open List;; (* Random.self_init ();; *) type card_type = | Hearts | Tiles | Clovers | Pikes | Nothing let card_type_to_string = function | Hearts -> "Hearts" | Tiles -> "Tiles" | Clovers -> "Clovers" | Pikes-> "Pikes" | Nothing-> "Nothing" type card = { seed: card_type ; value: int } let make seed value = { seed=seed; value=value } let value_cmp a b = if a.value < b.value then -1 else if a.value = b.value then 0 else 1 (* TFW TODO *) let seed_cmp = fun a b -> if card_type_to_string a.seed > card_type_to_string b.seed then 1 else if card_type_to_string a.seed = card_type_to_string b.seed then 0 else -1 let make_set tp = let rec range start _end accum = if start < _end then range (start+1) _end accum@[start] else accum in List.map (fun x -> { seed=tp; value=x }) (range 1 14 []);; (* make a set of cards of one seed *) let init = List.concat [make_set Hearts ; make_set Tiles ; make_set Clovers ; make_set Pikes ; make_set Hearts ; make_set Tiles ; make_set Clovers ; make_set Pikes] |> List.map (fun e -> Random.bits (), e) |> List.sort (fun a b -> if fst a > fst b then 1 else -1) |> List.map snd let draw deck = match deck with | [] as l -> {seed=Nothing ; value=0}, l | hd::tl -> hd, tl let no_double_seed cards = List.sort_uniq seed_cmp cards |> List.length = List.length cards let is_only_one_seed cards = List.sort_uniq seed_cmp cards |> List.length = 1 let no_double_value cards = List.sort_uniq value_cmp cards |> List.length = List.length cards let is_tris cards = match (List.sort_uniq value_cmp cards) with | [_] -> no_double_seed cards (* only one value, check for right seeds *) | _::_ -> false | [] -> assert false let rec split l fst = match l with | hd::hd'::tl when hd=hd'-1 -> split (hd'::tl) (fst@[hd]) | hd::tl -> fst@[hd], tl | [] -> assert false let is_straight _cards = let rec _is_straight cards = match cards with | hd::hd'::tl when hd=hd'-1 -> _is_straight (hd'::tl) | [] -> assert false | [_] -> true (* list was consumed *) | _::_ -> false in if (not (no_double_value _cards && is_only_one_seed _cards)) then false else let ocards = List.sort value_cmp _cards in let last = List.rev ocards |> hd in let cards = List.map (fun c -> c.value) ocards (* use only values *) in if last.value = 13 && (hd cards) = 1 then (* circolare *) let fst, snd = split cards [] in (_is_straight fst) && (_is_straight snd) else (* let res = _is_straight cards in * List.iter (fun c -> Printf.printf "%d:%s - " c.value (card_type_to_string c.seed)) _cards ; Printf.printf "%b\n" res; * res *) (* TODO : remove *) _is_straight cards let is_valid _cards = let cards = List.sort value_cmp _cards in if List.length cards < 3 then false else match cards with | a::b::_ when value_cmp a b = 0 -> is_tris cards | _ -> is_straight cards;;