end
module Transition :
sig
- type node = State.t * bool * Formula.t * bool
+ type node = State.t * TagSet.t * bool * Formula.t * bool
type data = node
type t
val make : data -> t
module type ResultSet =
sig
type t
+ type elt = [`Tree] Tree.node
val empty : t
- val cons : Tree.t -> t -> t
+ val cons : elt -> t -> t
val concat : t -> t -> t
- val iter : (Tree.t -> unit) -> t -> unit
- val fold : (Tree.t -> 'a -> 'a) -> t -> 'a -> 'a
- val map : (Tree.t -> Tree.t) -> t -> t
+ val iter : (elt -> unit) -> t -> unit
+ val fold : (elt -> 'a -> 'a) -> t -> 'a -> 'a
+ val map : (elt -> elt) -> t -> t
val length : t -> int
+ val merge : (bool*bool*bool*bool)-> elt -> t -> t -> t
+ val mk_quick_tag_loop : (elt -> elt -> 'a*t array) -> 'a -> int -> Tree.t -> Tag.t -> (elt -> elt -> 'a*t array)
+ val mk_quick_star_loop : (elt -> elt -> 'a*t array) -> 'a -> int -> Tree.t -> (elt -> elt -> 'a*t array)
end
module IdSet : ResultSet
+module GResult (Doc : sig val doc : Tree.t end) : ResultSet
val top_down_count : 'a t -> Tree.t -> int
val top_down : 'a t -> Tree.t -> IdSet.t
val bottom_up_count :
'a t -> Tree.t -> [> `CONTAINS of 'b | `TAG of Tag.t ] -> int
+
+module Test (Doc : sig val doc : Tree.t end ) :
+sig
+ module Results : ResultSet
+ val top_down : 'a t -> Tree.t -> Results.t
+end