Source file specialize.ml

(* Js_of_ocaml compiler
 * http://www.ocsigen.org/js_of_ocaml/
 * Copyright (C) 2010 Jérôme Vouillon
 * Laboratoire PPS - CNRS Université Paris Diderot
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU Lesser General Public License as published by
 * the Free Software Foundation, with linking exception;
 * either version 2.1 of the License, or (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
 *)
open! Stdlib
open Code
open Flow

let function_arity info x =
  let rec arity info x acc =
    get_approx
      info
      (fun x ->
        match info.info_defs.(Var.idx x) with
        | Expr (Closure (l, _)) -> Some (List.length l)
        | Expr (Special (Alias_prim prim)) -> (
            try Some (Primitive.arity prim) with Not_found -> None)
        | Expr (Apply { f; args; _ }) -> (
            if List.mem f ~set:acc
            then None
            else
              match arity info f (f :: acc) with
              | Some n ->
                  let diff = n - List.length args in
                  if diff > 0 then Some diff else None
              | None -> None)
        | _ -> None)
      None
      (fun u v ->
        match u, v with
        | Some n, Some m when n = m -> u
        | _ -> None)
      x
  in
  arity info x []

let specialize_instr function_arity (acc, free_pc, extra) i =
  match i with
  | Let (x, Apply { f; args; exact = false }), loc when Config.Flag.optcall () -> (
      let n' = List.length args in
      match function_arity f with
      | None -> i :: acc, free_pc, extra
      | Some n when n = n' ->
          (Let (x, Apply { f; args; exact = true }), loc) :: acc, free_pc, extra
      | Some n when n < n' ->
          let v = Code.Var.fresh () in
          let args, rest = List.take n args in
          ( (Let (v, Apply { f; args; exact = true }), loc)
            :: (Let (x, Apply { f = v; args = rest; exact = false }), loc)
            :: acc
          , free_pc
          , extra )
      | Some n when n > n' ->
          let missing = Array.init (n - n') ~f:(fun _ -> Code.Var.fresh ()) in
          let missing = Array.to_list missing in
          let block =
            let params' = Array.init (n - n') ~f:(fun _ -> Code.Var.fresh ()) in
            let params' = Array.to_list params' in
            let return' = Code.Var.fresh () in
            { params = params'
            ; body =
                [ Let (return', Apply { f; args = args @ params'; exact = true }), noloc ]
            ; branch = Return return', noloc
            }
          in
          ( (Let (x, Closure (missing, (free_pc, missing))), loc) :: acc
          , free_pc + 1
          , (free_pc, block) :: extra )
      | _ -> i :: acc, free_pc, extra)
  | _ -> i :: acc, free_pc, extra

let specialize_instrs ~function_arity p =
  let blocks, free_pc =
    Addr.Map.fold
      (fun pc block (blocks, free_pc) ->
        let body, free_pc, extra =
          List.fold_right block.body ~init:([], free_pc, []) ~f:(fun i acc ->
              specialize_instr function_arity acc i)
        in
        let blocks =
          List.fold_left extra ~init:blocks ~f:(fun blocks (pc, b) ->
              Addr.Map.add pc b blocks)
        in
        Addr.Map.add pc { block with Code.body } blocks, free_pc)
      p.blocks
      (Addr.Map.empty, p.free_pc)
  in
  { p with blocks; free_pc }

let f = specialize_instrs