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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * CNRS-Ecole Polytechnique-INRIA Futurs-Universite Paris Sud *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(*i $Id: explore.ml,v 1.3.16.1 2004/07/16 19:30:29 herbelin Exp $ i*)
open Format
(*s Definition of a search problem. *)
module type SearchProblem = sig
type state
val branching : state -> state list
val success : state -> bool
val pp : state -> unit
end
module Make = functor(S : SearchProblem) -> struct
type position = int list
let pp_position p =
let rec pp_rec = function
| [] -> ()
| [i] -> printf "%d" i
| i :: l -> pp_rec l; printf ".%d" i
in
open_hbox (); pp_rec p; close_box ()
(*s Depth first search. *)
let rec depth_first s =
if S.success s then s else depth_first_many (S.branching s)
and depth_first_many = function
| [] -> raise Not_found
| s :: l -> try depth_first s with Not_found -> depth_first_many l
let debug_depth_first s =
let rec explore p s =
pp_position p; S.pp s;
if S.success s then s else explore_many 1 p (S.branching s)
and explore_many i p = function
| [] ->
raise Not_found
| s :: l ->
try explore (i::p) s with Not_found -> explore_many (succ i) p l
in
explore [1] s
(*s Breadth first search. We use functional FIFOS à la Okasaki. *)
type 'a queue = 'a list * 'a list
exception Empty
let empty = [],[]
let push x (h,t) = (x::h,t)
let pop = function
| h, x::t -> x, (h,t)
| h, [] -> match List.rev h with x::t -> x, ([],t) | [] -> raise Empty
let breadth_first s =
let rec explore q =
try
let (s, q') = pop q in enqueue q' (S.branching s)
with Empty ->
raise Not_found
and enqueue q = function
| [] -> explore q
| s :: l -> if S.success s then s else enqueue (push s q) l
in
enqueue empty [s]
let debug_breadth_first s =
let rec explore q =
try
let ((p,s), q') = pop q in
enqueue 1 p q' (S.branching s)
with Empty ->
raise Not_found
and enqueue i p q = function
| [] ->
explore q
| s :: l ->
let ps = i::p in
pp_position ps; S.pp s;
if S.success s then s else enqueue (succ i) p (push (ps,s) q) l
in
enqueue 1 [] empty [s]
end
|