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dce.ml
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(*
* Copyright (C)2005-2013 Haxe Foundation
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*)
open Ast
open Common
open Type
type dce = {
com : context;
full : bool;
std_dirs : string list;
debug : bool;
follow_expr : dce -> texpr -> unit;
mutable added_fields : (tclass * tclass_field * bool) list;
mutable marked_fields : tclass_field list;
mutable marked_maybe_fields : tclass_field list;
mutable t_stack : t list;
mutable ts_stack : t list;
mutable features : (string,(tclass * tclass_field * bool) list) Hashtbl.t;
}
(* checking *)
(* check for @:keepSub metadata, which forces @:keep on child classes *)
let rec super_forces_keep c =
Meta.has Meta.KeepSub c.cl_meta || match c.cl_super with
| Some (csup,_) -> super_forces_keep csup
| _ -> false
let is_std_file dce file =
List.exists (ExtString.String.starts_with file) dce.std_dirs
(* check if a class is kept entirely *)
let keep_whole_class dce c =
Meta.has Meta.Keep c.cl_meta
|| not (dce.full || is_std_file dce c.cl_module.m_extra.m_file || has_meta Meta.Dce c.cl_meta)
|| super_forces_keep c
|| (match c with
| { cl_path = ([],("Math"|"Array"))} when dce.com.platform = Js -> false
| { cl_extern = true }
| { cl_path = ["flash";"_Boot"],"RealBoot" } -> true
| { cl_path = [],"String" }
| { cl_path = [],"Array" } -> not (dce.com.platform = Js)
| _ -> false)
let keep_whole_enum dce en =
Meta.has Meta.Keep en.e_meta
|| not (dce.full || is_std_file dce en.e_module.m_extra.m_file || has_meta Meta.Dce en.e_meta)
(* check if a field is kept *)
let keep_field dce cf =
Meta.has Meta.Keep cf.cf_meta
|| Meta.has Meta.Used cf.cf_meta
|| cf.cf_name = "__init__"
|| is_extern_field cf
(* marking *)
let rec check_feature dce s =
try
let l = Hashtbl.find dce.features s in
List.iter (fun (c,cf,stat) ->
mark_field dce c cf stat
) l;
Hashtbl.remove dce.features s;
with Not_found ->
()
(* mark a field as kept *)
and mark_field dce c cf stat =
let add cf =
if not (Meta.has Meta.Used cf.cf_meta) then begin
cf.cf_meta <- (Meta.Used,[],cf.cf_pos) :: cf.cf_meta;
dce.added_fields <- (c,cf,stat) :: dce.added_fields;
dce.marked_fields <- cf :: dce.marked_fields;
check_feature dce (Printf.sprintf "%s.%s" (s_type_path c.cl_path) cf.cf_name);
end
in
if cf.cf_name = "new" then begin
let rec loop c = match c.cl_super with
| None -> ()
| Some (csup,_) ->
begin match csup.cl_constructor with
| None -> ()
| Some cf -> add cf
end;
loop csup
in
loop c
end;
if not (PMap.mem cf.cf_name (if stat then c.cl_statics else c.cl_fields)) then begin
match c.cl_super with
| None -> add cf
| Some (c,_) -> mark_field dce c cf stat
end else
add cf
let rec update_marked_class_fields dce c =
(* mark all :?used fields as surely :used now *)
List.iter (fun cf ->
if Meta.has Meta.MaybeUsed cf.cf_meta then mark_field dce c cf true
) c.cl_ordered_statics;
List.iter (fun cf ->
if Meta.has Meta.MaybeUsed cf.cf_meta then mark_field dce c cf false
) c.cl_ordered_fields;
(* we always have to keep super classes and implemented interfaces *)
(match c.cl_init with None -> () | Some init -> dce.follow_expr dce init);
List.iter (fun (c,_) -> mark_class dce c) c.cl_implements;
(match c.cl_super with None -> () | Some (csup,pl) -> mark_class dce csup)
(* mark a class as kept. If the class has fields marked as @:?keep, make sure to keep them *)
and mark_class dce c = if not (Meta.has Meta.Used c.cl_meta) then begin
c.cl_meta <- (Meta.Used,[],c.cl_pos) :: c.cl_meta;
check_feature dce (Printf.sprintf "%s.*" (s_type_path c.cl_path));
update_marked_class_fields dce c;
end
let rec mark_enum dce e = if not (Meta.has Meta.Used e.e_meta) then begin
e.e_meta <- (Meta.Used,[],e.e_pos) :: e.e_meta;
check_feature dce (Printf.sprintf "%s.*" (s_type_path e.e_path));
PMap.iter (fun _ ef -> mark_t dce ef.ef_pos ef.ef_type) e.e_constrs;
end
and mark_abstract dce a = if not (Meta.has Meta.Used a.a_meta) then begin
check_feature dce (Printf.sprintf "%s.*" (s_type_path a.a_path));
a.a_meta <- (Meta.Used,[],a.a_pos) :: a.a_meta
end
(* mark a type as kept *)
and mark_t dce p t =
if not (List.exists (fun t2 -> Type.fast_eq t t2) dce.t_stack) then begin
dce.t_stack <- t :: dce.t_stack;
begin match follow t with
| TInst({cl_kind = KTypeParameter tl} as c,pl) ->
if not (Meta.has Meta.Used c.cl_meta) then begin
c.cl_meta <- (Meta.Used,[],c.cl_pos) :: c.cl_meta;
List.iter (mark_t dce p) tl;
end;
List.iter (mark_t dce p) pl
| TInst(c,pl) ->
mark_class dce c;
List.iter (mark_t dce p) pl
| TFun(args,ret) ->
List.iter (fun (_,_,t) -> mark_t dce p t) args;
mark_t dce p ret
| TEnum(e,pl) ->
mark_enum dce e;
List.iter (mark_t dce p) pl
| TAbstract(a,pl) when Meta.has Meta.MultiType a.a_meta ->
begin try
mark_t dce p (snd (Codegen.AbstractCast.find_multitype_specialization dce.com a pl p))
with Typecore.Error _ ->
()
end
| TAbstract(a,pl) ->
mark_abstract dce a;
List.iter (mark_t dce p) pl;
if not (Meta.has Meta.CoreType a.a_meta) then
mark_t dce p (Abstract.get_underlying_type a pl)
| TLazy _ | TDynamic _ | TAnon _ | TType _ | TMono _ -> ()
end;
dce.t_stack <- List.tl dce.t_stack
end
let mark_mt dce mt = match mt with
| TClassDecl c ->
mark_class dce c;
| TEnumDecl e ->
mark_enum dce e
| TAbstractDecl a ->
(* abstract 'feature' is defined as the abstract type beeing used as a value, not as a type *)
if not (Meta.has Meta.ValueUsed a.a_meta) then a.a_meta <- (Meta.ValueUsed,[],a.a_pos) :: a.a_meta;
mark_abstract dce a
| TTypeDecl _ ->
()
(* find all dependent fields by checking implementing/subclassing types *)
let rec mark_dependent_fields dce csup n stat =
List.iter (fun mt -> match mt with
| TClassDecl c when is_parent csup c ->
let rec loop c =
(try
let cf = PMap.find n (if stat then c.cl_statics else c.cl_fields) in
(* if it's clear that the class is kept, the field has to be kept as well. This is also true for
extern interfaces because we cannot remove fields from them *)
if Meta.has Meta.Used c.cl_meta || (csup.cl_interface && csup.cl_extern) then mark_field dce c cf stat
(* otherwise it might be kept if the class is kept later, so mark it as :?used *)
else if not (Meta.has Meta.MaybeUsed cf.cf_meta) then begin
cf.cf_meta <- (Meta.MaybeUsed,[],cf.cf_pos) :: cf.cf_meta;
dce.marked_maybe_fields <- cf :: dce.marked_maybe_fields;
end
with Not_found ->
(* if the field is not present on current class, it might come from a base class *)
(match c.cl_super with None -> () | Some (csup,_) -> loop csup))
in
loop c
| _ -> ()
) dce.com.types
(* expr and field evaluation *)
let opt f e = match e with None -> () | Some e -> f e
let rec to_string dce t = match t with
| TInst(c,tl) ->
field dce c "toString" false;
| TType(tt,tl) ->
if not (List.exists (fun t2 -> Type.fast_eq t t2) dce.ts_stack) then begin
dce.ts_stack <- t :: dce.ts_stack;
to_string dce (apply_params tt.t_params tl tt.t_type)
end
| TAbstract({a_impl = Some c} as a,tl) ->
if Meta.has Meta.CoreType a.a_meta then
field dce c "toString" false
else
to_string dce (Abstract.get_underlying_type a tl)
| TMono r ->
(match !r with
| Some t -> to_string dce t
| _ -> ())
| TLazy f ->
to_string dce (!f())
| TDynamic t ->
if t == t_dynamic then
()
else
to_string dce t
| TEnum _ | TFun _ | TAnon _ | TAbstract({a_impl = None},_) ->
(* if we to_string these it does not imply that we need all its sub-types *)
()
and field dce c n stat =
let find_field n =
if n = "new" then match c.cl_constructor with
| None -> raise Not_found
| Some cf -> cf
else PMap.find n (if stat then c.cl_statics else c.cl_fields)
in
(try
let cf = find_field n in
mark_field dce c cf stat;
with Not_found -> try
if c.cl_interface then begin
let rec loop cl = match cl with
| [] -> raise Not_found
| (c,_) :: cl ->
try field dce c n stat with Not_found -> loop cl
in
loop c.cl_implements
end else match c.cl_super with Some (csup,_) -> field dce csup n stat | None -> raise Not_found
with Not_found -> try
match c.cl_kind with
| KTypeParameter tl ->
let rec loop tl = match tl with
| [] -> raise Not_found
| TInst(c,_) :: cl ->
(try field dce c n stat with Not_found -> loop cl)
| t :: tl ->
loop tl
in
loop tl
| _ -> raise Not_found
with Not_found ->
if dce.debug then prerr_endline ("[DCE] Field " ^ n ^ " not found on " ^ (s_type_path c.cl_path)) else ())
and mark_really_used_class c =
if not (Meta.has Meta.ReallyUsed c.cl_meta) then
c.cl_meta <- (Meta.ReallyUsed,[],c.cl_pos) :: c.cl_meta
and mark_really_used_mt mt =
match mt with
| TClassDecl c ->
mark_really_used_class c
| _ ->
()
and expr dce e =
mark_t dce e.epos e.etype;
match e.eexpr with
| TNew(c,pl,el) ->
mark_class dce c;
mark_really_used_class c;
field dce c "new" false;
List.iter (expr dce) el;
List.iter (mark_t dce e.epos) pl;
| TVar (v,e1) ->
opt (expr dce) e1;
mark_t dce e.epos v.v_type;
| TCast(e, Some mt) ->
check_feature dce "typed_cast";
mark_mt dce mt;
mark_really_used_mt mt;
expr dce e;
| TTypeExpr mt ->
mark_mt dce mt;
mark_really_used_mt mt;
| TTry(e, vl) ->
expr dce e;
List.iter (fun (v,e) ->
if v.v_type != t_dynamic then check_feature dce "typed_catch";
expr dce e;
mark_t dce e.epos v.v_type;
) vl;
| TCall ({eexpr = TLocal ({v_name = "__define_feature__"})},[{eexpr = TConst (TString ft)};e]) ->
Common.add_feature dce.com ft;
check_feature dce ft;
expr dce e
(* keep toString method when the class is argument to Std.string or haxe.Log.trace *)
| TCall ({eexpr = TField({eexpr = TTypeExpr (TClassDecl ({cl_path = (["haxe"],"Log")} as c))},FStatic (_,{cf_name="trace"}))} as ef, ((e2 :: el) as args))
| TCall ({eexpr = TField({eexpr = TTypeExpr (TClassDecl ({cl_path = ([],"Std")} as c))},FStatic (_,{cf_name="string"}))} as ef, ((e2 :: el) as args)) ->
mark_class dce c;
to_string dce e2.etype;
begin match el with
| [{eexpr = TObjectDecl fl}] ->
begin try
begin match List.assoc "customParams" fl with
| {eexpr = TArrayDecl el} ->
List.iter (fun e -> to_string dce e.etype) el
| _ ->
()
end
with Not_found ->
()
end
| _ ->
()
end;
expr dce ef;
List.iter (expr dce) args;
| TCall ({eexpr = TConst TSuper} as e,el) ->
mark_t dce e.epos e.etype;
List.iter (expr dce) el;
| TField(e,fa) ->
begin match fa with
| FStatic(c,cf) ->
mark_class dce c;
mark_field dce c cf true;
| FInstance(c,_,cf) ->
mark_class dce c;
mark_field dce c cf false;
| _ ->
let n = field_name fa in
begin match follow e.etype with
| TInst(c,_) ->
mark_class dce c;
field dce c n false;
| TAnon a ->
(match !(a.a_status) with
| Statics c ->
mark_class dce c;
field dce c n true;
| _ -> ())
| _ -> ()
end;
end;
expr dce e;
| TThrow e ->
to_string dce e.etype;
expr dce e
| _ ->
Type.iter (expr dce) e
let fix_accessors com =
List.iter (fun mt -> match mt with
| (TClassDecl c) ->
let rec has_accessor c n stat =
PMap.mem n (if stat then c.cl_statics else c.cl_fields)
|| match c.cl_super with Some (csup,_) -> has_accessor csup n stat | None -> false
in
let check_prop stat cf =
(match cf.cf_kind with
| Var {v_read = AccCall; v_write = a} ->
let s = "get_" ^ cf.cf_name in
cf.cf_kind <- Var {v_read = if has_accessor c s stat then AccCall else AccNever; v_write = a}
| _ -> ());
(match cf.cf_kind with
| Var {v_write = AccCall; v_read = a} ->
let s = "set_" ^ cf.cf_name in
cf.cf_kind <- Var {v_write = if has_accessor c s stat then AccCall else AccNever; v_read = a}
| _ -> ())
in
List.iter (check_prop true) c.cl_ordered_statics;
List.iter (check_prop false) c.cl_ordered_fields;
| _ -> ()
) com.types
let run com main full =
let dce = {
com = com;
full = full;
std_dirs = if full then [] else List.map Common.unique_full_path com.std_path;
debug = Common.defined com Define.DceDebug;
added_fields = [];
follow_expr = expr;
marked_fields = [];
marked_maybe_fields = [];
t_stack = [];
ts_stack = [];
features = Hashtbl.create 0;
} in
begin match main with
| Some {eexpr = TCall({eexpr = TField(e,(FStatic(c,cf)))},_)} ->
cf.cf_meta <- (Meta.Keep,[],cf.cf_pos) :: cf.cf_meta
| _ ->
()
end;
List.iter (fun m ->
List.iter (fun (s,v) ->
if Hashtbl.mem dce.features s then Hashtbl.replace dce.features s (v :: Hashtbl.find dce.features s)
else Hashtbl.add dce.features s [v]
) m.m_extra.m_features;
) com.modules;
(* first step: get all entry points, which is the main method and all class methods which are marked with @:keep *)
List.iter (fun t -> match t with
| TClassDecl c ->
let keep_class = keep_whole_class dce c && (not c.cl_extern || c.cl_interface) in
let loop stat cf =
if keep_class || keep_field dce cf then mark_field dce c cf stat
in
List.iter (loop true) c.cl_ordered_statics;
List.iter (loop false) c.cl_ordered_fields;
begin match c.cl_constructor with
| Some cf -> loop false cf
| None -> ()
end;
begin match c.cl_init with
| Some e when keep_class || Meta.has Meta.KeepInit c.cl_meta ->
(* create a fake field to deal with our internal logic (issue #3286) *)
let cf = mk_field "__init__" e.etype e.epos in
cf.cf_expr <- Some e;
loop true cf
| _ ->
()
end;
| TEnumDecl en when keep_whole_enum dce en ->
mark_enum dce en
| _ ->
()
) com.types;
if dce.debug then begin
List.iter (fun (c,cf,_) -> match cf.cf_expr with
| None -> ()
| Some _ -> print_endline ("[DCE] Entry point: " ^ (s_type_path c.cl_path) ^ "." ^ cf.cf_name)
) dce.added_fields;
end;
(* second step: initiate DCE passes and keep going until no new fields were added *)
let rec loop () =
match dce.added_fields with
| [] -> ()
| cfl ->
dce.added_fields <- [];
(* extend to dependent (= overriding/implementing) class fields *)
List.iter (fun (c,cf,stat) -> mark_dependent_fields dce c cf.cf_name stat) cfl;
(* mark fields as used *)
List.iter (fun (c,cf,stat) ->
if not (is_extern_field cf) then mark_class dce c;
mark_field dce c cf stat;
mark_t dce cf.cf_pos cf.cf_type
) cfl;
(* follow expressions to new types/fields *)
List.iter (fun (_,cf,_) ->
opt (expr dce) cf.cf_expr;
List.iter (fun cf -> if cf.cf_expr <> None then opt (expr dce) cf.cf_expr) cf.cf_overloads
) cfl;
loop ()
in
loop ();
(* third step: filter types *)
let rec loop acc types =
match types with
| (TClassDecl c) as mt :: l when keep_whole_class dce c ->
loop (mt :: acc) l
| (TClassDecl c) as mt :: l ->
let check_property cf stat =
let add_accessor_metadata cf =
if not (Meta.has Meta.Accessor cf.cf_meta) then cf.cf_meta <- (Meta.Accessor,[],c.cl_pos) :: cf.cf_meta
in
begin match cf.cf_kind with
| Var {v_read = AccCall} ->
begin try
add_accessor_metadata (PMap.find ("get_" ^ cf.cf_name) (if stat then c.cl_statics else c.cl_fields))
with Not_found ->
()
end
| _ ->
()
end;
begin match cf.cf_kind with
| Var {v_write = AccCall} ->
begin try
add_accessor_metadata (PMap.find ("set_" ^ cf.cf_name) (if stat then c.cl_statics else c.cl_fields))
with Not_found ->
()
end
| _ ->
()
end;
in
(* add :keep so subsequent filter calls do not process class fields again *)
c.cl_meta <- (Meta.Keep,[],c.cl_pos) :: c.cl_meta;
c.cl_ordered_statics <- List.filter (fun cf ->
let b = keep_field dce cf in
if not b then begin
if dce.debug then print_endline ("[DCE] Removed field " ^ (s_type_path c.cl_path) ^ "." ^ (cf.cf_name));
check_property cf true;
c.cl_removed_statics <- PMap.add cf.cf_name cf c.cl_removed_statics;
c.cl_statics <- PMap.remove cf.cf_name c.cl_statics;
end;
b
) c.cl_ordered_statics;
c.cl_ordered_fields <- List.filter (fun cf ->
let b = keep_field dce cf in
if not b then begin
if dce.debug then print_endline ("[DCE] Removed field " ^ (s_type_path c.cl_path) ^ "." ^ (cf.cf_name));
check_property cf false;
c.cl_removed_fields <- PMap.add cf.cf_name cf c.cl_removed_fields;
c.cl_fields <- PMap.remove cf.cf_name c.cl_fields;
end;
b
) c.cl_ordered_fields;
(match c.cl_constructor with Some cf when not (keep_field dce cf) -> c.cl_constructor <- None | _ -> ());
let inef cf = not (is_extern_field cf) in
let has_non_extern_fields = List.exists inef c.cl_ordered_fields || List.exists inef c.cl_ordered_statics in
(* we keep a class if it was used or has a used field *)
if Meta.has Meta.Used c.cl_meta || has_non_extern_fields then loop (mt :: acc) l else begin
(match c.cl_init with
| Some f when Meta.has Meta.KeepInit c.cl_meta ->
(* it means that we only need the __init__ block *)
c.cl_extern <- true;
loop (mt :: acc) l
| _ ->
if dce.debug then print_endline ("[DCE] Removed class " ^ (s_type_path c.cl_path));
loop acc l)
end
| (TEnumDecl en) as mt :: l when Meta.has Meta.Used en.e_meta || en.e_extern || keep_whole_enum dce en ->
loop (mt :: acc) l
| TEnumDecl e :: l ->
if dce.debug then print_endline ("[DCE] Removed enum " ^ (s_type_path e.e_path));
loop acc l
| mt :: l ->
loop (mt :: acc) l
| [] ->
acc
in
com.types <- loop [] (List.rev com.types);
(* extra step to adjust properties that had accessors removed (required for Php and Cpp) *)
fix_accessors com;
(* remove "override" from fields that do not override anything anymore *)
List.iter (fun mt -> match mt with
| TClassDecl c ->
c.cl_overrides <- List.filter (fun s ->
let rec loop c =
match c.cl_super with
| Some (csup,_) when PMap.mem s.cf_name csup.cl_fields -> true
| Some (csup,_) -> loop csup
| None -> false
in
loop c
) c.cl_overrides;
| _ -> ()
) com.types;
(* mark extern classes as really used if they are extended by non-extern ones *)
List.iter (function
| TClassDecl ({cl_extern = false; cl_super = Some ({cl_extern = true} as csup, _)}) ->
mark_really_used_class csup
| TClassDecl ({cl_extern = false} as c) when c.cl_implements <> [] ->
List.iter (fun (iface,_) -> if (iface.cl_extern) then mark_really_used_class iface) c.cl_implements;
| _ -> ()
) com.types;
(* cleanup added fields metadata - compatibility with compilation server *)
let rec remove_meta m = function
| [] -> []
| (m2,_,_) :: l when m = m2 -> l
| x :: l -> x :: remove_meta m l
in
List.iter (fun cf -> cf.cf_meta <- remove_meta Meta.Used cf.cf_meta) dce.marked_fields;
List.iter (fun cf -> cf.cf_meta <- remove_meta Meta.MaybeUsed cf.cf_meta) dce.marked_maybe_fields;