ref: 24cf0e8cd6799c80652dd2f7ecf41e0209dfe159
dir: /types.ml/
module rec Types : sig type 'a with_meta = {value: 'a; meta: t} and t = | List of t list with_meta | Vector of t list with_meta | Map of t M9map.t with_meta | Bool of bool | Char of char | Nil | Unspecified | Eof_object (* | Pair of t with_meta * t list *) | Proc of (t list -> t) with_meta | Symbol of string with_meta | Macro of t with_meta | Bytevector of t list | Number of float with_meta | Port of bool (* not sure how to represent this *) | String of string | Record of t with_meta end = Types and Value : sig type t = Types.t val compare : t -> t -> int end = struct type t = Types.t let compare = Stdlib.compare end and M9map : (Map.S with type key = Value.t) = Map.Make (Value) (* let to_bool x = * match x with * | Types.Nil | Types.Bool false -> false * | _ -> true *) type m9type = Value.t let macro_literals = Types.String "literals" let macro_transformers = Types.String "transformers" let macro_variants = Types.String "variants" exception M9exn of Types.t let to_bool x = match x with Types.Nil | Types.Bool false -> false | _ -> true let is_float v = let c = classify_float (fst (Float.modf v)) in c != FP_zero let list x = Types.List {Types.value= x; meta= Types.Nil} let map x = Types.Map {Types.value= x; meta= Types.Nil} (* let pair x xs = Types.Pair ({ Types.value = x; meta = Types.Nil }, Types.List { Types.value = xs; meta = Types.Nil }) *) let proc x = Types.Proc {Types.value= x; meta= Types.Nil} let symbol x = Types.Symbol {Types.value= x; meta= Types.Nil} let vector x = Types.Vector {Types.value= x; meta= Types.Nil} let record x = Types.Record {Types.value= x; meta= Types.Nil} let number x = Types.Number {Types.value= x; meta= Types.Bool (is_float x)} let macro sym literals transformers variants = let meta = ref M9map.empty in meta := M9map.add macro_literals literals !meta |> M9map.add macro_transformers transformers |> M9map.add macro_variants (map variants) ; Types.Macro {Types.value= sym; meta= map !meta}