src/Pure/search.ML
author paulson
Thu Sep 25 12:09:41 1997 +0200 (1997-09-25)
changeset 3706 e57b5902822f
parent 3538 ed9de44032e0
child 4270 957c887b89b5
permissions -rw-r--r--
Generalized and exported biresolution_from_nets_tac to allow the declaration
of Clarify_tac
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(*  Title: 	search
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    ID:         $Id$
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    Author: 	Lawrence C Paulson and Norbert Voelker
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Search tacticals
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*)
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infix 1 THEN_MAYBE THEN_MAYBE';
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signature SEARCH =
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  sig
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  val DEEPEN  	        : int*int -> (int->int->tactic) -> int -> int -> tactic
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  val THEN_MAYBE	: tactic * tactic -> tactic
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  val THEN_MAYBE'	: ('a -> tactic) * ('a -> tactic) -> ('a -> tactic)
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  val trace_DEPTH_FIRST	: bool ref
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  val DEPTH_FIRST	: (thm -> bool) -> tactic -> tactic
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  val DEPTH_SOLVE	: tactic -> tactic
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  val DEPTH_SOLVE_1	: tactic -> tactic
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  val ITER_DEEPEN	: (thm->bool) -> (int->tactic) -> tactic
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  val THEN_ITER_DEEPEN	: tactic -> (thm->bool) -> (int->tactic) -> tactic
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  val has_fewer_prems	: int -> thm -> bool   
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  val IF_UNSOLVED	: tactic -> tactic
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  val trace_BEST_FIRST	: bool ref
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  val BEST_FIRST	: (thm -> bool) * (thm -> int) -> tactic -> tactic
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  val THEN_BEST_FIRST	: tactic -> (thm->bool) * (thm->int) -> tactic
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			  -> tactic
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  val trace_ASTAR	: bool ref
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  val ASTAR	        : (thm -> bool) * (int->thm->int) -> tactic -> tactic
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  val THEN_ASTAR	: tactic -> (thm->bool) * (int->thm->int) -> tactic
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			  -> tactic
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  val BREADTH_FIRST	: (thm -> bool) -> tactic -> tactic
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  end;
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structure Search : SEARCH = 
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struct
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(**** Depth-first search ****)
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val trace_DEPTH_FIRST = ref false;
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(*Searches until "satp" reports proof tree as satisfied.
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  Suppresses duplicate solutions to minimize search space.*)
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fun DEPTH_FIRST satp tac = 
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 let val tac = tracify trace_DEPTH_FIRST tac
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     fun depth used [] = None
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       | depth used (q::qs) =
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	  case Sequence.pull q of
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	      None         => depth used qs
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	    | Some(st,stq) => 
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		if satp st andalso not (gen_mem eq_thm (st, used))
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		then Some(st, Sequence.seqof
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			         (fn()=> depth (st::used) (stq::qs)))
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		else depth used (tac st :: stq :: qs)
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  in  traced_tac (fn st => depth [] ([Sequence.single st]))  end;
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(*Predicate: Does the rule have fewer than n premises?*)
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fun has_fewer_prems n rule = (nprems_of rule < n);
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(*Apply a tactic if subgoals remain, else do nothing.*)
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val IF_UNSOLVED = COND (has_fewer_prems 1) all_tac;
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(*Execute tac1, but only execute tac2 if there are at least as many subgoals
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  as before.  This ensures that tac2 is only applied to an outcome of tac1.*)
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fun (tac1 THEN_MAYBE tac2) st = 
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    (tac1  THEN  COND (has_fewer_prems (nprems_of st)) all_tac tac2)  st;
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fun (tac1 THEN_MAYBE' tac2) x = tac1 x THEN_MAYBE tac2 x;
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(*Tactical to reduce the number of premises by 1.
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  If no subgoals then it must fail! *)
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fun DEPTH_SOLVE_1 tac st = st |>
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    (case nprems_of st of
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	0 => no_tac
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      | n => DEPTH_FIRST (has_fewer_prems n) tac);
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(*Uses depth-first search to solve ALL subgoals*)
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val DEPTH_SOLVE = DEPTH_FIRST (has_fewer_prems 1);
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(**** Iterative deepening with pruning ****)
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fun has_vars (Var _) = true
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  | has_vars (Abs (_,_,t)) = has_vars t
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  | has_vars (f$t) = has_vars f orelse has_vars t
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  | has_vars _ = false;
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(*Counting of primitive inferences is APPROXIMATE, as the step tactic
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  may perform >1 inference*)
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(*Pruning of rigid ancestor to prevent backtracking*)
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fun prune (new as (k', np':int, rgd', stq), qs) = 
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    let fun prune_aux (qs, []) = new::qs
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          | prune_aux (qs, (k,np,rgd,q)::rqs) =
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	      if np'+1 = np andalso rgd then
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		  (if !trace_DEPTH_FIRST then
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		       writeln ("Pruning " ^ 
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				string_of_int (1+length rqs) ^ " levels")
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		   else ();
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		   (*Use OLD k: zero-cost solution; see Stickel, p 365*)
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		   (k, np', rgd', stq) :: qs)
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	      else prune_aux ((k,np,rgd,q)::qs, rqs)
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        fun take ([], rqs) = ([], rqs)
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	  | take (arg as ((k,np,rgd,stq)::qs, rqs)) = 
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	        if np' < np then take (qs, (k,np,rgd,stq)::rqs)
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		            else arg
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    in  prune_aux (take (qs, []))  end;
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(*Depth-first iterative deepening search for a state that satisfies satp
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  tactic tac0 sets up the initial goal queue, while tac1 searches it.
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  The solution sequence is redundant: the cutoff heuristic makes it impossible
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  to suppress solutions arising from earlier searches, as the accumulated cost
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  (k) can be wrong.*)
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fun THEN_ITER_DEEPEN tac0 satp tac1 = traced_tac (fn st => 
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 let val countr = ref 0
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     and tf = tracify trace_DEPTH_FIRST (tac1 1)
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     and qs0 = tac0 st
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     (*bnd = depth bound; inc = estimate of increment required next*)
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     fun depth (bnd,inc) [] = 
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	     (writeln (string_of_int (!countr) ^ 
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		       " inferences so far.  Searching to depth " ^ 
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		       string_of_int bnd);
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	      (*larger increments make it run slower for the hard problems*)
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	      depth (bnd+inc, 10)) [(0, 1, false, qs0)]
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       | depth (bnd,inc) ((k,np,rgd,q)::qs) =
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	  if k>=bnd then depth (bnd,inc) qs
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          else
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	  case (countr := !countr+1;
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		if !trace_DEPTH_FIRST then
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		    writeln (string_of_int np ^ 
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			     implode (map (fn _ => "*") qs))
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		else ();
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		Sequence.pull q) of
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	     None         => depth (bnd,inc) qs
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	   | Some(st,stq) => 
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	       if satp st	(*solution!*)
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	       then Some(st, Sequence.seqof
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			 (fn()=> depth (bnd,inc) ((k,np,rgd,stq)::qs)))
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	       else 
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               let val np' = nprems_of st
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		     (*rgd' calculation assumes tactic operates on subgoal 1*)
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                   val rgd' = not (has_vars (hd (prems_of st)))
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                   val k' = k+np'-np+1  (*difference in # of subgoals, +1*)
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               in  if k'+np' >= bnd 
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		   then depth (bnd, Int.min(inc, k'+np'+1-bnd)) qs
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		   else if np' < np (*solved a subgoal; prune rigid ancestors*)
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                   then depth (bnd,inc) 
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		         (prune ((k', np', rgd', tf st), (k,np,rgd,stq) :: qs))
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	           else depth (bnd,inc) ((k', np', rgd', tf st) :: 
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					 (k,np,rgd,stq) :: qs)
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	       end
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  in depth (0,5) [] end);
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val ITER_DEEPEN = THEN_ITER_DEEPEN all_tac;
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(*Simple iterative deepening tactical.  It merely "deepens" any search tactic
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  using increment "inc" up to limit "lim". *)
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fun DEEPEN (inc,lim) tacf m i = 
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  let fun dpn m st = st |> (if has_fewer_prems i st then no_tac
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			    else if m>lim then 
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				(writeln "Giving up..."; no_tac)
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				 else (writeln ("Depth = " ^ string_of_int m);
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				       tacf m i  ORELSE  dpn (m+inc)))
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  in  dpn m  end;
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(*** Best-first search ***)
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val trace_BEST_FIRST = ref false;
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(*Insertion into priority queue of states *)
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fun insert (nth: int*thm, []) = [nth]
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  | insert ((m,th), (n,th')::nths) = 
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      if  n<m then (n,th') :: insert ((m,th), nths)
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      else if  n=m andalso eq_thm(th,th')
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              then (n,th')::nths
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              else (m,th)::(n,th')::nths;
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(*For creating output sequence*)
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fun some_of_list []     = None
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  | some_of_list (x::l) = Some (x, Sequence.seqof (fn () => some_of_list l));
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(*Best-first search for a state that satisfies satp (incl initial state)
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  Function sizef estimates size of problem remaining (smaller means better).
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  tactic tac0 sets up the initial priority queue, while tac1 searches it. *)
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fun THEN_BEST_FIRST tac0 (satp, sizef) tac1 = 
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  let val tac = tracify trace_BEST_FIRST tac1
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      fun pairsize th = (sizef th, th);
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      fun bfs (news,nprfs) =
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	   (case  partition satp news  of
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		([],nonsats) => next(foldr insert
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					(map pairsize nonsats, nprfs)) 
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	      | (sats,_)  => some_of_list sats)
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      and next [] = None
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        | next ((n,prf)::nprfs) =
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	    (if !trace_BEST_FIRST 
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	       then writeln("state size = " ^ string_of_int n ^ 
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		         "  queue length =" ^ string_of_int (length nprfs))  
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               else ();
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	     bfs (Sequence.list_of_s (tac prf), nprfs))
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      fun btac st = bfs (Sequence.list_of_s (tac0 st),  [])
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  in traced_tac btac end;
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(*Ordinary best-first search, with no initial tactic*)
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val BEST_FIRST = THEN_BEST_FIRST all_tac;
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(*Breadth-first search to satisfy satpred (including initial state) 
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  SLOW -- SHOULD NOT USE APPEND!*)
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fun BREADTH_FIRST satpred tac = 
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  let val tacf = Sequence.list_of_s o tac;
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      fun bfs prfs =
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	 (case  partition satpred prfs  of
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	      ([],[]) => []
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	    | ([],nonsats) => 
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		  (prs("breadth=" ^ string_of_int(length nonsats) ^ "\n");
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		   bfs (List.concat (map tacf nonsats)))
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	    | (sats,_)  => sats)
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  in (fn st => Sequence.s_of_list (bfs [st])) end;
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(*  Author: 	Norbert Voelker, FernUniversitaet Hagen
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    Remarks:    Implementation of A*-like proof procedure by modification
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		of the existing code for BEST_FIRST and best_tac so that the 
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		current level of search is taken into account.
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*)		
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(*Insertion into priority queue of states, marked with level *)
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fun insert_with_level (lnth: int*int*thm, []) = [lnth]
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  | insert_with_level ((l,m,th), (l',n,th')::nths) = 
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      if  n<m then (l',n,th') :: insert_with_level ((l,m,th), nths)
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      else if  n=m andalso eq_thm(th,th')
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              then (l',n,th')::nths
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              else (l,m,th)::(l',n,th')::nths;
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(*For creating output sequence*)
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fun some_of_list []     = None
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  | some_of_list (x::l) = Some (x, Sequence.seqof (fn () => some_of_list l));
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val trace_ASTAR = ref false; 
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fun THEN_ASTAR tac0 (satp, costf) tac1 = 
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  let val tf = tracify trace_ASTAR tac1;   
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      fun bfs (news,nprfs,level) =
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      let fun cost thm = (level, costf level thm, thm)
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      in (case  partition satp news  of
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            ([],nonsats) 
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		 => next (foldr insert_with_level (map cost nonsats, nprfs))
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          | (sats,_)  => some_of_list sats)
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      end and    
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      next []  = None
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        | next ((level,n,prf)::nprfs)  =
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            (if !trace_ASTAR 
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               then writeln("level = " ^ string_of_int level ^
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			 "  cost = " ^ string_of_int n ^ 
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                         "  queue length =" ^ string_of_int (length nprfs))  
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               else ();
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             bfs (Sequence.list_of_s (tf prf), nprfs,level+1))
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      fun tf st = bfs (Sequence.list_of_s (tac0 st), [], 0)
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  in traced_tac tf end;
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(*Ordinary ASTAR, with no initial tactic*)
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val ASTAR = THEN_ASTAR all_tac;
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end;
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open Search;