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ocamlUtils.ml
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ocamlUtils.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA 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 Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
(*
@author Esther Baruk
@author Mathieu Barbin
**)
(* See documentation about this module in .mli *)
(* depends *)
let (|>) = InfixOperator.(|>)
(* shorthands *)
(* FIXME, replace by
module O = OcamlAst
*)
module O = Ocaml
(* -- *)
module App =
struct
let nary_app a b =
let rec aux acc a =
match a with
| O.App (c, d) ->
aux (d::acc) c
| _ -> a, acc
in
aux [b] a
let app f args =
List.fold_left (fun acc e -> O.App (acc, e)) f args
end
module Array =
struct
let relax_make a =
let l = match a with O.AnArray l -> l | _ -> assert false in
let n = List.length l in
let t = Ocaml.make_Var "t" in
let array_creation =
O.Cons.app3
(O.make_Varl ["Array"; "make"])
(O.Const (O.Int n))
(O.make_magic (O.Const (O.Int 0))) in
let array_filling =
Base.List.mapi (fun i x -> O.make_array_unsafe_set_no_magic i t x) l
in
let sequence =
let rec aux = function
| [x] -> x
| hd :: tl ->
O.Sequence(hd, aux tl)
| [] -> assert false
in
aux array_filling
in
let expr = O.make_Letin (O.Pat (O.PatVar (Ident.source "_"))) sequence t in
O.make_Letin (O.Pat (O.PatVar (Ident.source "t"))) array_creation expr
end
type filename = string
type module_name = string
module Module =
struct
type path = module_name list
let of_filename filename =
filename
|> Filename.basename
|> File.chop_extension
|> String.capitalize
let module_path ~full ~pwd =
let rec link = function
| [], _ -> []
| l, [] -> l
| (a::b) as pf, u::v ->
if String.compare a u <> 0 then pf
else link (b, v) in
link (full, pwd)
end
(* TODO organize !!! *)
(*
(* Transcript the type to a qml-well-parsed type in a generation of qml-code *)
let module_spliter = String.slice_chars "~/,.#"
let ocaml_module_path_manager_from_string full pwd =
let pfull = module_spliter full and ppwd = module_spliter pwd in
let t = ocaml_module_path_manager pfull ppwd in
String.concat "." t
type type_path_map = (string * string list * BslTypes.t) BslKeyMap.t
let to_ocaml_coercion ?(type_path_map=BslKeyMap.empty) ?(current_path=[]) =
let ocaml_prefix n =
match BslKeyMap.find_opt (BslKey.of_string n) type_path_map with
| Some (_, full, _) ->
begin
let link = ocaml_module_path_manager full current_path in
match List.rev link with
| t::q -> String.concat "." ((List.rev_map String.capitalize q)@[t])
| [] -> n
end
| None -> n in
*)
(* ===== Code optimization ===== *)
open Ocaml (* FIXME, when we switch to ocaml 3.12, use the local open construct *)
(*
FIXME, use dump-printing instead of this...
let pattern2str = function
| PatVar _ -> "PatVar"
| PatPair _ -> "PatPair"
| PatList _ -> "PatList"
| PatEmptyList -> "PatEmptyList"
| PatRecord _ -> "PatRecord"
| PatConstructor _ -> "PatConstructor"
| PatVariant _ -> "PatVariant"
| PatPVariant _ -> "PatPVariant"
| PatConst _ -> "PatConst"
| PatAny -> "PatAny"
| PatGuard _ -> "PatGuard"
| PatAnnot _ -> "PatAnnot"
| PatAs _ -> "PatAs"
| PatArray _ -> "PatArray"
let expr2str = function
| Var _ -> "Var"
| Pair _ -> "Pair"
| Verbatim _ -> "Verbatim"
| Constructor _ -> "Constructor"
| _ -> "?"
*)
let normalize_expr = function
| (Constructor (_, [])) as e -> e
| (Constructor (_, [Tuple _])) as e -> e
| Constructor (c, ps) ->
Constructor (c, [Tuple ps])
| e -> e
let normalize_pattern = function
| (PatConstructor (_, [])) as e -> e
| (PatConstructor (_, [PatTuple _])) as e -> e
| PatConstructor (c, pps) ->
PatConstructor (c, [PatTuple pps])
| p -> p
let ident = BaseString.concat_map "." (fun i -> i)
let rec trivial_pattern (p, e) =
let res =
match p, e with
| PatVar pv, Verbatim v ->
(* FIXME, hackish; preferrably get rid of Verbatim & properly parse Ocaml snippets in TRX *)
let vt = Base.String.trim v in
let pv = OcamlPrint.ident pv in
pv = vt || Printf.sprintf "( %s )" pv = vt
| PatVar pv, Var (Pated ([v], _)) -> pv = v
| PatEmptyList, EmptyList -> true
| PatList (phd, ptl), Cons (hd, tl) -> trivial_pattern (phd, hd) && trivial_pattern (ptl, tl)
| PatConstructor (pc, pps), Constructor (c, ps) ->
List.make_compare Ident.compare pc c = 0 && List.for_all trivial_pattern (List.combine pps ps)
| PatTuple ps, Tuple es -> List.length ps = List.length es && List.for_all trivial_pattern (List.combine ps es)
(* FIXME, handle remaining cases *)
| _ -> false
in
(*
Printf.eprintf "\n[%s | %s | " (pattern2str p) (expr2str e);
OcamlPrint.Output.pattern stderr p;
Printf.eprintf " VS ";
OcamlPrint.Output.expr stderr e;
Printf.eprintf "] -> %b " res;
*)
res
let optimize_match ~only_trivial e ps =
let analyze_pattern (pats, all_trivial) ((pat, guard, expr) as match_case) =
let case, all_trivial' =
if Option.is_none guard && trivial_pattern (pat, expr) then
let pat_var = Ident.source "__pat_var" in
let underscore_pattern =
OcamlWalk.Pat.map (fun p ->
match p with
| PatVar s -> PatVar (Ident.source ("_" ^ (OcamlPrint.ident s)))
| _ -> p)
in
(PatAs (underscore_pattern pat, pat_var), None, Ocaml.Cons.var pat_var), all_trivial
else
match_case, false
in
case::pats, all_trivial'
in
let ps', all_trivial = List.fold_left analyze_pattern ([], true) ps in
let optimized =
if all_trivial then
e
else if only_trivial then
Match (e, ps)
else
Match (e, List.rev ps')
in
(*
if v' <> None then begin
Printf.eprintf "************** Optimizing\n";
OcamlPrint.Output.expr stderr (Match (e, ps));
Printf.eprintf "\ninto:\n";
OcamlPrint.Output.expr stderr optimized;
Printf.eprintf "\n\n"
end;
*)
optimized
let corresponds p e =
let rec map_args = function
| [], [] -> Some IdentMap.empty
| p::ps, e::es ->
begin match map_args (ps, es) with
| None -> None
| Some m ->
match p, e with
| PatTuple ps, Tuple es ->
map_args (ps, es)
| PatVar pv, e ->
if IdentMap.mem pv m then
None
else
Some (IdentMap.add pv e m)
| _ -> None
end
| _ -> None
in
let res =
match p, e with
| PatConstructor (pc, pps), Constructor (c, ps) ->
if List.make_compare Ident.compare c pc = 0 then
map_args (pps, ps)
else
None
| _ -> None
in
(*
Printf.eprintf "Corresponds: ";
OcamlPrint.Output.pattern stderr p;
Printf.eprintf " with ";
OcamlPrint.Output.expr stderr e;
Printf.eprintf " => %s\n" (if res <> None then "YES" else "NO");
*)
res
let inst exp m =
let add_mapping v e expr =
Ocaml.make_Letin (Ocaml.Cons.param v) e expr
in
IdentMap.fold add_mapping m exp
let rec optimize_expr ~phase e =
let show _str _res = ()
(*
Printf.eprintf "***** %s *****\n" _str;
OcamlPrint.Output.expr stderr e;
Printf.eprintf " --> ";
OcamlPrint.Output.expr stderr _res;
Printf.eprintf "\n%!"
*)
in
let simplify1 = function
| Match (me, ps) -> optimize_match ~only_trivial:true me ps
| _ -> e
in
let simplify2 = function
| Match (Match (me, [(p1, None, r1); (p2, None, r2)]), [(p3, None, r3); (p4, None, r4)]) ->
begin match corresponds p3 r1, corresponds p4 r2 with
| Some m1, Some m2 ->
let res = Match (me, [(p1, None, inst r3 m1); (p2, None, inst r4 m2)]) in
res
| _ ->
match corresponds p4 r1, corresponds p3 r2 with
| Some m1, Some m2 ->
let res = Match (me, [(p1, None, inst r4 m1); (p2, None, inst r3 m2)]) in
res
| _ -> e
end
| e -> e
in
let simplify3 = function
| Match (me, ps) -> optimize_match ~only_trivial:false me ps
| _ -> e
in
match phase with
| `P1 ->
let e2 = simplify1 e in
if e <> e2 then show "simplify1" e2;
e2
| `P2 ->
let e2 = simplify2 e in
if e <> e2 then show "simplify2" e2;
let e3 = simplify3 e2 in
if e2 <> e3 then show "simplify3" e3;
e3
let optimize c =
let c = OcamlWalk.PatExpr.map_code normalize_expr normalize_pattern c in
let rec fix f a =
let res = f a in
if res = a then
a
else
fix f res
in
let optimize_with f c = fix (List.map (OcamlWalk.Expr.map f)) c in
let c = optimize_with (optimize_expr ~phase:`P1) c in
let c = optimize_with (optimize_expr ~phase:`P2) c in
c
module Misc =
struct
let size e =
OcamlWalk.Expr.fold (fun acc _ -> acc + 1) 0 e
end
module Deps =
struct
let deps add_ident acc e =
OcamlWalk.Expr.fold
(fun acc -> function
| Var (Labeled (_, Some _)) -> acc
| Var s -> add_ident s acc
| _ -> acc) acc e
end
(*
Keep this module at end, because it hides the module Ident from compiler lib
*)
module Ident =
struct
let is_operator = function
| "or" | "mod" | "land" | "lor" | "lxor" | "lsl" | "lsr" | "asr" -> true
| "" -> false
| s -> (
match s.[0] with
| '_' | 'a'..'z' -> false
| 'A'..'Z' | '0'..'9' -> false
| _ -> true
)
end