+module TS : sig
+ type t
+ val empty : t
+ val cons : Tree.t -> t -> t
+ val append : Tree.t -> t -> t
+ val concat : t -> t -> t
+ val length : t -> int
+ val iter : (Tree.t -> unit) -> t -> unit
+end
+
type state = int
val mk_state : unit -> state
-type predicate = Ptset.t*Ptset.t -> Tree.Binary.t -> [ `True | `False | `Maybe ]
type formula_expr =
False
| True
| Or of formula * formula
| And of formula * formula
- | Atom of ([ `Left | `Right ] * bool * state * predicate option)
-and formula = { fid : int; pos : formula_expr; neg : formula; st : Ptset.t*Ptset.t;}
+ | Atom of ([ `Left | `Right | `LLeft | `RRight ] * bool * state)
+and formula = { fid : int; fkey : int; pos : formula_expr; neg : formula; st : (Ptset.t*Ptset.t*Ptset.t)*(Ptset.t*Ptset.t*Ptset.t); size: int;}
val true_ : formula
val false_ : formula
-val atom_ : ?pred:predicate option -> [`Left | `Right ] -> bool -> state -> formula
+val atom_ : [`Left | `Right | `LLeft | `RRight ] -> bool -> state -> formula
val and_ : formula -> formula -> formula
val or_ : formula -> formula -> formula
val not_ : formula -> formula
-val equal_form : formula -> formula -> bool
+(*val equal_form : formula -> formula -> bool *)
val pr_frm : Format.formatter -> formula -> unit
-type property = [ `None | `Existential ]
+module HTagSet : Hashtbl.S with type key = Ptset.t*Tag.t
+
+type dispatch = { first : Tree.t -> Tree.t;
+ flabel : string;
+ next : Tree.t -> Tree.t -> Tree.t;
+ nlabel : string;
+ consres : Tree.t -> TS.t -> TS.t -> bool -> bool -> TS.t;
+ }
+
+type formlist = Nil | Cons of state*formula*int*formlist
-type t = {
- id : int;
- states : Ptset.t;
- init : Ptset.t;
- final : Ptset.t;
- universal : Ptset.t;
- phi : (TagSet.t * state, bool * formula) Hashtbl.t;
- delta : (TagSet.t, Ptset.t * bool * Ptset.t * Ptset.t) Hashtbl.t;
- properties : (state,property) Hashtbl.t;
+type t = {
+ id : int;
+ mutable states : Ptset.t;
+ init : Ptset.t;
+ mutable final : Ptset.t;
+ universal : Ptset.t;
+ starstate : Ptset.t option;
+ (* Transitions of the Alternating automaton *)
+ phi : (state,(TagSet.t*(bool*formula*bool)) list) Hashtbl.t;
+ sigma : (dispatch*bool*formlist*Ptset.t*Ptset.t) HTagSet.t;
}
val dump : Format.formatter -> t -> unit
module Transitions : sig
-type t = state*TagSet.t*bool*formula
+type t = state*TagSet.t*bool*formula*bool
(* Doing this avoid the parenthesis *)
val ( ?< ) : state -> state
-val ( >< ) : state -> TagSet.t*bool -> state*(TagSet.t*bool)
-val ( >=> ) : state*(TagSet.t*bool) -> formula -> t
+val ( >< ) : state -> TagSet.t*bool -> state*(TagSet.t*bool*bool)
+val ( ><@ ) : state -> TagSet.t*bool -> state*(TagSet.t*bool*bool)
+val ( >=> ) : state*(TagSet.t*bool*bool) -> formula -> t
val ( +| ) : formula -> formula -> formula
val ( *& ) : formula -> formula -> formula
-val ( ** ) : [`Left | `Right ] -> state -> formula
+val ( ** ) : [`Left | `Right | `LLeft | `RRight ] -> state -> formula
end
type transition = Transitions.t
-val equal_trans : transition -> transition -> bool
+val equal_trans : transition -> transition -> bool
-module BottomUpNew :
-sig
- val miss : int ref
- val call : int ref
- val run : t -> Tree.Binary.t -> Tree.Binary.t list
-end
+
+(*module BottomUpJumpNew :
+sig *)
+ val run : t -> Tree.t -> TS.t*int
+ val run_count : t -> Tree.t -> int
+ val run_time : t -> Tree.t -> TS.t*int
+(*end *)
+