ref: 24cf0e8cd6799c80652dd2f7ecf41e0209dfe159
dir: /core.ml/
module T = Types.Types let base = Env.make None let number_compare t f = Types.proc (function | [T.Number a; T.Number b] -> t (f a.value b.value) | _ -> raise (Invalid_argument "not a number") ) let simple_compare t f = Types.proc (function [T.Number a; T.Number b] -> t (f a b) | _ -> raise (Invalid_argument "incomparable")) let mk_num x = Types.number x let mk_bool x = T.Bool x let seq = function T.List {T.value= xs; meta= _} -> xs | T.Vector {T.value= xs; meta= _} -> xs | _ -> [] (* this is 'assoc' from mal, but it's not what assoc is in scheme *) let rec link = function | c :: k :: v :: (_ :: _ as xs) -> link (link [c; k; v] :: xs) | [T.Nil; k; v] -> Types.map (Types.M9map.add k v Types.M9map.empty) | [T.Map {T.value= m; T.meta}; k; v] -> T.Map {T.value= Types.M9map.add k v m; T.meta} | _ -> T.Nil let init env = Env.set env (Types.symbol "raise") (Types.proc (function [ast] -> raise (Types.M9exn ast) | _ -> T.Nil)) ; Env.set env (Types.symbol "*arguments*") (Types.list ( if Array.length Sys.argv > 1 then List.map (fun x -> T.String x) (List.tl (List.tl (Array.to_list Sys.argv))) else [] ) ) ; Env.set env (Types.symbol "+") (number_compare mk_num ( +. )) ; Env.set env (Types.symbol "-") (number_compare mk_num ( -. )) ; Env.set env (Types.symbol "*") (number_compare mk_num ( *. )) ; Env.set env (Types.symbol "/") (number_compare mk_num ( /. )) ; Env.set env (Types.symbol "<") (simple_compare mk_bool ( < )) ; Env.set env (Types.symbol "<=") (simple_compare mk_bool ( <= )) ; Env.set env (Types.symbol ">") (simple_compare mk_bool ( > )) ; Env.set env (Types.symbol ">=") (simple_compare mk_bool ( >= )) ; (* Env.set * env * (Types.symbol "proc?") * (Types.proc (function * | [ T.Proc { T.meta = T.Map { T.value = meta } } ] -> * mk_bool * (not * (Types.M9map.mem kw_macro meta * && Types.to_bool (Types.M9map.find kw_macro meta))) * | [ T.Proc _ ] -> T.Bool true * | _ -> T.Bool false)); *) Env.set env (Types.symbol "number?") (Types.proc (function [T.Number _] -> T.Bool true | _ -> T.Bool false)) ; Env.set env (Types.symbol "list") (Types.proc (function xs -> Types.list xs)) ; Env.set env (Types.symbol "list?") (Types.proc (function [T.List _] -> T.Bool true | _ -> T.Bool false)) ; Env.set env (Types.symbol "vector") (Types.proc (function xs -> Types.vector xs)) ; Env.set env (Types.symbol "vector?") (Types.proc (function [T.Vector _] -> T.Bool true | _ -> T.Bool false)) ; Env.set env (Types.symbol "empty?") (Types.proc (function | [T.List {T.value= []; meta= _}] -> T.Bool true | [T.Vector {T.value= []; meta= _}] -> T.Bool true | _ -> T.Bool false ) ) ; Env.set env (Types.symbol "count") (Types.proc (function | [T.List {T.value= xs; meta= _}] | [T.Vector {T.value= xs; meta= _}] -> Types.number (float_of_int (List.length xs)) | _ -> Types.number 0. ) ) ; Env.set env (Types.symbol "display") (Types.proc (function xs -> print_string (Printer.stringify xs false) ; T.Unspecified ) ) ; Env.set env (Types.symbol "string") (Types.proc (function xs -> T.String (String.concat "" (List.map (fun s -> Printer.print s false) xs)))) ; Env.set env (Types.symbol "read-string") (Types.proc (function [T.String x] -> Reader.read x | _ -> T.Nil)) ; Env.set env (Types.symbol "slurp") (Types.proc (function [T.String x] -> T.String (Reader.slurp x) | _ -> T.Nil)) ; Env.set env (Types.symbol "cons") (Types.proc (function [x; xs] -> Types.list [x; xs] | _ -> T.Nil)) ; Env.set env (Types.symbol "concat") (Types.proc (let rec concat = function | x :: y :: more -> concat (Types.list (seq x @ seq y) :: more) | [(T.List _ as x)] -> x | [x] -> Types.list (seq x) | [] -> Types.list [] in concat ) )