t_rect = fun (P : t -> Type) (f : let x := t in forall x0 : x, P x0 -> P (k x0)) => fix F (t : t) : P t := match t as t0 return (P t0) with | k _ x0 => f x0 (F x0) end : forall P : t -> Type, (let x := t in forall x0 : x, P x0 -> P (k x0)) -> forall t : t, P t Argument scopes are [function_scope function_scope _] = fun d : TT => match d with | {| f3 := b |} => b end : TT -> 0 = 0 = fun d : TT => match d with | {| f3 := b |} => b end : TT -> 0 = 0 proj = fun (x y : nat) (P : nat -> Type) (def : P x) (prf : P y) => match Nat.eq_dec x y with | left eqprf => match eqprf in (_ = z) return (P z) with | eq_refl => def end | right _ => prf end : forall (x y : nat) (P : nat -> Type), P x -> P y -> P y Argument scopes are [nat_scope nat_scope function_scope _ _] foo = fix foo (A : Type) (l : list A) {struct l} : option A := match l with | nil => None | x0 :: nil => Some x0 | x0 :: (_ :: _) as l0 => foo A l0 end : forall A : Type, list A -> option A Argument scopes are [type_scope list_scope] uncast = fun (A : Type) (x : I A) => match x with | x0 <: _ => x0 end : forall A : Type, I A -> A Argument scopes are [type_scope _] foo' = if A 0 then true else false : bool f = fun H : B => match H with | AC x => let b0 := b in (if b0 as b return (P b -> True) then fun _ : P true => Logic.I else fun _ : P false => Logic.I) x end : B -> True The command has indeed failed with message: Non exhaustive pattern-matching: no clause found for pattern gadtTy _ _ The command has indeed failed with message: In environment texpDenote : forall t : type, texp t -> typeDenote t t : type e : texp t t1 : type t2 : type t0 : type b : tbinop t1 t2 t0 e1 : texp t1 e2 : texp t2 The term "0" has type "nat" while it is expected to have type "typeDenote t0". fun '{{n, m, _}} => n + m : J -> nat fun '{{n, m, p}} => n + m + p : J -> nat fun '(D n m p q) => n + m + p + q : J -> nat The command has indeed failed with message: The constructor D (in type J) expects 3 arguments.