package frama-c

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Platform dedicated to the analysis of source code written in C
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Sources

frama-c-29.0-Copper.tar.gz
sha256=d2fbb3b8d0ff83945872e9e6fa258e934a706360e698dae3b4d5f971addf7493
doc/src/frama-c-alias.core/API.ml.html

Source file `API.ml`

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(**************************************************************************)
(*                                                                        *)
(*  This file is part of Frama-C.                                         *)
(*                                                                        *)
(*  Copyright (C) 2007-2024                                               *)
(*    CEA (Commissariat à l'énergie atomique et aux énergies              *)
(*         alternatives)                                                  *)
(*                                                                        *)
(*  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, version 2.1.                                              *)
(*                                                                        *)
(*  It 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.                   *)
(*                                                                        *)
(*  See the GNU Lesser General Public License version 2.1                 *)
(*  for more details (enclosed in the file licenses/LGPLv2.1).            *)
(*                                                                        *)
(**************************************************************************)

open Cil_types

module EdgeLabel = Abstract_state.EdgeLabel

(** Points-to graphs datastructure. *)
module G = Abstract_state.G

type v = G.V.t

let vid = Abstract_state.vid

module LSet = Abstract_state.LSet
module VarSet = Abstract_state.VarSet

module Abstract_state = Abstract_state

let check_computed () =
  if not (Analysis.is_computed ())
  then
    Options.abort "Static analysis must be called before any function of the API can be called"

let get_of_stmt ~stmt empty (get : Abstract_state.t -> 'a) =
  check_computed ();
  match Analysis.get_state_before_stmt stmt with
  | None -> empty
  | Some state -> get state

let lset ~stmt get_set = get_of_stmt ~stmt LSet.empty get_set
let vars ~stmt get_set = get_of_stmt ~stmt VarSet.empty get_set
let get_list ~stmt get = get_of_stmt ~stmt [] get

module Statement = struct
  let points_to_vars ~stmt lv = vars ~stmt (Abstract_state.points_to_vars lv)
  let points_to_lvals ~stmt lv = lset ~stmt (Abstract_state.points_to_lvals lv)
  let alias_sets_vars ~stmt = get_list ~stmt Abstract_state.alias_sets_vars
  let alias_sets_lvals ~stmt = get_list ~stmt Abstract_state.alias_sets_lvals
  let alias_vars ~stmt lv = vars ~stmt (Abstract_state.alias_vars lv)
  let alias_lvals ~stmt lv = lset ~stmt (Abstract_state.alias_lvals lv)
  let aliases = alias_lvals (* deprecated *)

  let new_aliases_lvals ~stmt lv =
    let get_set state =
      let new_state = Analysis.do_stmt state stmt in
      Abstract_state.alias_lvals lv new_state
    in
    lset ~stmt:stmt get_set

  let new_aliases_vars ~stmt lv =
    let get_set state =
      let new_state = Analysis.do_stmt state stmt in
      Abstract_state.alias_vars lv new_state
    in
    vars ~stmt:stmt get_set

  let are_aliased ~stmt (lv1: lval) (lv2:lval) : bool =
    (* TODO: more efficient algorithm: do they share a successor? *)
    LSet.mem lv2 @@ aliases ~stmt lv1
end

let points_to_set_stmt _kf stmt = Statement.points_to_lvals ~stmt

let aliases_stmt _kf stmt = Statement.aliases ~stmt

module Function = struct
  let return_stmt kf =
    if Kernel_function.has_definition kf
    then Kernel_function.find_return kf
    else Options.abort "function %a has no definition" Kernel_function.pretty kf

  let points_to_vars ~kf = Statement.points_to_vars ~stmt:(return_stmt kf)
  let points_to_lvals ~kf = Statement.points_to_lvals ~stmt:(return_stmt kf)
  let alias_sets_vars ~kf = Statement.alias_sets_vars ~stmt:(return_stmt kf)
  let alias_sets_lvals ~kf = Statement.alias_sets_lvals ~stmt:(return_stmt kf)
  let alias_vars ~kf = Statement.alias_vars ~stmt:(return_stmt kf)
  let alias_lvals ~kf = Statement.alias_lvals ~stmt:(return_stmt kf)
  let aliases = alias_lvals (* deprecated *)
  let are_aliased ~kf = Statement.are_aliased ~stmt:(return_stmt kf)

  let fundec_stmts ~kf lv =
    if Kernel_function.has_definition kf
    then
      List.map
        (fun stmt -> stmt, Statement.new_aliases_lvals ~stmt lv)
        (Kernel_function.get_definition kf).sallstmts
    else
      Options.abort "fundec_stmts: function %a has no definition" Kernel_function.pretty kf
end

let points_to_set_kf kf = Function.points_to_lvals ~kf

let aliases_kf kf = Function.aliases ~kf

let fundec_stmts kf = Function.fundec_stmts ~kf


let fold_points_to_set f_fold acc kf s lv =
  LSet.fold (fun e a -> f_fold a e) (points_to_set_stmt kf s lv) acc

let fold_aliases_stmt f_fold acc kf s lv =
  LSet.fold (fun e a -> f_fold a e) (aliases_stmt kf s lv) acc

let fold_new_aliases_stmt f_fold acc _kf s lv =
  LSet.fold (fun e a -> f_fold a e) (Statement.new_aliases_lvals ~stmt:s lv) acc

let fold_points_to_set_kf (f_fold: 'a -> lval -> 'a) (acc: 'a) (kf:kernel_function) (lv:lval) : 'a =
  LSet.fold (fun e a -> f_fold a e) (points_to_set_kf kf lv) acc

let fold_aliases_kf (f_fold : 'a -> lval -> 'a) (acc : 'a) kf lv : 'a =
  LSet.fold (fun e a -> f_fold a e) (aliases_kf kf lv) acc

let fold_fundec_stmts (f_fold: 'a -> stmt -> lval -> 'a) (acc: 'a) (kf:kernel_function) (lv:lval) : 'a =
  List.fold_left
    (fun acc (s, set) ->
       LSet.fold (fun lv a -> f_fold a s lv) set acc
    )
    acc
    (fundec_stmts kf lv)

let are_aliased (_kf: kernel_function) stmt = Statement.are_aliased ~stmt

let fold_vertex (f_fold : 'a -> G.V.t -> lval -> 'a) (acc: 'a) (_kf: kernel_function) (s:stmt) (lv: lval) : 'a =
  check_computed ();
  match Analysis.get_state_before_stmt s with
    None -> acc
  | Some state ->
    let v : G.V.t = Abstract_state.find_vertex lv state in
    let set_aliases = Abstract_state.find_synonyms lv state in
    LSet.fold (fun lv a -> f_fold a v lv) set_aliases acc

let fold_vertex_closure  (f_fold : 'a -> G.V.t -> lval -> 'a) (acc: 'a) (_kf: kernel_function)  (s:stmt) (lv: lval) : 'a =
  check_computed ();
  match Analysis.get_state_before_stmt s with
    None -> acc
  | Some state ->
    let list_closure : (G.V.t * LSet.t) list = Abstract_state.find_transitive_closure lv state in
    List.fold_left
      (fun acc (i,s) -> LSet.fold (fun lv a -> f_fold a i lv) s acc)
      acc
      list_closure

let get_state_before_stmt _kf =
  Analysis.get_state_before_stmt

let call_function a f res args =
  match Analysis.get_summary f with
    None -> None
  | Some su -> Some(Abstract_state.call a res args su)

let simplify_lval = Simplified.Lval.simplify