153 lines
5.3 KiB
OCaml
153 lines
5.3 KiB
OCaml
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(*
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Cours "Sémantique et Application à la Vérification de programmes"
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Josselin Giet 2021
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Ecole normale supérieure, Paris, France / CNRS / INRIA
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*)
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open Abstract_syntax_tree
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let rec aux_int acc e =
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match fst e with
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| AST_int_identifier _
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| AST_int_const _
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| AST_int_rand (_, _) -> acc
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| AST_int_unary (_, e) -> aux_int acc e
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| AST_int_binary (AST_DIVIDE, e1, e2)
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| AST_int_binary (AST_MODULO, e1, e2) ->
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let acc = aux_int acc e1 in
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let acc = aux_int acc e2 in
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e2::acc
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| AST_int_binary (_ , e1, e2) ->
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let acc = aux_int acc e1 in
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let acc = aux_int acc e2 in
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acc
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| AST_expr_call (_, args) ->
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List.fold_left aux_int acc (List.rev args)
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let rec aux_bool acc b =
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match fst b with
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| AST_bool_const _
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| AST_bool_rand -> acc
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| AST_bool_unary (_, b) -> aux_bool acc b
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| AST_bool_binary (_, b1, b2) ->
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let acc = aux_bool acc b1 in
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let acc = aux_bool acc b2 in
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acc
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| AST_compare (_, e1, e2) ->
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let acc = aux_int acc e1 in
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let acc = aux_int acc e2 in
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acc
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(** [find_div_int expr] returns the list of integer expressions found as
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divisors in the integer expression [expr].
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the first elements of the list are the lower in the AST *)
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let find_div_int (e: int_expr ext) : int_expr ext list =
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aux_int [] e |> List.rev
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(** [find_div_bool b_expr] returns the list of integer expressions found as
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divisors in the boolean expression [b_expr].
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the first elements of the list are the lower in the AST *)
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let find_div_bool (b: bool_expr ext) : int_expr ext list =
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aux_bool [] b |> List.rev
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(** [create_assertions e] retuns a statment assrting that [e != 0].
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All locations informations are found in [e]. *)
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let create_assertions (e: int_expr ext) : stat ext =
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let ext = snd e in
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let zero = AST_int_const ("0", ext), ext in
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let be = AST_compare (AST_NOT_EQUAL, e, zero), ext in
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let s = AST_assert be in
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s, ext
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(** [add_assertions_stat s] returns (a bloc of) statements containing [s] and
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all necessary assertions. *)
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let rec add_assertions_stat (s: stat ext): stat ext list =
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let ext = snd s in
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match fst s with
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| AST_label _
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| AST_break _
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| AST_SKIP
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| AST_increment (_, _)
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| AST_return None
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| AST_goto _ -> [s]
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| AST_local_decl ((typ, vari), ext_decl) ->
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let aux (vari: var_init): stat ext list =
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match snd vari with
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| None -> [AST_local_decl ((typ, [vari]), ext_decl), ext]
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| Some (e, ext_e) ->
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let exprs = find_div_int (e, ext_e) in
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let stats = List.map create_assertions exprs in
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stats@[AST_local_decl ((typ, [vari]), ext_decl), ext_decl] in
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let stats = List.map aux vari |> List.flatten in
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stats
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| AST_block b ->
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let stats = List.map add_assertions_stat b |> List.flatten in
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[AST_block stats, ext]
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| AST_assign (_, expr) ->
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let exprs = find_div_int expr in
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let stats = List.map create_assertions exprs in
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stats@[s]
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| AST_assign_op (_, _, expr) ->
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let exprs = find_div_int expr in
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let stats = List.map create_assertions exprs in
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stats@[s]
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| AST_if (b_expr, s1, s2) ->
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let exprs = find_div_bool b_expr in
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let s =
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let s1 = AST_block (add_assertions_stat s1), snd s1 in
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let s2 = Option.map (fun s -> AST_block (add_assertions_stat s), snd s) s2 in
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AST_if (b_expr, s1, s2), ext in
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let stats = List.map create_assertions exprs in
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stats@[s]
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| AST_while (b_expr, s1) ->
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let exprs = find_div_bool b_expr in
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let stats = List.map create_assertions exprs in
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let s =
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let s1 = add_assertions_stat s1 in
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let s1 = AST_block (s1@stats), ext in
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AST_while (b_expr, s1), ext in
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stats@[s]
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| AST_for (stats_init, Some b_expr, stats_inc, body) ->
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let exprs = find_div_bool b_expr in
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let stats = List.map create_assertions exprs in
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let stats_init = List.map add_assertions_stat stats_init |> List.flatten in
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let stats_init = stats_init@stats in
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let body = AST_block (add_assertions_stat body), snd body in
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let stats_inc = List.map add_assertions_stat stats_inc |> List.flatten in
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let stats_inc = stats_inc@stats in
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let s = AST_for (stats_init, Some b_expr, stats_inc, body), ext in
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[s]
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| AST_for (stats_init, None, stats_inc, body) ->
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let stats_init = List.map add_assertions_stat stats_init |> List.flatten in
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let body = AST_block (add_assertions_stat body), snd body in
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let stats_inc = List.map add_assertions_stat stats_inc |> List.flatten in
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let s = AST_for (stats_init, None, stats_inc, body), ext in
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[s]
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| AST_assert (b_expr) ->
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let exprs = find_div_bool b_expr in
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let stats = List.map create_assertions exprs in
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stats@[s]
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| AST_stat_call (_, args) ->
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let exprs = List.map find_div_int args |> List.flatten in
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let stats = List.map create_assertions exprs in
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stats@[s]
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| AST_return (Some expr) ->
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let exprs = find_div_int expr in
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let stats = List.map create_assertions exprs in
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stats@[s]
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(** [add_assertions p] returns the program [p] with all division guarded with
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non-null assertions. *)
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let add_assertions (p: prog) : prog =
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let aux (fdecl: fun_decl): fun_decl =
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let fun_body = List.map add_assertions_stat fdecl.fun_body |> List.flatten in
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{ fdecl with fun_body } in
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let aux: toplevel -> toplevel = function
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| AST_global_decl _ as x -> x
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| AST_fun_decl (fdecl, ext) ->
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AST_fun_decl (aux fdecl, ext) in
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let decls, ext = p in
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List.map aux decls, ext
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