(** Generalized suffix trees (GSTs). Computes generalized suffix trees from list of strings. A terminal symbol is implicitly added to them, but is not returned in the word labeling nodes and leaves. This should allow a rather transparent handling of GSTs. Node-based accesses are provided (sequences, root, children, suffix links, node labels, index), as well as a functional for synthesizing attributes from a GST. A readable representation of GSTs is derived from the later. *) (* made by Sebastien Ferre *) type node (** Type of nodes in GSTs. *) type t (** Type of GSTs. *) val make : string list -> t (** [make l_str] computes a GST based on the set of strings given in [l_str]. *) val string_list : t -> string list (** [string_list gst] returns the list of strings from which [gst] was computed. *) val string : t -> int -> string (** [string gst k] returns the sequence number [k] (starting from 0). *) val root : t -> node (** [root gst] returns the root node of the gst. *) val word : t -> node -> string (** [word gst n] returns the word labeling node [n] in [gst]. *) val children : t -> node -> node list (** [children gst n] returns a list of the children nodes of [n] in [gst]. *) val linked_node : t -> node -> node (** [linked_node gst n] returns the node pointed by the suffix link from [n] in [gst]. *) val index : t -> node -> int * int (** [index gst n] returns the index of a leaf [n] in [gst]. This index is a pair [(k,i)], where [k] is the number of the sequence (as used by [string]), and [i] is the position of the related suffix (starting from [0] as usual in strings). @raise Invalid_argument "Suffix_tree.index: not a leaf" if [n] is not a leaf (has some child). *) val implicit_node : t -> string -> node * string * node (** [implicit_node gst word] returns an implicit_node [(node,word',child)], where [node] is the lowest node in the suffix tre such that the concatenation of the word recognized by [node] and [word'] is equal to [word], if [word'] is not the empty string, then [child] is the child node of [node], whose label has [word'] as a prefix. @raise Not_found when [word] is not a substring of [string_list gst]. *) val fold : t -> ('h -> node -> bool) -> ('h -> node -> 'h) -> ('s list -> 'h -> node -> 's) -> 'h -> 's (** [fold gst filter herit synth init] computes some attribute(s) over a GST by using the 3 functions [filter], [herit], [synth], and the initial value [init] inherited by the root node. ['h] is the type of inherited attributes, and ['s] is the type of synthesized attributes, and so the type of the result. The meaning of 3 functions is as follows: - [filter h child] returns [true] if the node [child] must be explored given the inherited value of the current node (parent of [child]), - [herit h child] returns the value inherited by [child] given the inherited value of the current node (parent of [child]), - [synth l h node] returns the synthesized value of the current node, given its inherited value [h], and the list [l] of synthesized values of explored children of [node] (according to [filter]). *) val fold_node : t -> ('h -> node -> bool) -> ('h -> node -> 'h) -> ('s list -> 'h -> node -> 's) -> 'h -> node -> 's (** Same as [fold], except the computation starts and finishes at the last argument node. *) val fold_s : t -> ('s list -> node -> 's) -> 's (** [fold_s gst synth] is equivalent to [fold gst filter herit synth init], where there is no filtering, and no inherited values: purely synthetic. *) val fold_s_node : t -> ('s list -> node -> 's) -> node -> 's (** Same as [fold_s], except the computation starts and finishes at the last argument node. *) val fold_fs : t -> (node -> bool) -> ('s list -> node -> 's) -> 's (** [fold_fs gst filter synth] is equivalent to [fold gst filter herit synth init], where there is no inherited values. *) type tree = Node of string * tree list | Leaf of string * (int * int) val readable : t -> tree (** [readable gst] returns a (more) readable representation of [gst]. Each node and leaf is decorated by its word label, and leaves are also decorated by their index. *) val exact_matches : t -> string -> (int * int) list