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author | Alex Auvolat <alex.auvolat@ansys.com> | 2014-07-31 11:11:32 +0200 |
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committer | Alex Auvolat <alex.auvolat@ansys.com> | 2014-07-31 11:11:32 +0200 |
commit | ffa7da8b4343f2ce8fee6c0a4409f4de8f4e5024 (patch) | |
tree | 24a36ef086f10aa44b13d2e64c0d024b787e0702 | |
parent | 93d924bb1017dc26a9735801e1b7f8b7a3f4ef2c (diff) | |
download | scade-analyzer-ffa7da8b4343f2ce8fee6c0a4409f4de8f4e5024.tar.gz scade-analyzer-ffa7da8b4343f2ce8fee6c0a4409f4de8f4e5024.zip |
Oops, forgot most important file !
-rw-r--r-- | abstract/abs_domain.ml | 221 |
1 files changed, 221 insertions, 0 deletions
diff --git a/abstract/abs_domain.ml b/abstract/abs_domain.ml new file mode 100644 index 0000000..ce58c3b --- /dev/null +++ b/abstract/abs_domain.ml @@ -0,0 +1,221 @@ +open Ast +open Formula + +open Num_domain +open Enum_domain + +open Varenv + +module type ENVIRONMENT_DOMAIN = sig + type t + type itv + + (* constructors *) + val top : varenv -> t + val bottom : varenv -> t + val is_top : t -> bool + val is_bot : t -> bool + + (* variable management *) + val varenv : t -> varenv + + val forgetvar : t -> id -> t + val forgetvars : t -> id list -> t + val nproject : t -> id -> itv (* numerical project *) + val eproject : t -> id -> item list + + (* set-theoretic operations *) + val join : t -> t -> t + val meet : t -> t -> t + val widen : t -> t -> t + + val subset : t -> t -> bool + val eq : t -> t -> bool + + (* abstract operations *) + val apply_ec : t -> enum_cons -> t + val apply_ecl : t -> enum_cons list -> t + val apply_nc : t -> num_cons -> t + val apply_ncl : t -> num_cons list -> t + val eassign : t -> (id * id) list -> t + val nassign : t -> (id * num_expr) list -> t + + (* pretty-printing *) + val print : Format.formatter -> t -> unit + val print_vars : Format.formatter -> t -> id list -> unit + val print_itv : Format.formatter -> itv -> unit + +end + +module NumDomainOnly(ND : NUMERICAL_ENVIRONMENT_DOMAIN) : ENVIRONMENT_DOMAIN = +struct + + type t = varenv * ND.t + type itv = ND.itv + + let top ve = (ve, ND.top ve.nvars) + let bottom ve = (ve, ND.top ve.nvars) + let is_top (_, x) = ND.is_top x + let is_bot (_, x) = ND.is_bot x + + let varenv (ve, x) = ve + + let forgetvar (ve, x) id = + if List.exists (fun (i, _) -> i = id) ve.nvars + then (ve, ND.forgetvar x id) + else (ve, x) + let forgetvars (ve, x) ids = + (ve, List.fold_left ND.forgetvar x + (List.filter (fun id -> List.exists (fun (i, _) -> i = id) ve.nvars) ids)) + let nproject (_, x) id = ND.project x id + let eproject (ve, _) id = List.assoc id ve.evars + + let join (ve, a) (_, b) = (ve, ND.join a b) + let meet (ve, a) (_, b) = (ve, ND.meet a b) + let widen (ve, a) (_, b) = (ve, ND.widen a b) + + let subset (_, a) (_, b) = ND.subset a b + let eq (_, a) (_, b) = ND.eq a b + + let apply_ec x _ = x + let apply_ecl x _ = x + let apply_nc (ve, x) c = (ve, ND.apply_cons x c) + let apply_ncl (ve, x) cl = (ve, ND.apply_cl x cl) + let eassign x _ = x + let nassign (ve, x) ex = (ve, ND.assign x ex) + + let print fmt (_, x) = ND.print fmt x + let print_vars fmt (ve, x) ids = + ND.print_vars fmt x + (List.filter + (fun id -> List.exists (fun (i, _) -> i = id) ve.nvars) ids) + let print_itv = ND.print_itv + +end + +module NumEnumDomain + (ED : ENUM_ENVIRONMENT_DOMAIN)(ND : NUMERICAL_ENVIRONMENT_DOMAIN) + : ENVIRONMENT_DOMAIN += struct + + type t = + | V of varenv * ED.t * ND.t + | Bot of varenv + type itv = ND.itv + + let strict = function + | V(ve, enum, num) as x -> + if ND.is_bot num || ED.is_bot enum + then Bot ve + else x + | b -> b + let strict_apply f x = match x with + | V(ve, enum, num) -> + begin + try strict (f (ve, enum, num)) + with Enum_domain.Bot -> Bot ve + end + | Bot ve -> Bot ve + + let top ve = V(ve, ED.top ve.evars, ND.top ve.nvars) + let bottom ve = Bot ve + let is_top x = match strict x with + | Bot _ -> false + | V(_, enum, num) -> ED.is_top enum && ND.is_top num + let is_bot x = match strict x with + | Bot _ -> true + | _ -> false + + let varenv = function + | Bot x -> x + | V(ve, _, _) -> ve + + let forgetvar x id = + strict_apply (fun (ve, enum, num) -> + if List.exists (fun (id2, _) -> id2 = id) ve.evars + then V(ve, ED.forgetvar enum id, num) + else V(ve, enum, ND.forgetvar num id)) + x + + let forgetvars x ids = + strict_apply (fun (ve, enum, num) -> + let efv, nfv = List.fold_left + (fun (efv, nfv) id -> + if List.exists (fun (id2, _) -> id2 = id) ve.evars + then id::efv, nfv + else efv, id::nfv) + ([], []) ids + in + V(ve, ED.forgetvars enum efv, List.fold_left ND.forgetvar num nfv)) + x + + let nproject x id = match x with + | V(ve, enum, num) -> + ND.project num id + | Bot ve -> ND.project (ND.bottom ve.nvars) id + let eproject x id = match x with + | V(ve, enum, num) -> + ED.project enum id + | Bot ve -> [] + + let join x y = match strict x, strict y with + | Bot _, a | a, Bot _ -> a + | V(ve, enum, num), V(_, enum', num') -> + V(ve, ED.join enum enum', ND.join num num') + + let meet x y = match strict x, strict y with + | Bot ve, a | a, Bot ve -> Bot ve + | V(ve, enum, num), V(_, enum', num') -> + try + strict (V(ve, ED.meet enum enum', ND.meet num num')) + with Enum_domain.Bot -> Bot ve + + let widen x y = match strict x, strict y with + | Bot _, a | a, Bot _ -> a + | V(ve, enum, num), V(_, enum', num') -> + V(ve, ED.join enum enum', ND.widen num num') + + let subset x y = match strict x, strict y with + | Bot _, a -> true + | V(_, _, _), Bot _ -> false + | V(_, enum, num), V(_, enum', num') -> + ED.subset enum enum' && ND.subset num num' + + let eq x y = match strict x, strict y with + | Bot _, Bot _ -> true + | V(_, enum, num), V(_, enum', num') -> + ED.eq enum enum' && ND.eq num num' + | _ -> false + + let apply_ec x f = + strict_apply + (fun (ve, enum, num) -> V(ve, ED.apply_cl enum [f], num)) + x + let apply_ecl x f = + strict_apply (fun (ve, enum, num) -> V(ve, ED.apply_cl enum f, num)) x + let apply_nc x f = + strict_apply (fun (ve, enum, num) -> V(ve, enum, ND.apply_cons num f)) x + let apply_ncl x f = + strict_apply (fun (ve, enum, num) -> V(ve, enum, ND.apply_cl num f)) x + let eassign x ass = + strict_apply (fun (ve, enum, num) -> V(ve, ED.assign enum ass, num)) x + let nassign x ass = + strict_apply (fun (ve, enum, num) -> V(ve, enum, ND.assign num ass)) x + + let print_itv = ND.print_itv + let print fmt x = match strict x with + | Bot _ -> Format.fprintf fmt "⊥" + | V(_, enum, num) -> + Format.fprintf fmt "@[<hov 1>(%a,@ %a)@]" ED.print enum ND.print num + let print_vars fmt x vars = match strict x with + | Bot _ -> Format.fprintf fmt "⊥" + | V(ve, enum, num) -> + let nvars = List.filter + (fun v -> List.exists (fun (x, _) -> x = v) ve.nvars) + vars + in + Format.fprintf fmt "@[<hov 1>(%a,@ " ED.print enum; + ND.print_vars fmt num nvars; + Format.printf ")@]" + +end |