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/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp only [if_pos c3]	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	no goals	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp only [if_neg c3]	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	no goals	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp only [isFreeIn_iff_mem_freeVarSet] at a1	case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	Please generate a tactic in lean4 to solve the state. STATE: case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp only [← List.mem_toFinset]	case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	Please generate a tactic in lean4 to solve the state. STATE: case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	apply Finset.mem_of_subset hd.h1 a1	case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h1.h1 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp	case h1.h2 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	case h1.h2 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	Please generate a tactic in lean4 to solve the state. STATE: case h1.h2 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	tauto	case h1.h2 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h1.h2 D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp only [List.length_map] at c2	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	contradiction	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	no goals	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	simp at c2	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	contradiction	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	no goals	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_theorem	[298, 1]	[424, 17]	exact ih	D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds D I V tl (def_ h1_X (List.map (fun x => if h1_v = x then h1_t...	no goals	Please generate a tactic in lean4 to solve the state. STATE: D : Type I : Interpretation D v t : VarName F F' : Formula h1_X : DefName h1_xs : List VarName h1_v h1_t : VarName V : VarAssignment D hd : Definition tl : List Definition ih : Holds D I (Function.updateITE V h1_v (V h1_t)) tl (def_ h1_X h1_xs) ↔ Holds ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_is_valid	[427, 1]	[439, 11]	simp only [IsValid] at h2	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : F.IsValid ⊢ F'.IsValid	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ F'.IsValid	Please generate a tactic in lean4 to solve the state. STATE: v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : F.IsValid ⊢ F'.IsValid TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_is_valid	[427, 1]	[439, 11]	simp only [IsValid]	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ F'.IsValid	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F'	Please generate a tactic in lean4 to solve the state. STATE: v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ F'.IsValid TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_is_valid	[427, 1]	[439, 11]	intro D I V E	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F'	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I V E F'	Please generate a tactic in lean4 to solve the state. STATE: v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F ⊢ ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F' TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_is_valid	[427, 1]	[439, 11]	simp only [← substitution_theorem D I V E v t F F' h1]	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I V E F'	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I (Function.updateITE V v (V t)) E F	Please generate a tactic in lean4 to solve the state. STATE: v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I V E F' TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/NV/Sub/Var/One/Ind/Sub.lean	FOL.NV.Sub.Var.One.Ind.substitution_is_valid	[427, 1]	[439, 11]	apply h2	v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I (Function.updateITE V v (V t)) E F	no goals	Please generate a tactic in lean4 to solve the state. STATE: v t : VarName F F' : Formula h1 : IsSub F v t F' h2 : ∀ (D : Type) (I : Interpretation D) (V : VarAssignment D) (E : Env), Holds D I V E F D : Type I : Interpretation D V : VarAssignment D E : Env ⊢ Holds D I (Function.updateITE V v (V t)) E F TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	induction e	α : Type e : RegExp α ⊢ e.is_nullable ↔ [] ∈ RegExp.languageOf α e	case char α : Type a✝ : α ⊢ (RegExp.char a✝).is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.char a✝) case epsilon α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.epsilon case zero α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.zero case union α : Type a✝¹ a✝ : RegExp α a...	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α ⊢ e.is_nullable ↔ [] ∈ RegExp.languageOf α e TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case char a => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp	α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.char a)	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.char a) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case epsilon => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp	α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.epsilon	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.epsilon TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case zero => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp	α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.zero	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case union r s r_ih s_ih => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp simp only [r_ih] simp only [s_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.union s)	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.union s) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case concat r s r_ih s_ih => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp simp only [r_ih] simp only [s_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.concat s)	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.concat s) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	case closure e _ => simp only [equiv_language_of_closure] simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α e.closure	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α e.closure TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.char a)	α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ {[a]}	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.char a) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ {[a]}	α : Type a : α ⊢ False ↔ [] ∈ {[a]}	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ (RegExp.char a).is_nullable ↔ [] ∈ {[a]} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type a : α ⊢ False ↔ [] ∈ {[a]}	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ False ↔ [] ∈ {[a]} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.epsilon	α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ {[]}	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.epsilon TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ {[]}	α : Type ⊢ True ↔ [] ∈ {[]}	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.epsilon.is_nullable ↔ [] ∈ {[]} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type ⊢ True ↔ [] ∈ {[]}	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ True ↔ [] ∈ {[]} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.zero	α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ ∅	α : Type ⊢ False ↔ [] ∈ ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.zero.is_nullable ↔ [] ∈ ∅ TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type ⊢ False ↔ [] ∈ ∅	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ False ↔ [] ∈ ∅ TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.union s)	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.union s) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.union s).is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∪ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [r_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [s_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∨ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∨ [] ∈ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.concat s)	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x}	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ RegExp.languageOf α (r.concat s) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x}	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x}	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ (r.concat s).is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x}	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ {x \| ∃ r_1 ∈ RegExp.languageOf α r, ∃ s_1 ∈ RegExp.languageOf α s, r_1 ++ s_1 = x} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [r_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ r.is_nullable ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [s_ih]	α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : r.is_nullable ↔ [] ∈ RegExp.languageOf α r s_ih : s.is_nullable ↔ [] ∈ RegExp.languageOf α s ⊢ [] ∈ RegExp.languageOf α r ∧ s.is_nullable ↔ [] ∈ RegExp.languageOf α r ∧ [] ∈ RegExp.languageOf α s TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [equiv_language_of_closure]	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α e.closure	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.epsilon.union (e.concat e.closure))	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α e.closure TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.languageOf]	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.epsilon.union (e.concat e.closure))	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r ++ s = x}	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ RegExp.languageOf α (RegExp.epsilon.union (e.concat e.closure)) TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp only [RegExp.is_nullable]	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r ++ s = x}	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ True ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r ++ s = x}	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ e.closure.is_nullable ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r +...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	is_nullable_def	[73, 1]	[107, 11]	simp	α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ True ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r ++ s = x}	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : e.is_nullable ↔ [] ∈ RegExp.languageOf α e ⊢ True ↔ [] ∈ {[]} ∪ {x \| ∃ r ∈ RegExp.languageOf α e, ∃ s ∈ {l \| ∃ rs, (∀ r ∈ rs, r ∈ RegExp.languageOf α e) ∧ rs.join = l}, r ++ s = x} TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	induction e	α : Type e : RegExp α ⊢ RegExp.languageOf α e.delta = if e.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	case char α : Type a✝ : α ⊢ RegExp.languageOf α (RegExp.char a✝).delta = if (RegExp.char a✝).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero case epsilon α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if RegExp.epsilon.is_nullable then RegExp.languageOf α RegExp....	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α ⊢ RegExp.languageOf α e.delta = if e.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case char a => simp only [RegExp.is_nullable] simp only [RegExp.languageOf] simp	α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if (RegExp.char a).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if (RegExp.char a).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case epsilon => simp only [RegExp.is_nullable] simp only [RegExp.languageOf] simp	α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if RegExp.epsilon.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if RegExp.epsilon.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case zero => simp only [RegExp.is_nullable] simp only [RegExp.languageOf] simp	α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if RegExp.zero.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if RegExp.zero.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case union r s r_ih s_ih => simp only [RegExp.languageOf] at r_ih simp only [RegExp.languageOf] at s_ih simp only [RegExp.languageOf] simp only [r_ih] simp only [s_ih] simp only [RegExp.is_nullable] ext cs simp tauto	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero ⊢ RegExp.languageOf α ...	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilo...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case closure e _ => simp only [RegExp.languageOf] simp only [RegExp.is_nullable] simp	α : Type e : RegExp α a_ih✝ : RegExp.languageOf α e.delta = if e.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero ⊢ RegExp.languageOf α e.closure.delta = if e.closure.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type e : RegExp α a_ih✝ : RegExp.languageOf α e.delta = if e.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero ⊢ RegExp.languageOf α e.closure.delta = if e.closure.is_nullable then RegExp.languageOf α RegEx...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.is_nullable]	α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if (RegExp.char a).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if (RegExp.char a).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf]	α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type a : α ⊢ ∅ = if False then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ RegExp.languageOf α (RegExp.char a).delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp	α : Type a : α ⊢ ∅ = if False then {[]} else ∅	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type a : α ⊢ ∅ = if False then {[]} else ∅ TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.is_nullable]	α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if RegExp.epsilon.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if True then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if RegExp.epsilon.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf]	α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if True then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type ⊢ {[]} = if True then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.epsilon.delta = if True then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp	α : Type ⊢ {[]} = if True then {[]} else ∅	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ {[]} = if True then {[]} else ∅ TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.is_nullable]	α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if RegExp.zero.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if RegExp.zero.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf]	α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type ⊢ ∅ = if False then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ RegExp.languageOf α RegExp.zero.delta = if False then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp	α : Type ⊢ ∅ = if False then {[]} else ∅	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type ⊢ ∅ = if False then {[]} else ∅ TACTIC:
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf] at r_ih	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero ⊢ RegExp.languageOf α ...	α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.union s).delta = if (r.union s).is_nullable then RegExp.lan...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilo...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf] at s_ih	α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.union s).delta = if (r.union s).is_nullable then RegExp.lan...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.union s).delta = if (r.union s).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.un...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.union s).delta = if (r.union s).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α r.delta ∪ RegExp.languageOf α s.delta = if (r.union s).is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.union s).delta = if (r.union s).is_nullable then RegExp.language...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [r_ih]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α r.delta ∪ RegExp.languageOf α s.delta = if (r.union s).is_nullable then {[]} else ∅	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ (if r.is_nullable then {[]} else ∅) ∪ RegExp.languageOf α s.delta = if (r.union s).is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α r.delta ∪ RegExp.languageOf α s.delta = if (r.union s).is_nullable then...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [s_ih]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ (if r.is_nullable then {[]} else ∅) ∪ RegExp.languageOf α s.delta = if (r.union s).is_nullable then {[]} else ∅	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if (r.union s).is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ (if r.is_nullable then {[]} else ∅) ∪ RegExp.languageOf α s.delta = if (r.union s).is_nulla...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.is_nullable]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if (r.union s).is_nullable then {[]} else ∅	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if r.is_nullable ∨ s.is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if (r.union...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	ext cs	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if r.is_nullable ∨ s.is_nullable then {[]} else ∅	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (cs ∈ (if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) ↔ cs ∈ if r.is_nullable ∨ s.is_nullable then {[]} ...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ ((if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) = if r.is_nul...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (cs ∈ (if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} else ∅) ↔ cs ∈ if r.is_nullable ∨ s.is_nullable then {[]} ...	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ r.is_nullable ∧ cs = [] ∨ s.is_nullable ∧ cs = [] ↔ (r.is_nullable ∨ s.is_nullable) ∧ cs = []	Please generate a tactic in lean4 to solve the state. STATE: case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (cs ∈ (if r.is_nullable then {[]} else ∅) ∪ if s.is_nullable then {[]} e...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	tauto	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ r.is_nullable ∧ cs = [] ∨ s.is_nullable ∧ cs = [] ↔ (r.is_nullable ∨ s.is_nullable) ∧ cs = []	no goals	Please generate a tactic in lean4 to solve the state. STATE: case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ r.is_nullable ∧ cs = [] ∨ s.is_nullable ∧ cs = [] ↔ (r.is_nullable ∨ s.i...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf] at r_ih	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero ⊢ RegExp.languageOf α ...	α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.concat s).delta = if (r.concat s).is_nullable then RegExp.l...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilo...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf] at s_ih	α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.concat s).delta = if (r.concat s).is_nullable then RegExp.l...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.concat s).delta = if (r.concat s).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α s_ih : RegExp.languageOf α s.delta = if s.is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.co...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.languageOf]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.concat s).delta = if (r.concat s).is_nullable then RegExp.languageOf α RegExp.epsilon else RegExp.languageOf α RegExp.zero	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ RegExp.languageOf α r.delta, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ RegExp.languageOf α (r.concat s).delta = if (r.concat s).is_nullable then RegExp.langua...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [r_ih]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ RegExp.languageOf α r.delta, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} else ∅	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} else ∅	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ RegExp.languageOf α r.delta, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++ s_1 =...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [s_ih]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} else ∅	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} e...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ RegExp.languageOf α s.delta, r_1 ++...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [RegExp.is_nullable]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} = if (r.concat s).is_nullable then {[]} e...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} = if r.is_nullable ∧ s.is_nullable then {...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	ext cs	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} = if r.is_nullable ∧ s.is_nullable then {...	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ cs ∈ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} ↔ cs ∈ if r.is_nu...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ ⊢ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ cs ∈ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nullable then {[]} else ∅, r_1 ++ s_1 = x} ↔ cs ∈ if r.is_nu...	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs) ↔ (r.is_nullable ∧ s.is_nullable) ∧ cs ...	Please generate a tactic in lean4 to solve the state. STATE: case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ cs ∈ {x \| ∃ r_1 ∈ if r.is_nullable then {[]} else ∅, ∃ s_1 ∈ if s.is_nul...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	constructor	case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs) ↔ (r.is_nullable ∧ s.is_nullable) ∧ cs ...	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs) → (r.is_nullable ∧ s.is_nullable) ∧ ...	Please generate a tactic in lean4 to solve the state. STATE: case h α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	intro a1	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs) → (r.is_nullable ∧ s.is_nullable) ∧ ...	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs ...	Please generate a tactic in lean4 to solve the state. STATE: case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α ⊢ (∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	apply Exists.elim a1	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs ...	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs ⊢ ∀ (a : List α), ((r.is_nullable ∧...	Please generate a tactic in lean4 to solve the state. STATE: case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	intro xs a2	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs ⊢ ∀ (a : List α), ((r.is_nullable ∧...	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs xs : List α a2 : (r.is_nullable ∧ xs = ...	Please generate a tactic in lean4 to solve the state. STATE: case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	clear a1	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ r_1 ++ s_1 = cs xs : List α a2 : (r.is_nullable ∧ xs = ...	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2 : (r.is_nullable ∧ xs = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs = []	Please generate a tactic in lean4 to solve the state. STATE: case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs : List α a1 : ∃ r_1, (r.is_nullable ∧ r_1 = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	cases a2	case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2 : (r.is_nullable ∧ xs = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs = []	case h.mp.intro α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α left✝ : r.is_nullable ∧ xs = [] right✝ : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullabl...	Please generate a tactic in lean4 to solve the state. STATE: case h.mp α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2 : (r.is_nullable ∧ xs = []) ∧ ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case _ a2_left a2_right => cases a2_left case _ a2_left_left a2_left_right => apply Exists.elim a2_right intro ys a3 clear a2_right cases a3 case _ a3_left a3_right => cases a3_left case _ a3_left_left a3_left_right => simp only [a2_left_left] simp only [a3_left_left]...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left : r.is_nullable ∧ xs = [] a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs = []	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left : r.is_nullable ∧ xs = [] a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = [])...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	cases a2_left	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left : r.is_nullable ∧ xs = [] a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs ⊢ (r.is_nullable ∧ s.is_nullable) ∧ cs = []	case intro α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs left✝ : r.is_nullable right✝ : xs = [] ⊢ (r.is_nullable ∧ s.is_nul...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left : r.is_nullable ∧ xs = [] a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = [])...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case _ a2_left_left a2_left_right => apply Exists.elim a2_right intro ys a3 clear a2_right cases a3 case _ a3_left a3_right => cases a3_left case _ a3_left_left a3_left_right => simp only [a2_left_left] simp only [a3_left_left] simp only [a2_left_right] at a3_right simp only [a...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ⊢ (r.is_nullable ∧ s.is_...	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	apply Exists.elim a2_right	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ⊢ (r.is_nullable ∧ s.is_...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ⊢ ∀ (a : List α), (s.is_...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	intro ys a3	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ⊢ ∀ (a : List α), (s.is_...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3 : (s.is_n...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	clear a2_right	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3 : (s.is_n...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3 : (s.is_nullable ∧ ys = []) ∧ xs ++ ys = cs ⊢ (r.is_nullable ∧ s.is_nul...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_right : ∃ s_1, (s.is_nullable ∧ s_1 = []) ∧ xs ++ s_1 = cs a2_left_left : r...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	cases a3	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3 : (s.is_nullable ∧ ys = []) ∧ xs ++ ys = cs ⊢ (r.is_nullable ∧ s.is_nul...	case intro α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α left✝ : s.is_nullable ∧ ys = [] right✝ : xs ++ ys = cs ⊢ (r.is_...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3 : (s.is_nu...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case _ a3_left a3_right => cases a3_left case _ a3_left_left a3_left_right => simp only [a2_left_left] simp only [a3_left_left] simp only [a2_left_right] at a3_right simp only [a3_left_right] at a3_right simp at a3_right tauto	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left : s.is_nullable ∧ ys = [] a3_right : xs ++ ys = cs ⊢ (r.is_nullabl...	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left : s.i...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	cases a3_left	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left : s.is_nullable ∧ ys = [] a3_right : xs ++ ys = cs ⊢ (r.is_nullabl...	case intro α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs left✝ : s.is_nullable right✝ : ys = []...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left : s.i...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	case _ a3_left_left a3_left_right => simp only [a2_left_left] simp only [a3_left_left] simp only [a2_left_right] at a3_right simp only [a3_left_right] at a3_right simp at a3_right tauto	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	no goals	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [a2_left_left]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [a3_left_left]	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [a2_left_right] at a3_right	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs ++ ys = cs a3_left_left : s.is_nullable a3_left_right : ys =...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left : s.is_nullable a3_left_right : ys = [] a3_right : [] ++ ys =...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_right : xs...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp only [a3_left_right] at a3_right	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left : s.is_nullable a3_left_right : ys = [] a3_right : [] ++ ys =...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left : s.is_nullable a3_left_right : ys = [] a3_right : [] ++ [] =...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left ...
https://github.com/pthomas505/FOL.git	097a4abea51b641d144539b9a0f7516f3b9d818c	FOL/Parsing/Brzozowski.lean	language_of_delta	[121, 1]	[197, 11]	simp at a3_right	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left : s.is_nullable a3_left_right : ys = [] a3_right : [] ++ [] =...	α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left : s.is_nullable a3_left_right : ys = [] a3_right : [] = cs ⊢ ...	Please generate a tactic in lean4 to solve the state. STATE: α : Type r s : RegExp α r_ih : RegExp.languageOf α r.delta = if r.is_nullable then {[]} else ∅ s_ih : RegExp.languageOf α s.delta = if s.is_nullable then {[]} else ∅ cs xs : List α a2_left_left : r.is_nullable a2_left_right : xs = [] ys : List α a3_left_left ...

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