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let-def/ocamllex-refill

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ocamllex

Experimental version of ocamllex.

To build, just type make in an ocaml environment. The new ocamllex is generated in the current directory.

Purpose

Lexers generated by standard ocamllex grab the control flow. Desireable interruption points are user actions (e.g. when chaining lexing rules) and refill points.

However interrupting the latter is not achievable without hacks: the refill function from lexbuf is called, then flow gets back to lexing code.

How to

This version of ocamllex extends the grammar of lexer rule with an optional "refill" handler.

rule rule_name rule_arguments = refill {refill_action} parse parse_actions

The refill_action should be an expression of type:

(rule_arguments -> Lexing.lexbuf -> 'b -> result_type) ->
    rule_arguments -> Lexing.lexbuf -> 'b -> result_type

When refilling, the refill_action gets called, receiving the continuation, rule_arguments, lexing buffer and a lexer determined value (the state).

From this point, you can do whatever you want: you have full control of the flow -- interrupt lexing and store the state for latter use, change lexbuf, etc.

Examples

Lexing arithmetic in an arbitrary monad

{
type token = EOL | INT of int | PLUS | MINUS | TIMES | DIV | LPAREN | RPAREN

module Make (M : sig
               type 'a t
               val return: 'a -> 'a t
               val bind: 'a t -> ('a -> 'b t) -> 'b t
               val fail : string -> 'a t

               (* Set up lexbuf *)
               val on_refill : Lexing.lexbuf -> unit t
             end)
= struct

let refill_handler k lexbuf arg =
    M.bind (M.on_refill lexbuf) (fun () -> k lexbuf arg)

}
rule token = refill {refill_handler} parse
| [' ' '\t']
    { token lexbuf }
| '\n'
    { M.return EOL }
| ['0'-'9']+ as i
    { M.return (INT (int_of_string i)) }
| '+'
    { M.return PLUS }
| '-'
    { M.return MINUS }
| '*'
  { M.return TIMES }
| '/'
    { M.return DIV }
| '('
    { M.return LPAREN }
| ')'
    { M.return RPAREN }
| eof
    { M.fail "EOF" }
| _
    { M.fail "unexpected character" }
{
end
}

Using Lwt_io

{
type token = EOL | INT of int | PLUS | MINUS | TIMES | DIV | LPAREN | RPAREN

type state = {
  ic: Lwt_io.input_channel;
  buf: string;
  mutable pos: int;
  mutable len: int;
}

let refill_handler k st lexbuf arg =
    if st.pos >= st.len
    then
      Lwt.bind (Lwt_io.read_into st.ic st.buf 0 (String.length st.buf))
        (fun n ->
           st.pos <- 0;
           st.len <- n;
           k st lexbuf arg)
    else
      k st lexbuf arg

}

rule token state = refill {refill_handler} parse
| [' ' '\t']
  { token state lexbuf }
| '\n'
  { Lwt.return EOL }
| ['0'-'9']+ as i
  { Lwt.return (INT (int_of_string i)) }
| '+'
  { Lwt.return PLUS }
| '-'
  { Lwt.return MINUS }
| '*'
  { Lwt.return TIMES }
| '/'
  { Lwt.return DIV }
| '('
  { Lwt.return LPAREN }
| ')'
  { Lwt.return RPAREN }
| eof
  { Lwt.fail (Failure "EOF") }
| _
  { Lwt.fail (Failure "unexpected character") }

{
let from_channel ic : state * Lexing.lexbuf =
  let buf = String.create 1024 in
  let state = { ic; buf; pos = 0; len = 0 } in
  state,
  Lexing.from_function (fun buf' n ->
      let available = state.len - state.pos in
      if available <= 0
      then 0
      else let n' = min available n in
        String.blit state.buf state.pos buf' 0 n';
        state.pos <- state.pos + n'; n')

}

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