-- "Type casting" library. -- The cast operator allows us to cast an element of type A -- into B if we provide a proof that types A and B are equal. variable cast {A B : (Type U)} : A == B → A → B. -- The CastEq axiom states that for any cast of x is equal to x. axiom CastEq {A B : (Type U)} (H : A == B) (x : A) : x == cast H x. -- The CastApp axiom "propagates" the cast over application axiom CastApp {A A' : (Type U)} {B : A → (Type U)} {B' : A' → (Type U)} (H1 : (Π x : A, B x) == (Π x : A', B' x)) (H2 : A == A') (f : Π x : A, B x) (x : A) : cast H1 f (cast H2 x) == f x. -- If two (dependent) function spaces are equal, then their domains are equal. axiom DomInj {A A' : (Type U)} {B : A → (Type U)} {B' : A' → (Type U)} (H : (Π x : A, B x) == (Π x : A', B' x)) : A == A'. -- If two (dependent) function spaces are equal, then their ranges are equal. axiom RanInj {A A' : (Type U)} {B : A → (Type U)} {B' : A' → (Type U)} (H : (Π x : A, B x) == (Π x : A', B' x)) (a : A) : B a == B' (cast (DomInj H) a).