right.hc.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (...	case right.hc.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	apply tendsto_nhdsWithin_congr (f := fun z ↦ f z⁻¹)	case right.hc.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atInf (...	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atI...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2 X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	intro z z0	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atI...	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f at...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [Set.mem_compl_iff, Set.mem_singleton_iff] at z0	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f at...	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f at...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	simp only [z0, if_false]	case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f at...	case right.hc.refine_2.hf X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atIn...	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2.hfg X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa :...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphicAt_fill_inf	[454, 1]	[492, 53]	exact Filter.Tendsto.comp fi inv_tendsto_atInf	case right.hc.refine_2.hf X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀ᶠ (z : ℂ) in atInf, HolomorphicAt I I f z fi : Tendsto f atIn...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case right.hc.refine_2.hf X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : ∀...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_fill	[495, 1]	[499, 40]	intro z	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) ⊢ Holomorphic I I (fill f y)	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) z : 𝕊 ⊢ HolomorphicAt I I (fill f y) z	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tend...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_fill	[495, 1]	[499, 40]	induction z using OnePoint.rec	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) z : 𝕊 ⊢ HolomorphicAt I I (fill f y) z	case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) ⊢ HolomorphicAt I I (fill f y) ∞ ...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z✝ : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Ten...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_fill	[495, 1]	[499, 40]	exact holomorphicAt_fill_inf (eventually_of_forall fa) fi	case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) ⊢ HolomorphicAt I I (fill f y) ∞	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f f...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.holomorphic_fill	[495, 1]	[499, 40]	exact holomorphicAt_fill_coe (fa _)	case h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f fi : Tendsto f atInf (𝓝 y) x✝ : ℂ ⊢ HolomorphicAt I I (fill f...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f✝ : ℂ → ℂ g : X → ℂ → ℂ y✝ : 𝕊 x : X z : ℂ f : ℂ → T y : T fa : Holomorphic I I f f...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_coe'	[502, 1]	[506, 50]	simp only [lift', ContinuousAt, uncurry, rec_coe, OnePoint.nhds_coe_eq, prod_nhds_eq, Filter.tendsto_map'_iff, Function.comp]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : ContinuousAt (uncurry g) (x, z) ⊢ ContinuousAt (uncurry (lift' g y)) (x, ↑z)	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : ContinuousAt (uncurry g) (x, z) ⊢ Tendsto (fun x => ↑(g x.1 x.2)) (𝓝 (x, z)) (Filter.map OnePoint.some (�...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : ContinuousAt (uncurry g) (x, z) ⊢ ContinuousA...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_coe'	[502, 1]	[506, 50]	exact Filter.Tendsto.comp Filter.tendsto_map gc	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : ContinuousAt (uncurry g) (x, z) ⊢ Tendsto (fun x => ↑(g x.1 x.2)) (𝓝 (x, z)) (Filter.map OnePoint.some (�...	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : ContinuousAt (uncurry g) (x, z) ⊢ Tendsto (fu...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [ContinuousAt, Filter.Tendsto, Filter.le_def, Filter.mem_map]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ ContinuousAt (uncurry (lift' g ∞)) (x, ∞)	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ ∀ x_1 ∈ 𝓝 (uncurry (lift' g ∞) (x, ∞)), uncurry (lift' g ...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	intro s m	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ ∀ x_1 ∈ 𝓝 (uncurry (lift' g ∞) (x, ∞)), uncurry (lift' g ...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf s : Set 𝕊 m : s ∈ 𝓝 (uncurry (lift' g ∞) (x, ∞)) ⊢ uncurry...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [OnePoint.nhds_infty_eq, Filter.coclosedCompact_eq_cocompact, Filter.mem_sup, Filter.mem_map, Filter.mem_pure, ← atInf_eq_cocompact, lift', rec_inf, uncurry] at m	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf s : Set 𝕊 m : s ∈ 𝓝 (uncurry (lift' g ∞) (x, ∞)) ⊢ uncurry...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s ⊢ uncurry...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [true_imp_iff, mem_setOf, uncurry, Tendsto] at gi	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s ⊢ uncurry...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Filter.map (uncurry g) ((𝓝 x).prod atInf) ≤ atInf s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s ⊢ un...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	specialize gi m.1	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Filter.map (uncurry g) ((𝓝 x).prod atInf) ≤ atInf s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s ⊢ un...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : OnePoint.some ⁻¹' s ∈ Filter.map (uncurry g) ((𝓝 x).pr...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gi : Filter.map (uncurry g) ((𝓝 x).prod atInf) ≤ ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [Filter.mem_map, preimage_preimage] at gi	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : OnePoint.some ⁻¹' s ∈ Filter.map (uncurry g) ((𝓝 x).pr...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod atInf ⊢ u...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	rw [e]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod atInf e :...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod atInf e :...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	exact prod_mem_inf_of_mem_atInf gi	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod atInf e :...	no goals	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	apply Set.ext	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod atInf ⊢ u...	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod at...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	intro ⟨x, z⟩	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x).prod at...	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z✝ : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x✝).prod...	Please generate a tactic in lean4 to solve the state. STATE: case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	induction z using OnePoint.rec	case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z✝ : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x✝).prod...	case h.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x✝).pr...	Please generate a tactic in lean4 to solve the state. STATE: case h X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z✝ : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atIn...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [mem_preimage, mem_image, mem_union, mem_prod_eq, mem_univ, true_and_iff, mem_singleton_iff, eq_self_iff_true, or_true_iff, iff_true_iff, uncurry, lift', rec_inf, m.2]	case h.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x✝).pr...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h.h₁ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ at...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuousAt_lift_inf'	[509, 1]	[526, 45]	simp only [uncurry, lift', mem_preimage, rec_coe, prod_singleton, image_univ, mem_union, mem_image, Prod.ext_iff, coe_eq_coe, Prod.exists, exists_eq_right_right, exists_eq_right, mem_range, OnePoint.infty_ne_coe, and_false, exists_false, or_false]	case h.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝¹ : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ atInf ∧ ∞ ∈ s gi : (fun x => ↑(uncurry g x)) ⁻¹' s ∈ (𝓝 x✝¹)....	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h.h₂ X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝¹ : X z : ℂ s : Set 𝕊 m : OnePoint.some ⁻¹' s ∈ a...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_lift'	[529, 1]	[535, 49]	rw [continuous_iff_continuousOn_univ]	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ Continuous (uncurry...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ ContinuousOn (uncur...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendst...
https://github.com/girving/ray.git	0be790285dd0fce78913b0cb9bddaffa94bd25f9	Ray/AnalyticManifold/RiemannSphere.lean	RiemannSphere.continuous_lift'	[529, 1]	[535, 49]	intro ⟨x, z⟩ _	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf ⊢ ContinuousOn (uncur...	X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x✝ : X z✝ : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendsto (uncurry g) ((𝓝 x).prod atInf) atInf x : X z : 𝕊 a✝ : (...	Please generate a tactic in lean4 to solve the state. STATE: X : Type inst✝⁴ : TopologicalSpace X Y : Type inst✝³ : TopologicalSpace Y T : Type inst✝² : TopologicalSpace T inst✝¹ : ChartedSpace ℂ T inst✝ : AnalyticManifold I T f : ℂ → ℂ g : X → ℂ → ℂ y : 𝕊 x : X z : ℂ gc : Continuous (uncurry g) gi : ∀ (x : X), Tendst...

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