-- Define a "fake" type to simulate the natural numbers. This is just a test. variable N : Type variable lt : N -> N -> Bool variable zero : N variable one : N variable two : N variable three : N infix 50 < : lt axiom two_lt_three : two < three definition vector (A : Type) (n : N) : Type := Pi (i : N) (H : i < n), A definition const {A : Type} (n : N) (d : A) : vector A n := fun (i : N) (H : i < n), d definition update {A : Type} {n : N} (v : vector A n) (i : N) (d : A) : vector A n := fun (j : N) (H : j < n), if (j = i) d (v j H) definition select {A : Type} {n : N} (v : vector A n) (i : N) (H : i < n) : A := v i H definition map {A B C : Type} {n : N} (f : A -> B -> C) (v1 : vector A n) (v2 : vector B n) : vector C n := fun (i : N) (H : i < n), f (v1 i H) (v2 i H) print environment 10 check select (update (const three false) two true) two two_lt_three eval select (update (const three false) two true) two two_lt_three check update (const three false) two true print "\n--------" check @select print "\nmap type ---> " check @map print "\nmap normal form --> " eval @map print "\nupdate normal form --> " eval @update