Moved parse' from Num to Parser

[fireball-separation.git] / ocaml / parser.ml

exception ParsingError of string;;\r
\r
let mk_app x y = Num.mk_app x y;;\r
let mk_lam x = `Lam(true, x);;\r
let mk_var x = `Var(x, -666);;\r
\r
let isAlphaNum c = let n = Char.code c in\r
 (48 <= n && n <= 90) || (95 <= n && n <= 122) ;;\r
let isSpace c = c = ' ' || c = '\n' || c = '\t' ;;\r
\r
(* FIXME *)\r
let mk_var' (bound, free) x =\r
  if List.mem x bound\r
  then free, mk_var (Util.index_of x bound)\r
  else if List.mem x free\r
       then free, mk_var (List.length bound + Util.index_of x free)\r
       else (free @ [x]), mk_var (List.length bound + List.length free)\r
;;\r
\r
let mk_app' = function\r
  | [] ->  raise (ParsingError "bug")\r
  | t :: ts -> List.fold_left mk_app t ts\r
;;\r
\r
let explode s =\r
  let rec aux i l =\r
    if i < 0 then l else aux (i - 1) (s.[i] :: l)\r
  in aux (String.length s - 1) []\r
;;\r
\r
let implode l =\r
  let res = String.create (List.length l) in\r
  let rec aux i = function\r
    | [] -> res\r
    | c :: l -> res.[i] <- c; aux (i + 1) l in\r
  aux 0 l\r
;;\r
\r
let rec strip_spaces = function\r
  | c::cs when isSpace c -> strip_spaces cs\r
  | cs -> cs\r
;;\r
\r
let read_var s =\r
  let rec aux = function\r
  | [] -> None, []\r
  | c::cs as x -> if isAlphaNum c\r
    then match aux cs with\r
         | (Some x), cs' -> Some (c :: x), cs'\r
         | None, cs' -> (Some [c]), cs'\r
    else None, x\r
  in match aux s with\r
    | None, y -> None, y\r
    | Some x, y -> Some (implode x), y\r
;;\r
\r
let read_var' (bound, free as vars) s =\r
  match read_var s with\r
  | Some varname, cs ->\r
    let free, v = mk_var' vars varname in\r
    Some [v], cs, (bound, free)\r
  | _, _ -> raise (ParsingError ("Can't read variable"))\r
;;\r
\r
let rec read_smt vars =\r
  let check_if_lambda cs = match read_var cs with\r
    | None, _ -> false\r
    | Some x, cs -> match strip_spaces cs with\r
      | [] -> false\r
      | c::_ -> c = '.'\r
  in let read_lambda (bound, free) cs = (\r
    match read_var (strip_spaces cs) with\r
      | Some varname, cs ->\r
      let vars' = (varname::bound, free) in\r
      (match strip_spaces cs with\r
        | [] -> raise (ParsingError "manca dopo variabile lambda")\r
        | c::cs -> (if c = '.' then (match read_smt vars' cs with\r
          | None, _, _ -> raise (ParsingError "manca corpo lambda")\r
          | Some [x], y, (_, free) -> Some [mk_lam x], y, (bound, free)\r
          | Some _, _, _ -> raise (ParsingError "???")\r
          ) else raise (ParsingError "manca . nel lambda")\r
        ))\r
      | _, _ -> assert false\r
 ) in let rec aux vars cs =\r
  match strip_spaces cs with\r
  | [] -> None, [], vars\r
  | c::_ as x ->\r
      let tms, cs, vars = (\r
           if c = '(' then read_pars vars x\r
      else if c = ')' then (None, x, vars)\r
      else if check_if_lambda x then read_lambda vars x\r
      else read_var' vars x) in\r
      match tms with\r
      | Some [tm] -> (\r
        match aux vars cs with\r
          | None, cs, vars -> Some [tm], cs, vars\r
          | Some ts, cs, vars -> Some (tm :: ts), cs, vars\r
        )\r
      | Some _ -> raise (ParsingError "bug")\r
      | None -> None, x, vars\r
  in fun cs -> match aux vars cs with\r
    | None, cs, vars -> None, cs, vars\r
    | Some ts, cs, vars -> Some [mk_app' ts], cs, vars\r
and read_pars vars = function\r
  | [] -> None, [], vars\r
  | c::cs -> if c = '(' then (\r
    let tm, cs, vars = read_smt vars cs in\r
    let cs = strip_spaces cs in\r
    match cs with\r
      | [] -> None, [], vars\r
      | c::cs -> if c = ')' then tm, cs, vars else raise (ParsingError ") mancante")\r
    ) else raise (ParsingError "???")\r
;;\r
\r
let parse x =\r
  match read_smt ([],[]) (explode x) with\r
  | Some [y], [], _ -> y\r
  | _, _, _ -> raise (ParsingError "???")\r
;;\r
\r
let var_zero = "ω";; (* w is an invalid variable name *)\r
\r
let parse_many strs =\r
  let f (x, y) z = match read_smt y (explode z) with\r
  | Some[tm], [], vars -> (tm :: x, vars)\r
  | _, _, _ -> raise (ParsingError "???")\r
  in let aux = List.fold_left f ([], ([], [var_zero])) (* index zero is reserved *)\r
  in let (tms, (_, free)) = aux strs\r
  in (List.rev tms, free)\r
;;\r
\r
(**********************************************************************\r
\r
let rec string_of_term = function\r
  | Tvar n -> string_of_int n\r
  | Tapp(t1, t2) -> "(" ^ string_of_term t1 ^ " " ^ string_of_term t2 ^ ")"\r
  | Tlam(t1) -> "(\\" ^ string_of_term t1 ^ ")"\r
;;\r
\r
let _ = prerr_endline (">>>" ^ string_of_term (parse "(\\x. x y z z1 k) z1 z j"));;\r
\r
\r
**********************************************************************)\r
\r
 let parse' strs =\r
   let (tms, free) = parse_many strs in\r
   (* Replace pacmans and bottoms *)\r
   let n_bot = try Util.index_of "BOT" free with Not_found -> min_int in\r
   let n_pac = try Util.index_of "PAC" free with Not_found -> min_int in\r
   let n_bomb = try Util.index_of "BOMB" free with Not_found -> min_int in\r
   let fix lev v =\r
    if v = lev + n_bot then failwith "Example with `Bottom"\r
     else if v = lev + n_pac then failwith "Example with `Pacman"\r
      else if v = lev + n_bomb then failwith "Example with `Bomb"\r
       else `Var(v,1) in (* 1 by default when variable not applied *)\r
   (* Fix arity *)\r
   let open Num in\r
   let rec aux lev : nf -> nf = function\r
   | `I((n,_), args) -> `I((n,1 + Listx.length args), Listx.map (fun t -> aux lev t) args)\r
   | `Var(n,_) -> fix lev n\r
   | `Lam(_,t) -> `Lam (true, aux (lev+1) t)\r
   | `Match _ | `N _ -> assert false in\r
 List.map (aux 0) (tms :> Num.nf list), free\r
;;\r
\r
let parse_problem s = failwith "TODO";\r