open Trace open Ligo.Run open Test_helpers let type_file = type_file "pascaligo" let get_program = let s = ref None in fun () -> match !s with | Some s -> ok s | None -> ( let%bind program = type_file "./contracts/heap-instance.ligo" in s := Some program ; ok program ) let a_heap_ez ?value_type (content:(int * Ast_typed.ae) list) = let open Ast_typed.Combinators in let content = let aux = fun (x, y) -> e_a_empty_nat x, y in List.map aux content in let value_type = match value_type, content with | None, hd :: _ -> (snd hd).type_annotation | Some s, _ -> s | _ -> raise (Failure "no value type and heap empty when building heap") in e_a_empty_map content (t_nat ()) value_type let ez lst = let open Ast_typed.Combinators in let value_type = t_pair (t_int ()) (t_string ()) () in let lst' = let aux (i, (j, s)) = (i, e_a_empty_pair (e_a_empty_int j) (e_a_empty_string s)) in List.map aux lst in a_heap_ez ~value_type lst' let dummy n = ez List.( map (fun n -> (n, (n, string_of_int n))) @@ tl @@ range (n + 1) ) let is_empty () : unit result = let%bind program = get_program () in let aux n = let open Ast_typed.Combinators in let input = dummy n in let%bind result = run_typed "is_empty" program input in let expected = e_a_empty_bool (n = 0) in Ast_typed.assert_value_eq (expected, result) in let%bind _ = bind_list @@ List.map aux @@ [0 ; 2 ; 7 ; 12] in ok () let get_top () : unit result = let%bind program = get_program () in let aux n = let open Ast_typed.Combinators in let input = dummy n in match n, run_typed "get_top" program input with | 0, Trace.Ok _ -> simple_fail "unexpected success" | 0, _ -> ok () | _, result -> let%bind result' = result in let expected = e_a_empty_pair (e_a_empty_int 1) (e_a_empty_string "1") in Ast_typed.assert_value_eq (expected, result') in let%bind _ = bind_list @@ List.map aux @@ [0 ; 2 ; 7 ; 12] in ok () let pop_switch () : unit result = let%bind program = get_program () in let aux n = let input = dummy n in match n, run_typed "pop_switch" program input with | 0, Trace.Ok _ -> simple_fail "unexpected success" | 0, _ -> ok () | _, result -> let%bind result' = result in let expected = ez List.( map (fun i -> if i = 1 then (1, (n, string_of_int n)) else (i, (i, string_of_int i))) @@ tl @@ range (n + 1) ) in Ast_typed.assert_value_eq (expected, result') in let%bind _ = bind_list @@ List.map aux @@ [0 ; 2 ; 7 ; 12] in ok () let pop () : unit result = let%bind program = get_program () in let aux n = let input = dummy n in (match run_typed "pop" program input with | Trace.Ok (output , _) -> ( Format.printf "\nPop output on %d : %a\n" n Ast_typed.PP.annotated_expression output ; ) | Trace.Error err -> ( Format.printf "\nPop output on %d : error\n" n) ; Format.printf "Errors : {\n%a}\n%!" error_pp (err ()) ; ) ; ok () in let%bind _ = bind_list @@ List.map aux @@ [2 ; 7 ; 12] in simple_fail "display" (* ok () *) let main = test_suite "Heap (End to End)" [ test "is_empty" is_empty ; test "get_top" get_top ; test "pop_switch" pop_switch ; (* test "pop" pop ; *) ]