-- Heterogenous equality variable heq {A B : TypeU} : A → B → Bool infixl 50 == : heq axiom heq_eq {A : TypeU} (a b : A) : a == b ↔ a = b definition to_eq {A : TypeU} {a b : A} (H : a == b) : a = b := (heq_eq a b) ◂ H definition to_heq {A : TypeU} {a b : A} (H : a = b) : a == b := (symm (heq_eq a b)) ◂ H theorem hrefl {A : TypeU} (a : A) : a == a := to_heq (refl a) axiom hsymm {A B : TypeU} {a : A} {b : B} : a == b → b == a axiom htrans {A B C : TypeU} {a : A} {b : B} {c : C} : a == b → b == c → a == c axiom hcongr {A A' : TypeU} {B : A → TypeU} {B' : A' → TypeU} {f : ∀ x, B x} {f' : ∀ x, B' x} {a : A} {a' : A'} : f == f' → a == a' → f a == f' a' universe M ≥ 1 universe U ≥ M + 1 definition TypeM := (Type M) -- In the following definitions the type of A and A' cannot be TypeU -- because A = A' would be @eq (Type U+1) A A', and -- the type of eq is (∀T : (Type U), T → T → bool). -- So, we define M a universe smaller than U. axiom hfunext {A A' : TypeM} {B : A → TypeU} {B' : A' → TypeU} {f : ∀ x, B x} {f' : ∀ x, B' x} : A = A' → (∀ x x', x == x' → f x == f' x') → f == f' axiom hpiext {A A' : TypeM} {B : A → TypeM} {B' : A' → TypeM} : A = A' → (∀ x x', x == x' → B x == B' x') → (∀ x, B x) == (∀ x, B' x) axiom hallext {A A' : TypeM} {B : A → Bool} {B' : A' → Bool} : A = A' → (∀ x x', x == x' → B x == B' x') → (∀ x, B x) == (∀ x, B' x)