module T = Types.Types module Env = Map.Make ( String (*(struct type t = Types.Symbol let compare (Types.Symbol a) (Types.Symbol b) = compare a b end)*) ) let num_fun f = Types.fn (function | [(T.Int a); (T.Int b)] -> T.Int (f a b) | _ -> raise (Invalid_argument "Numeric args required for this Mal builtin")) let repl_env = ref (List.fold_left (fun a b -> b a) Env.empty [ Env.add "+" (num_fun ( + )); Env.add "-" (num_fun ( - )); Env.add "*" (num_fun ( * )); Env.add "/" (num_fun ( / )) ]) let rec eval_ast ast env = match ast with | T.Symbol { T.value = s } -> (try Env.find s !env with Not_found -> raise (Invalid_argument ("Symbol '" ^ s ^ "' not found"))) | T.List { T.value = xs; T.meta = meta } -> T.List { T.value = (List.map (fun x -> eval x env) xs); T.meta = meta; T.is_macro = false} | T.Vector { T.value = xs; T.meta = meta } -> T.Vector { T.value = (List.map (fun x -> eval x env) xs); T.meta = meta; T.is_macro = false} | T.Map { T.value = xs; T.meta = meta } -> T.Map {T.meta = meta; T.is_macro = false; T.value = (Types.MalMap.fold (fun k v m -> Types.MalMap.add (eval k env) (eval v env) m) xs Types.MalMap.empty)} | _ -> ast and eval ast env = let result = eval_ast ast env in match result with | T.List { T.value = ((T.Fn { T.value = f }) :: args) } -> (f args) | _ -> result let read str = Reader.read_str str let print exp = Printer.pr_str exp true let rep str env = print (eval (read str) env) let rec main = try while true do print_string "user> "; let line = read_line () in try print_endline (rep line repl_env); with End_of_file -> () | Invalid_argument x -> output_string stderr ("Invalid_argument exception: " ^ x ^ "\n"); flush stderr done with End_of_file -> ()