open Abstract_syntax_tree open Apron open Util open Environment_domain module RelationalDomain : ENVIRONMENT_DOMAIN = struct (* manager *) type man = Polka.loose Polka.t let manager = Polka.manager_alloc_loose () (* abstract elements *) type t = man Abstract1.t (* translation in trees *) let rec texpr_of_expr e = match fst e with | AST_identifier (id, _) -> Texpr1.Var (Var.of_string id) | AST_int_const (s, _) -> Texpr1.Cst (Coeff.s_of_mpqf (Mpqf.of_string s)) | AST_int_rand ((s, _), (t, _)) -> Texpr1.Cst (Coeff.i_of_mpqf (Mpqf.of_string s) (Mpqf.of_string t)) | AST_unary(AST_UNARY_PLUS, e) -> texpr_of_expr e | AST_unary(AST_UNARY_MINUS, e) -> (* (* APRON bug ? Unary negate seems to not work correctly... *) Texpr1.Unop( Texpr1.Neg, (texpr_of_expr e), Texpr1.Int, Texpr1.Zero) *) Texpr1.Binop( Texpr1.Sub, Texpr1.Cst(Coeff.s_of_mpqf (Mpqf.of_string "0")), (texpr_of_expr e), Texpr1.Int, Texpr1.Zero) | AST_binary( op, e1, e2) -> let f = match op with | AST_PLUS -> Texpr1.Add | AST_MINUS -> Texpr1.Sub | AST_MULTIPLY -> Texpr1.Mul | AST_DIVIDE -> Texpr1.Div | AST_MODULO -> Texpr1.Mod | _ -> assert false in Texpr1.Binop (f, (texpr_of_expr e1), (texpr_of_expr e2), Texpr1.Int, Texpr1.Zero) | _ -> assert false (* implementation *) let init = Abstract1.top manager (Environment.make [||] [||]) let bottom = Abstract1.bottom manager (Environment.make [||] [||]) let is_bot = Abstract1.is_bottom manager let addvar x id = let env = Abstract1.env x in let env2 = Environment.add env [| Var.of_string id |] [||] in Abstract1.change_environment manager x env2 false let rmvar x id = let env = Abstract1.env x in let env2 = Environment.remove env [| Var.of_string id |] in Abstract1.change_environment manager x env2 false let vars x = List.map Var.to_string @@ Array.to_list @@ fst @@ Environment.vars @@ Abstract1.env x let assign x id e = let expr = Texpr1.of_expr (Abstract1.env x) (texpr_of_expr e) in let x' = Abstract1.assign_texpr manager x (Var.of_string id) expr None in if false then begin Format.eprintf "Assign : "; Abstract1.print Format.err_formatter x; Format.eprintf " ; %s <- " id; Texpr1.print Format.err_formatter expr; Format.eprintf " ; "; Abstract1.print Format.err_formatter x'; Format.eprintf "@."; end; x' let compare op x e1 e2 = let env = Abstract1.env x in let expr = Texpr1.Binop (Texpr1.Sub, texpr_of_expr e2, texpr_of_expr e1, Texpr1.Int, Texpr1.Zero) in let cons = Tcons1.make (Texpr1.of_expr env expr) op in let ar = Tcons1.array_make env 1 in Tcons1.array_set ar 0 cons; Abstract1.meet_tcons_array manager x ar let compare_leq = compare Tcons1.SUPEQ let compare_eq = compare Tcons1.EQ let join = Abstract1.join manager let meet = Abstract1.meet manager let widen = Abstract1.widening manager let subset = Abstract1.is_leq manager let var_str x idl = let prevars = vars x in let rm_vars_l = List.filter (fun id -> not (List.mem id idl)) prevars in (* print_list "prevars" prevars; print_list "idl" idl; print_list "rm_vars_l" rm_vars_l; *) let rm_vars = Array.of_list (List.map Var.of_string rm_vars_l) in let xx = Abstract1.forget_array manager x rm_vars false in let b = Buffer.create 80 in let s = Format.formatter_of_buffer b in Abstract1.print s xx; Format.fprintf s "@?"; (Buffer.contents b) end