Vec.zip : {α : Type u_1} → {n : Nat} → {β : Type u_2} → Vec α lcAny → Vec β lcAny → Vec (α × β) lcAny mkConstTuple : {α : Type u_1} → α → Nat → lcAny Fin.add : {n : Nat} → Fin lcAny → Fin lcAny → Fin lcAny Vec.cons : {α : Type u} → {n : Nat} → α → Vec α lcAny → Vec α lcAny Eq.rec : {α : Sort u_1} → {a : α} → {motive : α → ◾ → Sort u} → motive lcAny lcAny → {a : α} → ◾ → motive lcAny lcAny GetElem.getElem : {coll : Type u} → {idx : Type v} → {elem : Type w} → {valid : coll → idx → Prop} → [self : GetElem coll idx elem ◾] → coll → idx → ◾ → elem Term.constFold : {ctx : List Ty} → {ty : Ty} → _root_.Term lcAny lcAny → _root_.Term lcAny lcAny Term.denote : {ctx : List Ty} → {ty : Ty} → _root_.Term lcAny lcAny → HList lcAny lcAny → lcAny HList.get : {α : Type u_1} → {β : α → Type u_2} → {is : List α} → {i : α} → HList β lcAny → Member lcAny lcAny → β lcAny Member.head : {α : Type u_1} → {a : α} → {as : List α} → Member lcAny lcAny Ty.denote : Ty → Type MonadControl.liftWith : {m : Type u → Type v} → {n : Type u → Type w} → [self : MonadControl m n] → {α : Type u} → (({β : Type u} → n β → m lcAny) → m α) → n α MonadControl.restoreM : {m : Type u → Type v} → {n : Type u → Type w} → [self : MonadControl m n] → {α : Type u} → m lcAny → n α Decidable.casesOn : {p : Prop} → {motive : Decidable ◾ → Sort u} → Decidable ◾ → (◾ → motive lcAny) → (◾ → motive lcAny) → motive lcAny Lean.getConstInfo : {m : Type → Type} → [Monad m] → [MonadEnv m] → [MonadError m] → Name → m ConstantInfo Lean.Meta.instMonadMetaM : Monad fun α => Context → ST.Ref lcAny State → Core.Context → ST.Ref lcAny Core.State → lcVoid → EST.Out Exception lcAny α Lean.Meta.inferType : Expr → Context → ST.Ref lcAny State → Core.Context → ST.Ref lcAny Core.State → lcVoid → EST.Out Exception lcAny Expr Lean.Elab.Term.elabTerm : Syntax → Option Expr → Bool → Bool → Elab.Term.Context → ST.Ref lcAny Elab.Term.State → Context → ST.Ref lcAny State → Core.Context → ST.Ref lcAny Core.State → lcVoid → EST.Out Exception lcAny Expr Nat.add : Nat → Nat → Nat Magma.mul : Magma → lcAny → lcAny → lcAny weird1 : Bool → lcAny lamAny₁ : Bool → Monad fun α => lcAny lamAny₂ : Bool → Monad lcAny Term.constFold : {ctx : List Ty} → {ty : Ty} → _root_.Term lcAny lcAny → _root_.Term lcAny lcAny Term.denote : {ctx : List Ty} → {ty : Ty} → _root_.Term lcAny lcAny → HList Ty lcAny lcAny → lcAny HList.get : {α β : lcErased} → {is : List lcAny} → {i : lcAny} → HList lcAny lcAny lcAny → Member lcAny lcAny lcAny → lcAny Member.head : {α : lcErased} → {a : lcAny} → {as : List lcAny} → Member lcAny lcAny lcAny Ty.denote : lcErased MonadControl.liftWith : {m n : lcErased} → [self : MonadControl lcAny lcAny] → {α : lcErased} → (({β : lcErased} → lcAny → lcAny) → lcAny) → lcAny MonadControl.restoreM : {m n : lcErased} → [self : MonadControl lcAny lcAny] → {α : lcErased} → lcAny → lcAny Decidable.casesOn : {p motive : lcErased} → Bool → (lcErased → lcAny) → (lcErased → lcAny) → lcAny Lean.getConstInfo : {m : lcErased} → [Monad lcAny] → [MonadEnv lcAny] → [MonadError lcAny] → Name → lcAny Lean.Meta.instMonadMetaM : Monad lcAny Lean.Meta.inferType : Expr → Context → lcAny → Core.Context → lcAny → lcVoid → EST.Out Exception lcAny Expr Lean.Elab.Term.elabTerm : Syntax → Option Expr → Bool → Bool → Elab.Term.Context → lcAny → Context → lcAny → Core.Context → lcAny → lcVoid → EST.Out Exception lcAny Expr Nat.add : Nat → Nat → Nat Fin.add : {n : Nat} → Nat → Nat → Nat