if n >= n1 then List.nth l2 (n - n1) else List.nth l1 n
;;
-let rec take l n =
+(* let rec take l n =
if n = 0 then []
else match l with
| [] -> []
| x::xs -> x :: (take xs (n-1))
-;;
-
-let test3 n vars =
- let rec aux n inerts lams =
- if n = 0 then take (Util.sort_uniq inerts) 5
- else let inerts, lams = if Random.int 2 = 0
- then inerts, ("(" ^ acaso vars ^ ". " ^ acaso2 inerts lams ^ ")") :: lams
- else ("(" ^ acaso inerts ^ " " ^ acaso2 inerts lams^ ")") :: inerts, lams
- in aux (n-1) inerts lams
- in aux (2*n) vars []
-;;
+;; *)
-let test4 n vars =
+let gen n vars =
let rec take' l n =
if n = 0 then [], []
else match l with
let rec repeat f n =
- prerr_endline "\n*************************** NEW TEST ***************************";
+ prerr_endline "\n########################### NEW TEST ###########################";
f () ;
if n > 0 then repeat f (n-1)
;;
-(* let call_main3 tms =
- let _ = (
- List.iter prerr_endline tms; prerr_newline ();
- ) in Lambda3.main [Lambda3.magic tms ["*"]]
-;; *)
-let call_main4 div convs nums =
+let solve div convs nums =
let p = String.concat "\n" (
"$! randomly generated test" ::
("D " ^ div) ::
let complex = 200 in
let vars = ["x"; "y"; "z"; "v" ; "w"; "a"; "b"; "c"] in
- (* let open Parser in *)
-
- (* if three then repeat (fun _ ->
- let tms = test3 complex vars in
- call_main3 tms
- ) num
- else *)
repeat (fun _ ->
- let div, (conv, nums) = test4 complex vars in
- call_main4 div conv nums
+ let div, (conv, nums) = gen complex vars in
+ solve div conv nums
) num
;