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(*
* Copyright (c) 2009-2013, Monoidics ltd.
* Copyright (c) 2013-present, Facebook, Inc.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*)
open! IStd
module L = Logging
module F = Format
(** data type for the control flow graph *)
type t = Procdesc.t Typ.Procname.Hash.t
let create () = Typ.Procname.Hash.create 16
let iter_over_sorted_procs cfg ~f =
let compare_proc_desc_by_proc_name pdesc1 pdesc2 =
Typ.Procname.compare (Procdesc.get_proc_name pdesc1) (Procdesc.get_proc_name pdesc2)
in
Typ.Procname.Hash.fold (fun _ pdesc acc -> pdesc :: acc) cfg []
|> List.sort ~compare:compare_proc_desc_by_proc_name
|> List.iter ~f
let get_all_defined_proc_names cfg =
let procs = ref [] in
let f pname pdesc = if Procdesc.is_defined pdesc then procs := pname :: !procs in
Typ.Procname.Hash.iter f cfg ; !procs
(** Create a new procdesc *)
let create_proc_desc cfg (proc_attributes : ProcAttributes.t) =
let pdesc = Procdesc.from_proc_attributes proc_attributes in
Typ.Procname.Hash.add cfg proc_attributes.proc_name pdesc ;
pdesc
(** Iterate over all the nodes in the cfg *)
let iter_all_nodes ~sorted cfg ~f =
let do_proc_desc _ (pdesc : Procdesc.t) =
List.iter ~f:(fun node -> f pdesc node) (Procdesc.get_nodes pdesc)
in
if not sorted then Typ.Procname.Hash.iter do_proc_desc cfg
else
iter_over_sorted_procs cfg ~f:(fun pdesc ->
Procdesc.get_nodes pdesc
|> List.sort ~compare:Procdesc.Node.compare
|> List.iter ~f:(fun node -> f pdesc node) )
let store source_file cfg =
let save_proc _ proc_desc =
let attributes = Procdesc.get_attributes proc_desc in
let loc = attributes.loc in
let attributes' =
let loc' = if Location.equal loc Location.dummy then {loc with file= source_file} else loc in
{attributes with loc= loc'; translation_unit= source_file}
in
Procdesc.set_attributes proc_desc attributes' ;
Attributes.store ~proc_desc:(Some proc_desc) attributes'
in
Typ.Procname.Hash.iter save_proc cfg
(** Inline a synthetic (access or bridge) method. *)
let inline_synthetic_method ((ret_id, _) as ret) etl pdesc loc_call : Sil.instr option =
let found instr instr' =
L.(debug Analysis Verbose)
"XX inline_synthetic_method found instr: %a@." (Sil.pp_instr Pp.text) instr ;
L.(debug Analysis Verbose)
"XX inline_synthetic_method instr': %a@." (Sil.pp_instr Pp.text) instr' ;
Some instr'
in
let do_instr instr =
match (instr, etl) with
| Sil.Load (_, Exp.Lfield (Exp.Var _, fn, ft), bt, _), [(* getter for fields *) (e1, _)] ->
let instr' = Sil.Load (ret_id, Exp.Lfield (e1, fn, ft), bt, loc_call) in
found instr instr'
| Sil.Load (_, Exp.Lfield (Exp.Lvar pvar, fn, ft), bt, _), [] when Pvar.is_global pvar ->
(* getter for static fields *)
let instr' = Sil.Load (ret_id, Exp.Lfield (Exp.Lvar pvar, fn, ft), bt, loc_call) in
found instr instr'
| Sil.Store (Exp.Lfield (_, fn, ft), bt, _, _), [(* setter for fields *) (e1, _); (e2, _)] ->
let instr' = Sil.Store (Exp.Lfield (e1, fn, ft), bt, e2, loc_call) in
found instr instr'
| Sil.Store (Exp.Lfield (Exp.Lvar pvar, fn, ft), bt, _, _), [(e1, _)] when Pvar.is_global pvar
->
(* setter for static fields *)
let instr' = Sil.Store (Exp.Lfield (Exp.Lvar pvar, fn, ft), bt, e1, loc_call) in
found instr instr'
| Sil.Call (_, Exp.Const (Const.Cfun pn), etl', _, cf), _
when Int.equal (List.length etl') (List.length etl) ->
let instr' = Sil.Call (ret, Exp.Const (Const.Cfun pn), etl, loc_call, cf) in
found instr instr'
| Sil.Call (_, Exp.Const (Const.Cfun pn), etl', _, cf), _
when Int.equal (List.length etl' + 1) (List.length etl) ->
let etl1 =
match List.rev etl with
(* remove last element *)
| _ :: l ->
List.rev l
| [] ->
assert false
in
let instr' = Sil.Call (ret, Exp.Const (Const.Cfun pn), etl1, loc_call, cf) in
found instr instr'
| _ ->
None
in
Procdesc.find_map_instrs ~f:do_instr pdesc
(** Find synthetic (access or bridge) Java methods in the procedure and inline them in the cfg. *)
let proc_inline_synthetic_methods cfg pdesc : unit =
let instr_inline_synthetic_method instr =
match instr with
| Sil.Call (ret_id_typ, Exp.Const (Const.Cfun (Typ.Procname.Java java_pn as pn)), etl, loc, _)
-> (
match Typ.Procname.Hash.find cfg pn with
| pd ->
let is_access = Typ.Procname.Java.is_access_method java_pn in
let attributes = Procdesc.get_attributes pd in
let is_synthetic = attributes.is_synthetic_method in
let is_bridge = attributes.is_bridge_method in
if is_access || is_bridge || is_synthetic then
inline_synthetic_method ret_id_typ etl pd loc |> Option.value ~default:instr
else instr
| exception Caml.Not_found ->
instr )
| _ ->
instr
in
Procdesc.replace_instrs pdesc ~f:instr_inline_synthetic_method
let inline_java_synthetic_methods cfg =
let f pname pdesc = if Typ.Procname.is_java pname then proc_inline_synthetic_methods cfg pdesc in
Typ.Procname.Hash.iter f cfg
let pp_proc_signatures fmt cfg =
F.fprintf fmt "@[<v>METHOD SIGNATURES@;" ;
iter_over_sorted_procs ~f:(Procdesc.pp_signature fmt) cfg ;
F.fprintf fmt "@]"