open Abstract_syntax_tree open Util open Value_domain open Environment_domain module NonRelational (V : VALUE_DOMAIN) : ENVIRONMENT_DOMAIN = struct type env = V.t VarMap.t type t = Env of env | Bot let init = Env VarMap.empty let bottom = Bot let get_var env id = try VarMap.find id env with Not_found -> V.top (* utilities *) let rec eval env expr = begin match fst expr with | AST_identifier (id, _) -> get_var env id | AST_int_const (s, _) -> V.const (Z.of_string s) | AST_int_rand ((s, _), (t, _)) -> V.rand (Z.of_string s) (Z.of_string t) | AST_unary (AST_UNARY_PLUS, e) -> eval env e | AST_unary (AST_UNARY_MINUS, e) -> V.neg (eval env e) | AST_unary (_, e) -> V.bottom | AST_binary (op, e1, e2) -> let f = match op with | AST_PLUS -> V.add | AST_MINUS -> V.sub | AST_MULTIPLY -> V.mul | AST_DIVIDE -> V.div | AST_MODULO -> V.rem | _ -> fun _ _ -> V.bottom in f (eval env e1) (eval env e2) | _ -> assert false (* unimplemented extension *) end let strict env = (* env -> t *) if VarMap.exists (fun _ x -> x = V.bottom) env then Bot else Env env let strict_apply f = function (* (env -> t) -> t -> t *) | Bot -> Bot | Env e -> match f e with | Bot -> Bot | Env e -> strict e (* implementation *) let is_bot env = match env with | Bot -> true | Env env -> strict env = Bot let addvar x id = strict_apply (fun y -> Env (VarMap.add id V.top y)) x let rmvar x id = strict_apply (fun y -> Env (VarMap.remove id y)) x let assign x id expr = strict_apply (fun env -> Env (VarMap.add id (eval env expr) env)) x let compare f x e1 e2 = strict_apply (fun env -> match fst e1, fst e2 with | AST_identifier(a, _), AST_identifier(b, _) -> let v1, v2 = get_var env a, get_var env b in let v1', v2' = f v1 v2 in Env (VarMap.add a v1' (VarMap.add b v2' env)) | AST_identifier(a, _), _ -> let v1, v2 = get_var env a, eval env e2 in let v1', v2' = f v1 v2 in if V.bottom = v2' then Bot else Env (VarMap.add a v1' env) | _, AST_identifier(b, _) -> let v1, v2 = eval env e1, get_var env b in let v1', v2' = f v1 v2 in if V.bottom = v1' then Bot else Env (VarMap.add b v2' env) | _ -> let v1, v2 = eval env e1, eval env e2 in let v1', v2' = f v1 v2 in if V.bottom = v1' || V.bottom = v2' then Bot else Env env) x let compare_leq = compare V.leq let compare_eq = compare (fun x y -> let r = V.meet x y in r, r) let join a b = match a, b with | Bot, x | x, Bot -> x | Env m, Env n -> strict (VarMap.map2z (fun _ a b -> V.join a b) m n) let meet a b = match a, b with | Bot, _ | _, Bot -> Bot | Env m, Env n -> strict (VarMap.map2z (fun _ a b -> V.meet a b) m n) let widen a b = match a, b with | Bot, x | x, Bot -> x | Env m, Env n -> strict (VarMap.map2z (fun _ a b -> V.widen a b) m n) let subset a b = match a, b with | Bot, x -> true | Env _, Bot -> false | Env m, Env n -> VarMap.for_all2o (fun _ _ -> true) (fun _ v -> v = V.top) (fun _ a b -> V.subset a b) m n (* pretty-printing *) let var_str env vars = match env with | Bot -> "bottom" | Env env -> let v = List.fold_left (fun s id -> (if s = "" then s else s ^ ", ") ^ id ^ " in " ^ (V.to_string (get_var env id)) ) "" vars in "[ " ^ v ^ " ]" let vars env = match env with | Bot -> [] | Env env -> List.map fst (VarMap.bindings env) end