Import Int. Scope Variable A : Type Variable B : Type Variable f : A -> A -> A Definition g (x y : A) : A := f y x Variable h : A -> B Variable hinv : B -> A Axiom Inv (x : A) : hinv (h x) = x Axiom H1 (x y : A) : f x y = f y x Theorem f_eq_g : f = g := Abst (fun x, (Abst (fun y, let L1 : f x y = f y x := H1 x y, L2 : f y x = g x y := Refl (g x y) in Trans L1 L2))) Theorem Inj (x y : A) (H : h x = h y) : x = y := let L1 : hinv (h x) = hinv (h y) := Congr2 hinv H, L2 : hinv (h x) = x := Inv x, L3 : hinv (h y) = y := Inv y, L4 : x = hinv (h x) := Symm L2, L5 : x = hinv (h y) := Trans L4 L1 in Trans L5 L3. EndScope Show Environment 3. Eval g Int Int::sub 10 20