src/HOL/Tools/sat_solver.ML
author webertj
Fri Nov 19 15:05:10 2004 +0100 (2004-11-19)
changeset 15299 576fd0b65ed8
parent 15128 da03f05815b0
child 15313 24aee76539df
permissions -rw-r--r--
solver auto now returns the result of the first solver that does not raise NOT_CONFIGURED (which may be UNKNOWN)
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(*  Title:      HOL/Tools/sat_solver.ML
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    ID:         $Id$
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    Author:     Tjark Weber
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    Copyright   2004
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Interface to external SAT solvers, and (simple) built-in SAT solvers.
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*)
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signature SAT_SOLVER =
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sig
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	exception NOT_CONFIGURED
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	type assignment = int -> bool option
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	datatype result = SATISFIABLE of assignment
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	                | UNSATISFIABLE
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	                | UNKNOWN
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	type solver     = PropLogic.prop_formula -> result
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	(* auxiliary functions to create external SAT solvers *)
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	val write_dimacs_cnf_file : Path.T -> PropLogic.prop_formula -> unit
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	val write_dimacs_sat_file : Path.T -> PropLogic.prop_formula -> unit
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	val parse_std_result_file : Path.T -> string * string * string -> result
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	val make_external_solver  : string -> (PropLogic.prop_formula -> unit) -> (unit -> result) -> solver
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	val read_dimacs_cnf_file : Path.T -> PropLogic.prop_formula
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	(* generic interface *)
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	val solvers       : (string * solver) list ref
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	val add_solver    : string * solver -> unit
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	val invoke_solver : string -> solver  (* exception OPTION *)
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end;
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structure SatSolver : SAT_SOLVER =
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struct
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	open PropLogic;
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(* ------------------------------------------------------------------------- *)
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(* should be raised by an external SAT solver to indicate that the solver is *)
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(* not configured properly                                                   *)
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(* ------------------------------------------------------------------------- *)
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	exception NOT_CONFIGURED;
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(* ------------------------------------------------------------------------- *)
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(* type of partial (satisfying) assignments: 'a i = None' means that 'a' is  *)
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(*      a satisfying assigment regardless of the value of variable 'i'       *)
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(* ------------------------------------------------------------------------- *)
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	type assignment = int -> bool option;
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(* ------------------------------------------------------------------------- *)
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(* return type of SAT solvers: if the result is 'SATISFIABLE', a satisfying  *)
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(*      assignment must be returned as well                                  *)
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(* ------------------------------------------------------------------------- *)
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	datatype result = SATISFIABLE of assignment
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	                | UNSATISFIABLE
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	                | UNKNOWN;
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(* ------------------------------------------------------------------------- *)
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(* type of SAT solvers: given a propositional formula, a satisfying          *)
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(*      assignment may be returned                                           *)
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(* ------------------------------------------------------------------------- *)
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	type solver = prop_formula -> result;
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(* ------------------------------------------------------------------------- *)
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(* write_dimacs_cnf_file: serializes a formula 'fm' of propositional logic   *)
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(*      to a file in DIMACS CNF format (see "Satisfiability Suggested        *)
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(*      Format", May 8 1993, Section 2.1)                                    *)
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(* Note: 'fm' must not contain a variable index less than 1.                 *)
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(* Note: 'fm' must be given in CNF.                                          *)
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(* ------------------------------------------------------------------------- *)
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	(* Path.T -> prop_formula -> unit *)
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	fun write_dimacs_cnf_file path fm =
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	let
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		(* prop_formula -> prop_formula *)
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		fun cnf_True_False_elim True =
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			Or (BoolVar 1, Not (BoolVar 1))
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		  | cnf_True_False_elim False =
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			And (BoolVar 1, Not (BoolVar 1))
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		  | cnf_True_False_elim fm =
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			fm  (* since 'fm' is in CNF, either 'fm'='True'/'False', or 'fm' does not contain 'True'/'False' at all *)
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		(* prop_formula -> int *)
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		fun cnf_number_of_clauses (And (fm1,fm2)) =
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			(cnf_number_of_clauses fm1) + (cnf_number_of_clauses fm2)
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		  | cnf_number_of_clauses _ =
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			1
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		(* prop_formula -> string *)
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		fun cnf_string fm =
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		let
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			(* prop_formula -> string list -> string list *)
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			fun cnf_string_acc True acc =
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				error "formula is not in CNF"
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			  | cnf_string_acc False acc =
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				error "formula is not in CNF"
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			  | cnf_string_acc (BoolVar i) acc =
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				(assert (i>=1) "formula contains a variable index less than 1";
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				string_of_int i :: acc)
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			  | cnf_string_acc (Not (BoolVar i)) acc =
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				"-" :: cnf_string_acc (BoolVar i) acc
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			  | cnf_string_acc (Not _) acc =
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				error "formula is not in CNF"
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			  | cnf_string_acc (Or (fm1,fm2)) acc =
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				cnf_string_acc fm1 (" " :: cnf_string_acc fm2 acc)
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			  | cnf_string_acc (And (fm1,fm2)) acc =
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				cnf_string_acc fm1 (" 0\n" :: cnf_string_acc fm2 acc)
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		in
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			concat (cnf_string_acc fm [])
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		end
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	in
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		File.write path
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			(let
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				val fm'               = cnf_True_False_elim fm
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				val number_of_vars    = maxidx fm'
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				val number_of_clauses = cnf_number_of_clauses fm'
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			in
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				"c This file was generated by SatSolver.write_dimacs_cnf_file\n" ^
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				"c (c) Tjark Weber\n" ^
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				"p cnf " ^ string_of_int number_of_vars ^ " " ^ string_of_int number_of_clauses ^ "\n" ^
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				cnf_string fm' ^ " 0\n"
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			end)
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	end;
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(* ------------------------------------------------------------------------- *)
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(* write_dimacs_sat_file: serializes a formula 'fm' of propositional logic   *)
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(*      to a file in DIMACS SAT format (see "Satisfiability Suggested        *)
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(*      Format", May 8 1993, Section 2.2)                                    *)
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(* Note: 'fm' must not contain a variable index less than 1.                 *)
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(* ------------------------------------------------------------------------- *)
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	(* Path.T -> prop_formula -> unit *)
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	fun write_dimacs_sat_file path fm =
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	let
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		(* prop_formula -> string *)
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		fun sat_string fm =
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		let
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			(* prop_formula -> string list -> string list *)
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			fun sat_string_acc True acc =
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				"*()" :: acc
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			  | sat_string_acc False acc =
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				"+()" :: acc
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			  | sat_string_acc (BoolVar i) acc =
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				(assert (i>=1) "formula contains a variable index less than 1";
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				string_of_int i :: acc)
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			  | sat_string_acc (Not fm) acc =
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				"-(" :: sat_string_acc fm (")" :: acc)
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			  | sat_string_acc (Or (fm1,fm2)) acc =
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				"+(" :: sat_string_acc fm1 (" " :: sat_string_acc fm2 (")" :: acc))
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			  | sat_string_acc (And (fm1,fm2)) acc =
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				"*(" :: sat_string_acc fm1 (" " :: sat_string_acc fm2 (")" :: acc))
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		in
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			concat (sat_string_acc fm [])
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		end
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	in
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		File.write path
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			(let
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				val number_of_vars = Int.max (maxidx fm, 1)
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			in
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				"c This file was generated by SatSolver.write_dimacs_sat_file\n" ^
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				"c (c) Tjark Weber\n" ^
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				"p sat " ^ string_of_int number_of_vars ^ "\n" ^
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				"(" ^ sat_string fm ^ ")\n"
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			end)
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	end;
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(* ------------------------------------------------------------------------- *)
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(* parse_std_result_file: scans a SAT solver's output file for a satisfying  *)
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(*      variable assignment.  Returns the assignment, or 'UNSATISFIABLE' if  *)
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(*      the file contains 'unsatisfiable', or 'UNKNOWN' if the file contains *)
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(*      neither 'satisfiable' nor 'unsatisfiable'.  Empty lines are ignored. *)
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(*      The assignment must be given in one or more lines immediately after  *)
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(*      the line that contains 'satisfiable'.  These lines must begin with   *)
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(*      'assignment_prefix'.  Variables must be separated by " ".  Non-      *)
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(*      integer strings are ignored.  If variable i is contained in the      *)
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(*      assignment, then i is interpreted as 'true'.  If ~i is contained in  *)
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(*      the assignment, then i is interpreted as 'false'.  Otherwise the     *)
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(*      value of i is taken to be unspecified.                               *)
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(* ------------------------------------------------------------------------- *)
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	(* Path.T -> string * string * string -> result *)
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	fun parse_std_result_file path (satisfiable, assignment_prefix, unsatisfiable) =
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	let
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		(* 'a option -> 'a Library.option *)
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		fun option (SOME a) =
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			Some a
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		  | option NONE =
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			None
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		(* string -> int list *)
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		fun int_list_from_string s =
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			mapfilter (option o Int.fromString) (space_explode " " s)
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		(* int list -> assignment *)
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		fun assignment_from_list [] i =
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			None  (* the SAT solver didn't provide a value for this variable *)
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		  | assignment_from_list (x::xs) i =
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			if x=i then (Some true)
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			else if x=(~i) then (Some false)
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			else assignment_from_list xs i
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		(* int list -> string list -> assignment *)
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		fun parse_assignment xs [] =
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			assignment_from_list xs
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		  | parse_assignment xs (line::lines) =
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			if String.isPrefix assignment_prefix line then
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				parse_assignment (xs @ int_list_from_string line) lines
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			else
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				assignment_from_list xs
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		(* string -> string -> bool *)
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		fun is_substring needle haystack =
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		let
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			val length1 = String.size needle
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			val length2 = String.size haystack
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		in
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			if length2 < length1 then
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				false
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			else if needle = String.substring (haystack, 0, length1) then
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				true
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			else is_substring needle (String.substring (haystack, 1, length2-1))
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		end
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		(* string list -> result *)
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		fun parse_lines [] =
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			UNKNOWN
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		  | parse_lines (line::lines) =
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			if is_substring satisfiable line then
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				SATISFIABLE (parse_assignment [] lines)
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			else if is_substring unsatisfiable line then
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				UNSATISFIABLE
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			else
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				parse_lines lines
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	in
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		(parse_lines o (filter (fn l => l <> "")) o split_lines o File.read) path
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	end;
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(* ------------------------------------------------------------------------- *)
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(* make_external_solver: call 'writefn', execute 'cmd', call 'readfn'        *)
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(* ------------------------------------------------------------------------- *)
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	(* string -> (PropLogic.prop_formula -> unit) -> (unit -> result) -> solver *)
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	fun make_external_solver cmd writefn readfn fm =
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		(writefn fm; system cmd; readfn ());
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(* ------------------------------------------------------------------------- *)
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(* read_dimacs_cnf_file: returns a propositional formula that corresponds to *)
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(*      a SAT problem given in DIMACS CNF format                             *)
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(* ------------------------------------------------------------------------- *)
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	(* Path.T -> PropLogic.prop_formula *)
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	fun read_dimacs_cnf_file path =
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	let
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		(* string list -> string list *)
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		fun filter_preamble [] =
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			error "problem line not found in DIMACS CNF file"
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		  | filter_preamble (line::lines) =
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			if String.isPrefix "c " line then
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				(* ignore comments *)
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				filter_preamble lines
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			else if String.isPrefix "p " line then
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				(* ignore the problem line (which must be the last line of the preamble) *)
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				(* Ignoring the problem line implies that if the file contains more clauses *)
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				(* or variables than specified in its preamble, we will accept it anyway.   *)
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				lines
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			else
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				error "preamble in DIMACS CNF file contains a line that does not begin with \"c \" or \"p \""
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		(* string -> int *)
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		fun int_from_string s =
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			case Int.fromString s of
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			  SOME i => i
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			| NONE   => error ("token " ^ quote s ^ "in DIMACS CNF file is not a number")
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		(* int list -> int list list *)
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		fun clauses xs =
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			let
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				val (xs1, xs2) = take_prefix (fn i => i <> 0) xs
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			in
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				case xs2 of
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				  []      => [xs1]
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				| (0::[]) => [xs1]
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				| (0::tl) => xs1 :: clauses tl
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			end
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		(* int -> PropLogic.prop_formula *)
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		fun literal_from_int i =
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			(assert (i<>0) "variable index in DIMACS CNF file is 0";
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			if i>0 then
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				PropLogic.BoolVar i
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			else
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				PropLogic.Not (PropLogic.BoolVar (~i)))
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		(* PropLogic.prop_formula list -> PropLogic.prop_formula *)
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		fun disjunction [] =
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			error "empty clause in DIMACS CNF file"
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		  | disjunction (x::xs) =
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			(case xs of
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			  [] => x
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			| _  => PropLogic.Or (x, disjunction xs))
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		(* PropLogic.prop_formula list -> PropLogic.prop_formula *)
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		fun conjunction [] =
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			error "no clause in DIMACS CNF file"
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		  | conjunction (x::xs) =
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			(case xs of
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			  [] => x
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			| _  => PropLogic.And (x, conjunction xs))
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	in
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		(conjunction
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		o (map disjunction)
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		o (map (map literal_from_int))
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		o clauses
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		o (map int_from_string)
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		o flat
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		o (map (String.fields (fn c => c mem [#" ", #"\t", #"\n"])))
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		o filter_preamble
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		o (filter (fn l => l <> ""))
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		o split_lines
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		o File.read)
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			path
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	end;
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(* ------------------------------------------------------------------------- *)
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(* solvers: a (reference to a) table of all registered SAT solvers           *)
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(* ------------------------------------------------------------------------- *)
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	val solvers = ref ([] : (string * solver) list);
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(* ------------------------------------------------------------------------- *)
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(* add_solver: updates 'solvers' by adding a new solver                      *)
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(* ------------------------------------------------------------------------- *)
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	(* string * solver -> unit *)
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	fun add_solver (name, new_solver) =
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   334
		(solvers := overwrite_warn (!solvers, (name, new_solver)) ("SAT solver " ^ quote name ^ " was defined before"));
webertj@14453
   335
webertj@14453
   336
(* ------------------------------------------------------------------------- *)
webertj@14453
   337
(* invoke_solver: returns the solver associated with the given 'name'        *)
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   338
(* Note: If no solver is associated with 'name', exception 'OPTION' will be  *)
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   339
(*       raised.                                                             *)
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   340
(* ------------------------------------------------------------------------- *)
webertj@14453
   341
webertj@14453
   342
	(* string -> solver *)
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   343
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   344
	fun invoke_solver name =
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   345
		(the o assoc) (!solvers, name);
webertj@14453
   346
webertj@14453
   347
end;  (* SatSolver *)
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   348
webertj@14453
   349
webertj@14453
   350
(* ------------------------------------------------------------------------- *)
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   351
(* Predefined SAT solvers                                                    *)
webertj@14453
   352
(* ------------------------------------------------------------------------- *)
webertj@14453
   353
webertj@14453
   354
(* ------------------------------------------------------------------------- *)
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   355
(* Internal SAT solver, available as 'SatSolver.invoke_solver "enumerate"'   *)
webertj@14753
   356
(* -- simply enumerates assignments until a satisfying assignment is found   *)
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   357
(* ------------------------------------------------------------------------- *)
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   358
webertj@14453
   359
let
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   360
	fun enum_solver fm =
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   361
	let
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   362
		(* int list *)
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   363
		val indices = PropLogic.indices fm
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   364
		(* int list -> int list -> int list option *)
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   365
		(* binary increment: list 'xs' of current bits, list 'ys' of all bits (lower bits first) *)
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   366
		fun next_list _ ([]:int list) =
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   367
			None
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   368
		  | next_list [] (y::ys) =
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   369
			Some [y]
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   370
		  | next_list (x::xs) (y::ys) =
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   371
			if x=y then
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   372
				(* reset the bit, continue *)
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   373
				next_list xs ys
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   374
			else
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   375
				(* set the lowest bit that wasn't set before, keep the higher bits *)
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   376
				Some (y::x::xs)
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   377
		(* int list -> int -> bool *)
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   378
		fun assignment_from_list xs i =
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   379
			i mem xs
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   380
		(* int list -> SatSolver.result *)
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   381
		fun solver_loop xs =
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   382
			if PropLogic.eval (assignment_from_list xs) fm then
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   383
				SatSolver.SATISFIABLE (Some o (assignment_from_list xs))
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   384
			else
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   385
				(case next_list xs indices of
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   386
				  Some xs' => solver_loop xs'
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   387
				| None     => SatSolver.UNSATISFIABLE)
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   388
	in
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   389
		(* start with the "first" assignment (all variables are interpreted as 'false') *)
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   390
		solver_loop []
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   391
	end
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   392
in
webertj@14965
   393
	SatSolver.add_solver ("enumerate", enum_solver)
webertj@14453
   394
end;
webertj@14453
   395
webertj@14453
   396
(* ------------------------------------------------------------------------- *)
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   397
(* Internal SAT solver, available as 'SatSolver.invoke_solver "dpll"' -- a   *)
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   398
(* simple implementation of the DPLL algorithm (cf. L. Zhang, S. Malik: "The *)
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   399
(* Quest for Efficient Boolean Satisfiability Solvers", July 2002, Fig. 1).  *)
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   400
(* ------------------------------------------------------------------------- *)
webertj@14453
   401
webertj@14453
   402
let
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   403
	local
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   404
		open PropLogic
webertj@14453
   405
	in
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   406
		fun dpll_solver fm =
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   407
		let
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   408
			(* We could use 'PropLogic.defcnf fm' instead of 'PropLogic.nnf fm' *)
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   409
			(* but that sometimes introduces more boolean variables than we can *)
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   410
			(* handle efficiently.                                              *)
webertj@14514
   411
			val fm' = PropLogic.nnf fm
webertj@14453
   412
			(* int list *)
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   413
			val indices = PropLogic.indices fm'
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   414
			(* int list -> int -> prop_formula *)
webertj@14453
   415
			fun partial_var_eval []      i = BoolVar i
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   416
			  | partial_var_eval (x::xs) i = if x=i then True else if x=(~i) then False else partial_var_eval xs i
webertj@14453
   417
			(* int list -> prop_formula -> prop_formula *)
webertj@14453
   418
			fun partial_eval xs True             = True
webertj@14453
   419
			  | partial_eval xs False            = False
webertj@14453
   420
			  | partial_eval xs (BoolVar i)      = partial_var_eval xs i
webertj@14453
   421
			  | partial_eval xs (Not fm)         = SNot (partial_eval xs fm)
webertj@14453
   422
			  | partial_eval xs (Or (fm1, fm2))  = SOr (partial_eval xs fm1, partial_eval xs fm2)
webertj@14453
   423
			  | partial_eval xs (And (fm1, fm2)) = SAnd (partial_eval xs fm1, partial_eval xs fm2)
webertj@14453
   424
			(* prop_formula -> int list *)
webertj@14453
   425
			fun forced_vars True              = []
webertj@14453
   426
			  | forced_vars False             = []
webertj@14453
   427
			  | forced_vars (BoolVar i)       = [i]
webertj@14453
   428
			  | forced_vars (Not (BoolVar i)) = [~i]
webertj@14453
   429
			  | forced_vars (Or (fm1, fm2))   = (forced_vars fm1) inter_int (forced_vars fm2)
webertj@14453
   430
			  | forced_vars (And (fm1, fm2))  = (forced_vars fm1) union_int (forced_vars fm2)
webertj@14453
   431
			  (* Above, i *and* ~i may be forced.  In this case the first occurrence takes   *)
webertj@14453
   432
			  (* precedence, and the next partial evaluation of the formula returns 'False'. *)
webertj@14453
   433
			  | forced_vars _                 = raise ERROR  (* formula is not in negation normal form *)
webertj@14453
   434
			(* int list -> prop_formula -> (int list * prop_formula) *)
webertj@14453
   435
			fun eval_and_force xs fm =
webertj@14453
   436
			let
webertj@14453
   437
				val fm' = partial_eval xs fm
webertj@14453
   438
				val xs' = forced_vars fm'
webertj@14453
   439
			in
webertj@14453
   440
				if null xs' then
webertj@14453
   441
					(xs, fm')
webertj@14453
   442
				else
webertj@14453
   443
					eval_and_force (xs@xs') fm'  (* xs and xs' should be distinct, so '@' here should have *)
webertj@14453
   444
					                             (* the same effect as 'union_int'                         *)
webertj@14453
   445
			end
webertj@14453
   446
			(* int list -> int option *)
webertj@14453
   447
			fun fresh_var xs =
webertj@14453
   448
				Library.find_first (fn i => not (i mem_int xs) andalso not ((~i) mem_int xs)) indices
webertj@14453
   449
			(* int list -> prop_formula -> int list option *)
webertj@14453
   450
			(* partial assignment 'xs' *)
webertj@14453
   451
			fun dpll xs fm =
webertj@14453
   452
			let
webertj@14453
   453
				val (xs', fm') = eval_and_force xs fm
webertj@14453
   454
			in
webertj@14453
   455
				case fm' of
webertj@14453
   456
				  True  => Some xs'
webertj@14453
   457
				| False => None
webertj@14453
   458
				| _     =>
webertj@14453
   459
					let
webertj@14453
   460
						val x = the (fresh_var xs')  (* a fresh variable must exist since 'fm' did not evaluate to 'True'/'False' *)
webertj@14453
   461
					in
webertj@14453
   462
						case dpll (x::xs') fm' of  (* passing fm' rather than fm should save some simplification work *)
webertj@14453
   463
						  Some xs'' => Some xs''
webertj@14453
   464
						| None      => dpll ((~x)::xs') fm'  (* now try interpreting 'x' as 'False' *)
webertj@14453
   465
					end
webertj@14453
   466
			end
webertj@14965
   467
			(* int list -> assignment *)
webertj@14453
   468
			fun assignment_from_list [] i =
webertj@14965
   469
				None  (* the DPLL procedure didn't provide a value for this variable *)
webertj@14453
   470
			  | assignment_from_list (x::xs) i =
webertj@14965
   471
				if x=i then (Some true)
webertj@14965
   472
				else if x=(~i) then (Some false)
webertj@14453
   473
				else assignment_from_list xs i
webertj@14453
   474
		in
webertj@14453
   475
			(* initially, no variable is interpreted yet *)
webertj@14965
   476
			case dpll [] fm' of
webertj@14965
   477
			  Some assignment => SatSolver.SATISFIABLE (assignment_from_list assignment)
webertj@14965
   478
			| None            => SatSolver.UNSATISFIABLE
webertj@14453
   479
		end
webertj@14453
   480
	end  (* local *)
webertj@14453
   481
in
webertj@14965
   482
	SatSolver.add_solver ("dpll", dpll_solver)
webertj@14453
   483
end;
webertj@14453
   484
webertj@14453
   485
(* ------------------------------------------------------------------------- *)
webertj@14753
   486
(* Internal SAT solver, available as 'SatSolver.invoke_solver "auto"': uses  *)
webertj@15299
   487
(* the first installed solver (other than "auto" itself) that does not raise *)
webertj@15299
   488
(* 'NOT_CONFIGURED'.  (However, the solver may return 'UNKNOWN'.)            *)
webertj@14453
   489
(* ------------------------------------------------------------------------- *)
webertj@14453
   490
webertj@14453
   491
let
webertj@14453
   492
	fun auto_solver fm =
webertj@14965
   493
	let
webertj@14965
   494
		fun loop [] =
webertj@14965
   495
			SatSolver.UNKNOWN
webertj@14965
   496
		  | loop ((name, solver)::solvers) =
webertj@14487
   497
			if name="auto" then
webertj@14965
   498
				(* do not call solver "auto" from within "auto" *)
webertj@14965
   499
				loop solvers
webertj@15299
   500
			else (
webertj@14965
   501
				(if name="dpll" orelse name="enumerate" then
webertj@14805
   502
					warning ("Using SAT solver " ^ quote name ^ "; for better performance, consider using an external solver.")
webertj@14487
   503
				else
webertj@14487
   504
					());
webertj@14965
   505
				(* apply 'solver' to 'fm' *)
webertj@15299
   506
				solver fm
webertj@15299
   507
					handle SatSolver.NOT_CONFIGURED => loop solvers
webertj@14965
   508
			)
webertj@14965
   509
	in
webertj@14965
   510
		loop (rev (!SatSolver.solvers))
webertj@14965
   511
	end
webertj@14453
   512
in
webertj@14453
   513
	SatSolver.add_solver ("auto", auto_solver)
webertj@14453
   514
end;
webertj@14453
   515
webertj@14453
   516
(* ------------------------------------------------------------------------- *)
webertj@15040
   517
(* ZChaff, Version 2004.05.13 (http://www.princeton.edu/~chaff/zchaff.html)  *)
webertj@14453
   518
(* ------------------------------------------------------------------------- *)
webertj@14453
   519
webertj@14487
   520
let
webertj@14487
   521
	fun zchaff fm =
webertj@14453
   522
	let
webertj@14965
   523
		val _          = if (getenv "ZCHAFF_HOME") = "" then raise SatSolver.NOT_CONFIGURED else ()
webertj@14965
   524
		val inpath     = File.tmp_path (Path.unpack "isabelle.cnf")
webertj@14965
   525
		val outpath    = File.tmp_path (Path.unpack "result")
webertj@14453
   526
		val cmd        = (getenv "ZCHAFF_HOME") ^ "/zchaff " ^ (Path.pack inpath) ^ " > " ^ (Path.pack outpath)
webertj@14965
   527
		fun writefn fm = SatSolver.write_dimacs_cnf_file inpath (PropLogic.defcnf fm)
webertj@15040
   528
		fun readfn ()  = SatSolver.parse_std_result_file outpath ("Instance Satisfiable", "", "Instance Unsatisfiable")
webertj@14487
   529
		val _          = assert (not (File.exists inpath)) ("file " ^ quote (Path.pack inpath) ^ " exists, please delete (will not overwrite)")
webertj@14487
   530
		val _          = assert (not (File.exists outpath)) ("file " ^ quote (Path.pack outpath) ^ " exists, please delete (will not overwrite)")
webertj@14965
   531
		val result     = SatSolver.make_external_solver cmd writefn readfn fm
webertj@14487
   532
		val _          = (File.rm inpath handle _ => ())
webertj@14487
   533
		val _          = (File.rm outpath handle _ => ())
webertj@14453
   534
	in
webertj@14965
   535
		result
webertj@14453
   536
	end
webertj@14487
   537
in
webertj@14965
   538
	SatSolver.add_solver ("zchaff", zchaff)
webertj@14965
   539
end;
webertj@14965
   540
webertj@14965
   541
(* ------------------------------------------------------------------------- *)
webertj@14965
   542
(* BerkMin 561 (http://eigold.tripod.com/BerkMin.html)                       *)
webertj@14965
   543
(* ------------------------------------------------------------------------- *)
webertj@14965
   544
webertj@14965
   545
let
webertj@14965
   546
	fun berkmin fm =
webertj@14965
   547
	let
webertj@14965
   548
		val _          = if (getenv "BERKMIN_HOME") = "" orelse (getenv "BERKMIN_EXE") = "" then raise SatSolver.NOT_CONFIGURED else ()
webertj@14965
   549
		val inpath     = File.tmp_path (Path.unpack "isabelle.cnf")
webertj@14965
   550
		val outpath    = File.tmp_path (Path.unpack "result")
webertj@14965
   551
		val cmd        = (getenv "BERKMIN_HOME") ^ "/" ^ (getenv "BERKMIN_EXE") ^ " " ^ (Path.pack inpath) ^ " > " ^ (Path.pack outpath)
webertj@14965
   552
		fun writefn fm = SatSolver.write_dimacs_cnf_file inpath (PropLogic.defcnf fm)
webertj@14965
   553
		fun readfn ()  = SatSolver.parse_std_result_file outpath ("Satisfiable          !!", "solution =", "UNSATISFIABLE          !!")
webertj@14965
   554
		val _          = assert (not (File.exists inpath)) ("file " ^ quote (Path.pack inpath) ^ " exists, please delete (will not overwrite)")
webertj@14965
   555
		val _          = assert (not (File.exists outpath)) ("file " ^ quote (Path.pack outpath) ^ " exists, please delete (will not overwrite)")
webertj@14965
   556
		val result     = SatSolver.make_external_solver cmd writefn readfn fm
webertj@14965
   557
		val _          = (File.rm inpath handle _ => ())
webertj@14965
   558
		val _          = (File.rm outpath handle _ => ())
webertj@14965
   559
	in
webertj@14965
   560
		result
webertj@14965
   561
	end
webertj@14965
   562
in
webertj@14965
   563
	SatSolver.add_solver ("berkmin", berkmin)
webertj@14965
   564
end;
webertj@14965
   565
webertj@14965
   566
(* ------------------------------------------------------------------------- *)
webertj@14965
   567
(* Jerusat 1.3 (http://www.cs.tau.ac.il/~ale1/)                              *)
webertj@14965
   568
(* ------------------------------------------------------------------------- *)
webertj@14965
   569
webertj@14965
   570
let
webertj@14965
   571
	fun jerusat fm =
webertj@14965
   572
	let
webertj@14965
   573
		val _          = if (getenv "JERUSAT_HOME") = "" then raise SatSolver.NOT_CONFIGURED else ()
webertj@14965
   574
		val inpath     = File.tmp_path (Path.unpack "isabelle.cnf")
webertj@14965
   575
		val outpath    = File.tmp_path (Path.unpack "result")
webertj@14965
   576
		val cmd        = (getenv "JERUSAT_HOME") ^ "/Jerusat1.3 " ^ (Path.pack inpath) ^ " > " ^ (Path.pack outpath)
webertj@14965
   577
		fun writefn fm = SatSolver.write_dimacs_cnf_file inpath (PropLogic.defcnf fm)
webertj@14965
   578
		fun readfn ()  = SatSolver.parse_std_result_file outpath ("s SATISFIABLE", "v ", "s UNSATISFIABLE")
webertj@14965
   579
		val _          = assert (not (File.exists inpath)) ("file " ^ quote (Path.pack inpath) ^ " exists, please delete (will not overwrite)")
webertj@14965
   580
		val _          = assert (not (File.exists outpath)) ("file " ^ quote (Path.pack outpath) ^ " exists, please delete (will not overwrite)")
webertj@14965
   581
		val result     = SatSolver.make_external_solver cmd writefn readfn fm
webertj@14965
   582
		val _          = (File.rm inpath handle _ => ())
webertj@14965
   583
		val _          = (File.rm outpath handle _ => ())
webertj@14965
   584
	in
webertj@14965
   585
		result
webertj@14965
   586
	end
webertj@14965
   587
in
webertj@14965
   588
	SatSolver.add_solver ("jerusat", jerusat)
webertj@14487
   589
end;
webertj@14453
   590
webertj@14453
   591
(* ------------------------------------------------------------------------- *)
webertj@14453
   592
(* Add code for other SAT solvers below.                                     *)
webertj@14453
   593
(* ------------------------------------------------------------------------- *)
webertj@14453
   594
webertj@14453
   595
(*
webertj@14487
   596
let
webertj@14487
   597
	fun mysolver fm = ...
webertj@14487
   598
in
webertj@14965
   599
	SatSolver.add_solver ("myname", (fn fm => if mysolver_is_configured then mysolver fm else raise SatSolver.NOT_CONFIGURED));  -- register the solver
webertj@14487
   600
end;
webertj@14453
   601
webertj@14453
   602
-- the solver is now available as SatSolver.invoke_solver "myname"
webertj@14453
   603
*)