(* * Copyright (c) 2017 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. *) open! IStd module F = Format module L = Logging type t = { ret : Annot.Item.t * Typ.t; params: (Mangled.t * Annot.Item.t * Typ.t) list; } [@@deriving compare] type annotation = | Nullable | Present [@@deriving compare] let ia_is ann ia = match ann with | Nullable -> Annotations.ia_is_nullable ia | Present -> Annotations.ia_is_present ia let get proc_attributes : t = let method_annotation = proc_attributes.ProcAttributes.method_annotation in let formals = proc_attributes.ProcAttributes.formals in let ret_type = proc_attributes.ProcAttributes.ret_type in let (ia, ial0) = method_annotation in let natl = let rec extract ial parl = match ial, parl with | ia :: ial', (name, typ) :: parl' -> (name, ia, typ) :: extract ial' parl' | [], (name, typ) :: parl' -> (name, Annot.Item.empty, typ) :: extract [] parl' | [], [] -> [] | _ :: _, [] -> assert false in IList.rev (extract (IList.rev ial0) (IList.rev formals)) in let annotated_signature = { ret = (ia, ret_type); params = natl } in annotated_signature let param_is_nullable pvar ann_sig = List.exists ~f:(fun (param, annot, _) -> Mangled.equal param (Pvar.get_name pvar) && Annotations.ia_is_nullable annot) ann_sig.params let pp proc_name fmt annotated_signature = let pp_ia fmt ia = if ia <> [] then F.fprintf fmt "%a " Annot.Item.pp ia in let pp_annotated_param fmt (p, ia, t) = F.fprintf fmt " %a%a %a" pp_ia ia (Typ.pp_full Pp.text) t Mangled.pp p in let ia, ret_type = annotated_signature.ret in F.fprintf fmt "%a%a %s (%a )" pp_ia ia (Typ.pp_full Pp.text) ret_type (Procname.to_simplified_string proc_name) (Pp.comma_seq pp_annotated_param) annotated_signature.params let is_anonymous_inner_class_wrapper ann_sig proc_name = let check_ret (ia, t) = Annot.Item.is_empty ia && PatternMatch.type_is_object t in let x_param_found = ref false in let name_is_x_number name = let name_str = Mangled.to_string name in let len = String.length name_str in len >= 2 && String.equal (String.sub name_str ~pos:0 ~len:1) "x" && let s = String.sub name_str ~pos:1 ~len:(len - 1) in let is_int = try ignore (int_of_string s); x_param_found := true; true with Failure _ -> false in is_int in let check_param (name, ia, t) = if String.equal (Mangled.to_string name) "this" then true else name_is_x_number name && Annot.Item.is_empty ia && PatternMatch.type_is_object t in Procname.java_is_anonymous_inner_class proc_name && check_ret ann_sig.ret && List.for_all ~f:check_param ann_sig.params && !x_param_found let mk_ann_str s = { Annot.class_name = s; parameters = [] } let mk_ann = function | Nullable -> mk_ann_str Annotations.nullable | Present -> mk_ann_str Annotations.present let mk_ia ann ia = if ia_is ann ia then ia else (mk_ann ann, true) :: ia let mark_ia ann ia x = if x then mk_ia ann ia else ia let mk_ia_strict ia = if Annotations.ia_get_strict ia <> None then ia else (mk_ann_str Annotations.strict, true) :: ia let mark_ia_strict ia x = if x then mk_ia_strict ia else ia let method_annotation_mark_return ann method_annotation = let ia_ret, params = method_annotation in let ia_ret' = mark_ia ann ia_ret true in ia_ret', params let mark proc_name ann asig (b, bs) = let ia, t = asig.ret in let ret' = mark_ia ann ia b, t in let mark_param (s, ia, t) x = let ia' = if x then mk_ia ann ia else ia in (s, ia', t) in let params' = let fail () = L.stdout "INTERNAL ERROR: annotation for procedure %s has wrong number of arguments@." (Procname.to_unique_id proc_name); L.stdout " ANNOTATED SIGNATURE: %a@." (pp proc_name) asig; assert false in let rec combine l1 l2 = match l1, l2 with | (p, ia, t):: l1', l2' when String.equal (Mangled.to_string p) "this" -> (p, ia, t) :: combine l1' l2' | (s, ia, t):: l1', x:: l2' -> mark_param (s, ia, t) x :: combine l1' l2' | [], _:: _ -> fail () | _:: _, [] -> fail () | [], [] -> [] in combine asig.params bs in { ret = ret'; params = params'} let mark_return ann asig = let ia, t = asig.ret in let ret' = mark_ia ann ia true, t in { asig with ret = ret'}