src/HOL/Tools/res_reconstruct.ML
author paulson
Fri Jan 05 13:36:32 2007 +0100 (2007-01-05)
changeset 22012 adf68479ae1b
parent 21999 0cf192e489e2
child 22044 6c0702a96076
permissions -rwxr-xr-x
Proof.context now sent to watcher and used in type inference step of proof reconstruction
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(*  ID:         $Id$
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    Author:     L C Paulson and Claire Quigley
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    Copyright   2004  University of Cambridge
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*)
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(***************************************************************************)
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(*  Code to deal with the transfer of proofs from a prover process         *)
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(***************************************************************************)
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signature RES_RECONSTRUCT =
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  sig
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    val checkEProofFound: 
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          TextIO.instream * TextIO.outstream * Posix.Process.pid * 
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          string * Proof.context * thm * int * string Vector.vector -> bool
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    val checkVampProofFound: 
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          TextIO.instream * TextIO.outstream * Posix.Process.pid * 
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          string * Proof.context * thm * int * string Vector.vector -> bool
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    val checkSpassProofFound:  
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          TextIO.instream * TextIO.outstream * Posix.Process.pid * 
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          string * Proof.context * thm * int * string Vector.vector -> bool
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    val signal_parent:  
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          TextIO.outstream * Posix.Process.pid * string * string -> unit
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  end;
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structure ResReconstruct =
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struct
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val trace_path = Path.basic "atp_trace";
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fun trace s = if !Output.show_debug_msgs then File.append (File.tmp_path trace_path) s 
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              else ();
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(*Full proof reconstruction wanted*)
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val full = ref true;
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(**** PARSING OF TSTP FORMAT ****)
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(*Syntax trees, either termlist or formulae*)
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datatype stree = Int of int | Br of string * stree list;
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fun atom x = Br(x,[]);
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fun scons (x,y) = Br("cons", [x,y]);
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val listof = foldl scons (atom "nil");
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(*Strings enclosed in single quotes, e.g. filenames*)
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val quoted = $$"'" |-- Scan.repeat (~$$"'") --| $$"'" >> implode;
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(*Intended for $true and $false*)
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fun tf s = "c_" ^ str (Char.toUpper (String.sub(s,0))) ^ String.extract(s,1,NONE);
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val truefalse = $$"$" |-- Symbol.scan_id >> (atom o tf);
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(*Integer constants, typically proof line numbers*)
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fun is_digit s = Char.isDigit (String.sub(s,0));
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val integer = Scan.many1 is_digit >> (valOf o Int.fromString o implode);
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(*Generalized FO terms, which include filenames, numbers, etc.*)
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fun termlist x = (term -- Scan.repeat ($$"," |-- term) >> op::) x
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and term x = (quoted >> atom || integer>>Int || truefalse ||
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              Symbol.scan_id -- Scan.optional ($$"(" |-- termlist --| $$")") [] >> Br ||
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              $$"(" |-- term --| $$")" ||
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              $$"[" |-- termlist --| $$"]" >> listof) x;
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fun negate t = Br("c_Not", [t]);
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fun equate (t1,t2) = Br("c_equal", [t1,t2]);
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(*Apply equal or not-equal to a term*)
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fun syn_equal (t, NONE) = t
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  | syn_equal (t1, SOME (NONE, t2)) = equate (t1,t2)
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  | syn_equal (t1, SOME (SOME _, t2)) = negate (equate (t1,t2));
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(*Literals can involve negation, = and !=.*)
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val literal = $$"~" |-- term >> negate || 
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              (term -- Scan.option (Scan.option ($$"!") --| $$"=" -- term) >> syn_equal) ;
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val literals = literal -- Scan.repeat ($$"|" |-- literal) >> op:: ;
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(*Clause: a list of literals separated by the disjunction sign*)
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val clause = $$"(" |-- literals --| $$")";
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val annotations = $$"," |-- term -- Scan.option ($$"," |-- termlist);
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(*<cnf_annotated> ::=Ęcnf(<name>,<formula_role>,<cnf_formula><annotations>).
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  The <name> could be an identifier, but we assume integers.*)
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val tstp_line = (Scan.this_string "cnf" -- $$"(") |-- 
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                integer --| $$"," -- Symbol.scan_id --| $$"," -- 
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                clause -- Scan.option annotations --| $$ ")";
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(**** DUPLICATE of Susanto's code to remove ASCII armouring from names in proof files ****)
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(*original file: Isabelle_ext.sml*)
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val A_min_spc = Char.ord #"A" - Char.ord #" ";
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fun cList2int chs = getOpt (Int.fromString (String.implode (rev chs)), 0);
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(*why such a tiny range?*)
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fun check_valid_int x =
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  let val val_x = cList2int x
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  in (length x = 3) andalso (val_x >= 123) andalso (val_x <= 126)
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  end;
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fun normalise_s s [] st_ sti =
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      String.implode(rev(
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        if st_
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        then if null sti
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             then (#"_" :: s)
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             else if check_valid_int sti
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                  then (Char.chr (cList2int sti) :: s)
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                  else (sti @ (#"_" :: s))
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        else s))
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  | normalise_s s (#"_"::cs) st_ sti =
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      if st_
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      then let val s' = if null sti
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                        then (#"_"::s)
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                        else if check_valid_int sti
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                             then (Char.chr (cList2int sti) :: s)
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                             else (sti @ (#"_" :: s))
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           in normalise_s s' cs false [] 
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           end
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      else normalise_s s cs true []
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  | normalise_s s (c::cs) true sti =
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      if (Char.isDigit c)
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      then normalise_s s cs true (c::sti)
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      else let val s' = if null sti
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                        then if ((c >= #"A") andalso (c<= #"P"))
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                             then ((Char.chr(Char.ord c - A_min_spc))::s)
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                             else (c :: (#"_" :: s))
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                        else if check_valid_int sti
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                             then (Char.chr (cList2int sti) :: s)
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                             else (sti @ (#"_" :: s))
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           in normalise_s s' cs false []
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           end
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  | normalise_s s (c::cs) _ _ = normalise_s (c::s) cs false [];
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(*This version does not look for standard prefixes first.*)
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fun normalise_string s = normalise_s [] (String.explode s) false [];
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(**** INTERPRETATION OF TSTP SYNTAX TREES ****)
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exception STREE of stree;
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(*If string s has the prefix s1, return the result of deleting it.*)
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fun strip_prefix s1 s = 
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  if String.isPrefix s1 s then SOME (normalise_string (String.extract (s, size s1, NONE)))
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  else NONE;
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(*Invert the table of translations between Isabelle and ATPs*)
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val type_const_trans_table_inv =
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      Symtab.make (map swap (Symtab.dest ResClause.type_const_trans_table));
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fun invert_type_const c =
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    case Symtab.lookup type_const_trans_table_inv c of
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        SOME c' => c'
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      | NONE => c;
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fun make_tvar b = TVar(("'" ^ b, 0), HOLogic.typeS);
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fun make_var (b,T) = Var((b,0),T);
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(*Type variables are given the basic sort, HOL.type. Some will later be constrained
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  by information from type literals, or by type inference.*)
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fun type_of_stree t =
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  case t of
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      Int _ => raise STREE t
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    | Br (a,ts) => 
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        let val Ts = map type_of_stree ts
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        in 
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          case strip_prefix ResClause.tconst_prefix a of
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              SOME b => Type(invert_type_const b, Ts)
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            | NONE => 
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                if not (null ts) then raise STREE t  (*only tconsts have type arguments*)
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                else 
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                case strip_prefix ResClause.tfree_prefix a of
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                    SOME b => TFree("'" ^ b, HOLogic.typeS)
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                  | NONE => 
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                case strip_prefix ResClause.tvar_prefix a of
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                    SOME b => make_tvar b
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                  | NONE => make_tvar a   (*Variable from the ATP, say X1*)
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        end;
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(*Invert the table of translations between Isabelle and ATPs*)
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val const_trans_table_inv =
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      Symtab.make (map swap (Symtab.dest ResClause.const_trans_table));
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fun invert_const c =
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    case Symtab.lookup const_trans_table_inv c of
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        SOME c' => c'
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      | NONE => c;
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(*The number of type arguments of a constant, zero if it's monomorphic*)
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fun num_typargs thy s = length (Sign.const_typargs thy (s, Sign.the_const_type thy s));
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(*Generates a constant, given its type arguments*)
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fun const_of thy (a,Ts) = Const(a, Sign.const_instance thy (a,Ts));
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(*First-order translation. No types are known for variables. HOLogic.typeT should allow
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  them to be inferred.*)
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fun term_of_stree thy t =
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  case t of
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      Int _ => raise STREE t
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    | Br (a,ts) => 
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        case strip_prefix ResClause.const_prefix a of
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            SOME "equal" => 
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              if length ts = 2 then
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                list_comb(Const ("op =", HOLogic.typeT), List.map (term_of_stree thy) ts)
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              else raise STREE t  (*equality needs two arguments*)
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          | SOME b => 
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              let val c = invert_const b
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                  val nterms = length ts - num_typargs thy c
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                  val us = List.map (term_of_stree thy) (List.take(ts,nterms))
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                  val Ts = List.map type_of_stree (List.drop(ts,nterms))
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              in  list_comb(const_of thy (c, Ts), us)  end
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          | NONE => (*a variable, not a constant*)
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              let val T = HOLogic.typeT
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                  val opr = (*a Free variable is typically a Skolem function*)
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                    case strip_prefix ResClause.fixed_var_prefix a of
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                        SOME b => Free(b,T)
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                      | NONE => 
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                    case strip_prefix ResClause.schematic_var_prefix a of
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                        SOME b => make_var (b,T)
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                      | NONE => make_var (a,T)    (*Variable from the ATP, say X1*)
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              in  list_comb (opr, List.map (term_of_stree thy) ts)  end;
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(*Type class literal applied to a type. Returns triple of polarity, class, type.*)                  
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fun constraint_of_stree pol (Br("c_Not",[t])) = constraint_of_stree (not pol) t
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  | constraint_of_stree pol t = case t of
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        Int _ => raise STREE t
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      | Br (a,ts) => 
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            (case (strip_prefix ResClause.class_prefix a, map type_of_stree ts) of
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                 (SOME b, [T]) => (pol, b, T)
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               | _ => raise STREE t);
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(** Accumulate type constraints in a clause: negative type literals **)
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fun addix (key,z)  = Vartab.map_default (key,[]) (cons z);
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fun add_constraint ((false, cl, TFree(a,_)), vt) = addix ((a,~1),cl) vt
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  | add_constraint ((false, cl, TVar(ix,_)), vt) = addix (ix,cl) vt
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  | add_constraint (_, vt) = vt;
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(*False literals (which E includes in its proofs) are deleted*)
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val nofalses = filter (not o equal HOLogic.false_const);
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(*Accumulate sort constraints in vt, with "real" literals in lits.*)
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fun lits_of_strees ctxt (vt, lits) [] = (vt, rev (nofalses lits))
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  | lits_of_strees ctxt (vt, lits) (t::ts) = 
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      lits_of_strees ctxt (add_constraint (constraint_of_stree true t, vt), lits) ts
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      handle STREE _ => 
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      lits_of_strees ctxt (vt, term_of_stree (ProofContext.theory_of ctxt) t :: lits) ts;
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(*Update TVars/TFrees with detected sort constraints.*)
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fun fix_sorts vt =
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  let fun tysubst (Type (a, Ts)) = Type (a, map tysubst Ts)
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        | tysubst (TVar (xi, s)) = TVar (xi, getOpt (Vartab.lookup vt xi, s))
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        | tysubst (TFree (x, s)) = TFree (x, getOpt (Vartab.lookup vt (x,~1), s))
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      fun tmsubst (Const (a, T)) = Const (a, tysubst T)
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        | tmsubst (Free (a, T)) = Free (a, tysubst T)
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        | tmsubst (Var (xi, T)) = Var (xi, tysubst T)
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        | tmsubst (t as Bound _) = t
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        | tmsubst (Abs (a, T, t)) = Abs (a, tysubst T, tmsubst t)
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        | tmsubst (t $ u) = tmsubst t $ tmsubst u;
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  in fn t => if Vartab.is_empty vt then t else tmsubst t end;
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(*Interpret a list of syntax trees as a clause, given by "real" literals and sort constraints.
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  vt0 holds the initial sort constraints, from the conjecture clauses.*)
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fun clause_of_strees_aux ctxt vt0 ts = 
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  case lits_of_strees ctxt (vt0,[]) ts of
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      (_, []) => HOLogic.false_const
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    | (vt, lits) => 
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        let val dt = fix_sorts vt (foldr1 HOLogic.mk_disj lits)
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            val infer = Sign.infer_types (ProofContext.pp ctxt) (ProofContext.theory_of ctxt)
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                            (ProofContext.consts_of ctxt) (Variable.def_type ctxt false)
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                            (Variable.def_sort ctxt) (Variable.names_of ctxt) true
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        in 
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           #1(infer ([dt], HOLogic.boolT))
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        end; 
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(*Quantification over a list of Vars. FUXNE: for term.ML??*)
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fun list_all_var ([], t: term) = t
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  | list_all_var ((v as Var(ix,T)) :: vars, t) =
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      (all T) $ Abs(string_of_indexname ix, T, abstract_over (v, list_all_var (vars,t)));
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fun gen_all_vars t = list_all_var (term_vars t, t);
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fun clause_of_strees thy vt0 ts =
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  gen_all_vars (HOLogic.mk_Trueprop (clause_of_strees_aux thy vt0 ts));
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fun ints_of_stree_aux (Int n, ns) = n::ns
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  | ints_of_stree_aux (Br(_,ts), ns) = foldl ints_of_stree_aux ns ts;
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fun ints_of_stree t = ints_of_stree_aux (t, []);
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fun decode_tstp ctxt vt0 (name, role, ts, annots) =
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  let val deps = case annots of NONE => [] | SOME (source,_) => ints_of_stree source
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  in  (name, role, clause_of_strees ctxt vt0 ts, deps)  end;
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fun dest_tstp ((((name, role), ts), annots), chs) =
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  case chs of
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          "."::_ => (name, role, ts, annots)
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        | _ => error ("TSTP line not terminated by \".\": " ^ implode chs);
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(** Global sort constraints on TFrees (from tfree_tcs) are positive unit clauses. **)
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   307
fun add_tfree_constraint ((true, cl, TFree(a,_)), vt) = addix ((a,~1),cl) vt
paulson@21978
   308
  | add_tfree_constraint (_, vt) = vt;
paulson@21978
   309
paulson@21978
   310
fun tfree_constraints_of_clauses vt [] = vt
paulson@21978
   311
  | tfree_constraints_of_clauses vt ([lit]::tss) = 
paulson@21978
   312
      (tfree_constraints_of_clauses (add_tfree_constraint (constraint_of_stree true lit, vt)) tss
paulson@21978
   313
       handle STREE _ => (*not a positive type constraint: ignore*)
paulson@21978
   314
       tfree_constraints_of_clauses vt tss)
paulson@21978
   315
  | tfree_constraints_of_clauses vt (_::tss) = tfree_constraints_of_clauses vt tss;
paulson@21978
   316
paulson@21978
   317
paulson@21978
   318
(**** Translation of TSTP files to Isar Proofs ****)
paulson@21978
   319
paulson@22012
   320
fun decode_tstp_list ctxt tuples =
paulson@21978
   321
  let val vt0 = tfree_constraints_of_clauses Vartab.empty (map #3 tuples)
paulson@22012
   322
  in  map (decode_tstp ctxt vt0) tuples  end;
paulson@21978
   323
paulson@21999
   324
(*FIXME: simmilar function in res_atp. Move to HOLogic?*)
paulson@21999
   325
fun dest_disj_aux (Const ("op |", _) $ t $ t') disjs = dest_disj_aux t (dest_disj_aux t' disjs)
paulson@21999
   326
  | dest_disj_aux t disjs = t::disjs;
paulson@21999
   327
paulson@21999
   328
fun dest_disj t = dest_disj_aux t [];
paulson@21999
   329
paulson@22012
   330
(*Remove types from a term, to eliminate the randomness of type inference*)
paulson@22012
   331
fun smash_types (Const(a,_)) = Const(a,dummyT)
paulson@22012
   332
  | smash_types (Free(a,_)) = Free(a,dummyT)
paulson@22012
   333
  | smash_types (Var(a,_)) = Var(a,dummyT)
paulson@22012
   334
  | smash_types (f$t) = smash_types f $ smash_types t
paulson@22012
   335
  | smash_types t = t;
paulson@22012
   336
paulson@22012
   337
val sort_lits = sort Term.fast_term_ord o dest_disj o 
paulson@22012
   338
                smash_types o HOLogic.dest_Trueprop o strip_all_body;
paulson@21999
   339
paulson@21999
   340
fun permuted_clause t =
paulson@21999
   341
  let val lits = sort_lits t
paulson@21999
   342
      fun perm [] = NONE
paulson@21999
   343
        | perm (ctm::ctms) = 
paulson@21999
   344
            if forall (op aconv) (ListPair.zip (lits, sort_lits ctm)) then SOME ctm
paulson@21999
   345
            else perm ctms
paulson@21999
   346
  in perm end;
paulson@21999
   347
paulson@21999
   348
(*ctms is a list of conjecture clauses as yielded by Isabelle. Those returned by the
paulson@21999
   349
  ATP may have their literals reordered.*)
paulson@21999
   350
fun isar_lines ctxt ctms =
paulson@21978
   351
  let val string_of = ProofContext.string_of_term ctxt
paulson@21978
   352
      fun doline hs (lname, t, []) =  (*No deps: it's a conjecture clause, with no proof.*)
paulson@21999
   353
           (case permuted_clause t ctms of
paulson@21999
   354
                SOME u => "assume " ^ lname ^ ": \"" ^ string_of u ^ "\"\n"
paulson@21999
   355
              | NONE => "assume? " ^ lname ^ ": \"" ^ string_of t ^ "\"\n")  (*no match!!*)
paulson@21978
   356
        | doline hs (lname, t, deps) =
paulson@21978
   357
            hs ^ lname ^ ": \"" ^ string_of t ^ 
paulson@21978
   358
            "\"\n  by (meson " ^ space_implode " " deps ^ ")\n"
paulson@21978
   359
      fun dolines [(lname, t, deps)] = [doline "show " (lname, t, deps)]
paulson@21978
   360
        | dolines ((lname, t, deps)::lines) = doline "have " (lname, t, deps) :: dolines lines
paulson@21978
   361
  in setmp show_sorts true dolines end;
paulson@21978
   362
paulson@21978
   363
fun notequal t (_,t',_) = not (t aconv t');
paulson@21978
   364
paulson@21978
   365
fun eq_false t = t aconv (HOLogic.mk_Trueprop HOLogic.false_const);
paulson@21978
   366
paulson@21978
   367
fun replace_dep (old, new) dep = if dep=old then new else [dep];
paulson@21978
   368
paulson@21978
   369
fun replace_deps (old, new) (lno, t, deps) = 
paulson@21978
   370
      (lno, t, List.concat (map (replace_dep (old, new)) deps));
paulson@21978
   371
paulson@21978
   372
(*Discard axioms and also False conjecture clauses (which can only contain type information).
paulson@21978
   373
  Consolidate adjacent lines that prove the same clause, since they differ only in type
paulson@21978
   374
  information.*)
paulson@21978
   375
fun add_prfline ((lno, "axiom", t, []), lines) =  (*axioms are not proof lines*)
paulson@21978
   376
      if eq_false t then lines   (*must be clsrel/clsarity: type information*)
paulson@21978
   377
      else (case take_prefix (notequal t) lines of
paulson@21978
   378
               (_,[]) => lines   (*no repetition of proof line*)
paulson@21978
   379
             | (pre, (lno',t',deps')::post) => 
paulson@21978
   380
                 pre @ map (replace_deps (lno', [lno])) post)
paulson@21978
   381
  | add_prfline ((lno, role, t, []), lines) =  (*no deps: conjecture clause*)
paulson@21978
   382
      if eq_false t then lines   (*must be tfree_tcs: type information*)
paulson@21978
   383
      else (lno, t, []) :: lines
paulson@21978
   384
  | add_prfline ((lno, role, t, deps), lines) =
paulson@21978
   385
      (case term_tvars t of (*Delete line if it has TVars: they are forbidden in goals*)
paulson@21978
   386
          _::_ => map (replace_deps (lno, deps)) lines
paulson@21978
   387
        | [] => 
paulson@21978
   388
            case take_prefix (notequal t) lines of
paulson@21978
   389
               (_,[]) => (lno, t, deps) :: lines   (*no repetition of proof line*)
paulson@21978
   390
             | (pre, (lno',t',deps')::post) => 
paulson@21978
   391
                 (lno, t', deps) ::  (*replace later line by earlier one*)
paulson@21978
   392
                 (pre @ map (replace_deps (lno', [lno])) post));
paulson@21978
   393
paulson@21999
   394
(*Replace numeric proof lines by strings, either from thm_names or sequential line numbers*)
paulson@21978
   395
fun stringify_deps thm_names deps_map [] = []
paulson@21978
   396
  | stringify_deps thm_names deps_map ((lno, t, deps) :: lines) =
paulson@21978
   397
      if lno <= Vector.length thm_names  (*axiom*)
paulson@21978
   398
      then (Vector.sub(thm_names,lno-1), t, []) :: stringify_deps thm_names deps_map lines 
paulson@21979
   399
      else let val lname = Int.toString (length deps_map)
paulson@21978
   400
               fun fix lno = if lno <= Vector.length thm_names  
paulson@21978
   401
                             then SOME(Vector.sub(thm_names,lno-1))
paulson@21978
   402
                             else AList.lookup op= deps_map lno;
paulson@21978
   403
           in  (lname, t, List.mapPartial fix deps) ::
paulson@21978
   404
               stringify_deps thm_names ((lno,lname)::deps_map) lines
paulson@21978
   405
           end;
paulson@21978
   406
paulson@21999
   407
val proofstart = "\nproof (neg_clausify)\n";
paulson@21979
   408
paulson@21979
   409
fun isar_header [] = proofstart
paulson@21999
   410
  | isar_header ts = proofstart ^ "fix " ^ space_implode " " ts ^ "\n";
paulson@21979
   411
paulson@22012
   412
fun decode_tstp_file cnfs ctxt th sgno thm_names =
paulson@21978
   413
  let val tuples = map (dest_tstp o tstp_line o explode) cnfs
paulson@22012
   414
      val lines = foldr add_prfline [] (decode_tstp_list ctxt tuples)
paulson@21999
   415
      val (ccls,fixes) = ResAxioms.neg_conjecture_clauses th sgno
paulson@21999
   416
      val ccls = map forall_intr_vars ccls
paulson@21979
   417
  in  
paulson@22012
   418
      if !Output.show_debug_msgs
paulson@22012
   419
      then app (Output.debug o string_of_thm) ccls
paulson@22012
   420
      else ();
paulson@21999
   421
      isar_header (map #1 fixes) ^ 
paulson@22012
   422
      String.concat (isar_lines ctxt (map prop_of ccls) (stringify_deps thm_names [] lines))
paulson@21979
   423
  end;
paulson@21978
   424
paulson@21978
   425
(*Could use split_lines, but it can return blank lines...*)
paulson@21978
   426
val lines = String.tokens (equal #"\n");
paulson@21978
   427
paulson@21978
   428
val nospaces = String.translate (fn c => if Char.isSpace c then "" else str c);
paulson@21978
   429
paulson@21978
   430
(*The output to the watcher must be a SINGLE line...clearly \t must not be used.*)
paulson@21978
   431
val encode_newlines = String.translate (fn c => if c = #"\n" then "\t" else str c);
paulson@21978
   432
val restore_newlines = String.translate (fn c => if c = #"\t" then "\n" else str c);
paulson@21978
   433
paulson@21978
   434
fun signal_success probfile toParent ppid msg = 
paulson@21978
   435
  (trace ("\nReporting Success for" ^ probfile ^ "\n" ^ msg);
paulson@21978
   436
   TextIO.output (toParent, "Success. " ^ encode_newlines msg ^ "\n");
paulson@21978
   437
   TextIO.output (toParent, probfile ^ "\n");
paulson@21978
   438
   TextIO.flushOut toParent;
paulson@21978
   439
   Posix.Process.kill(Posix.Process.K_PROC ppid, Posix.Signal.usr2));
paulson@21978
   440
paulson@22012
   441
fun tstp_extract proofextract probfile toParent ppid ctxt th sgno thm_names = 
paulson@21978
   442
  let val cnfs = filter (String.isPrefix "cnf(") (map nospaces (lines proofextract))
paulson@21978
   443
  in  
paulson@21978
   444
    signal_success probfile toParent ppid 
paulson@22012
   445
      (decode_tstp_file cnfs ctxt th sgno thm_names)
paulson@21978
   446
  end;
paulson@21978
   447
paulson@21978
   448
paulson@21978
   449
(**** retrieve the axioms that were used in the proof ****)
paulson@21978
   450
paulson@21978
   451
(*Get names of axioms used. Axioms are indexed from 1, while the vector is indexed from 0*)
paulson@21978
   452
fun get_axiom_names (thm_names: string vector) step_nums = 
paulson@21978
   453
    let fun is_axiom n = n <= Vector.length thm_names 
paulson@21978
   454
        fun index i = Vector.sub(thm_names, i-1)
paulson@21978
   455
        val axnums = List.filter is_axiom step_nums
paulson@21978
   456
        val axnames = sort_distinct string_ord (map index axnums)
paulson@21978
   457
    in
paulson@21978
   458
	if length axnums = length step_nums then "UNSOUND!!" :: axnames
paulson@21978
   459
	else axnames
paulson@21978
   460
    end
paulson@21978
   461
paulson@21978
   462
 (*String contains multiple lines. We want those of the form 
paulson@21978
   463
     "253[0:Inp] et cetera..."
paulson@21978
   464
  A list consisting of the first number in each line is returned. *)
paulson@21978
   465
fun get_spass_linenums proofstr = 
paulson@21978
   466
  let val toks = String.tokens (not o Char.isAlphaNum)
paulson@21978
   467
      fun inputno (ntok::"0"::"Inp"::_) = Int.fromString ntok
paulson@21978
   468
        | inputno _ = NONE
paulson@21978
   469
      val lines = String.tokens (fn c => c = #"\n") proofstr
paulson@21978
   470
  in  List.mapPartial (inputno o toks) lines  end
paulson@21978
   471
paulson@21978
   472
fun get_axiom_names_spass proofstr thm_names =
paulson@21978
   473
   get_axiom_names thm_names (get_spass_linenums proofstr);
paulson@21978
   474
    
paulson@21978
   475
fun not_comma c = c <>  #",";
paulson@21978
   476
paulson@21978
   477
(*A valid TSTP axiom line has the form  cnf(NNN,axiom,...) where NNN is a positive integer.*)
paulson@21978
   478
fun parse_tstp_line s =
paulson@21978
   479
  let val ss = Substring.full (unprefix "cnf(" (nospaces s))
paulson@21978
   480
      val (intf,rest) = Substring.splitl not_comma ss
paulson@21978
   481
      val (rolef,rest) = Substring.splitl not_comma (Substring.triml 1 rest)
paulson@21978
   482
      (*We only allow negated_conjecture because the line number will be removed in
paulson@21978
   483
        get_axiom_names above, while suppressing the UNSOUND warning*)
paulson@21978
   484
      val ints = if Substring.string rolef mem_string ["axiom","negated_conjecture"]
paulson@21978
   485
                 then Substring.string intf 
paulson@21978
   486
                 else "error" 
paulson@21978
   487
  in  Int.fromString ints  end
paulson@21978
   488
  handle Fail _ => NONE; 
paulson@21978
   489
paulson@21978
   490
fun get_axiom_names_tstp proofstr thm_names =
paulson@21978
   491
   get_axiom_names thm_names (List.mapPartial parse_tstp_line (split_lines proofstr));
paulson@21978
   492
    
paulson@21978
   493
 (*String contains multiple lines. We want those of the form 
paulson@21978
   494
     "*********** [448, input] ***********".
paulson@21978
   495
  A list consisting of the first number in each line is returned. *)
paulson@21978
   496
fun get_vamp_linenums proofstr = 
paulson@21978
   497
  let val toks = String.tokens (not o Char.isAlphaNum)
paulson@21978
   498
      fun inputno [ntok,"input"] = Int.fromString ntok
paulson@21978
   499
        | inputno _ = NONE
paulson@21978
   500
      val lines = String.tokens (fn c => c = #"\n") proofstr
paulson@21978
   501
  in  List.mapPartial (inputno o toks) lines  end
paulson@21978
   502
paulson@21978
   503
fun get_axiom_names_vamp proofstr thm_names =
paulson@21978
   504
   get_axiom_names thm_names (get_vamp_linenums proofstr);
paulson@21978
   505
    
paulson@21978
   506
fun rules_to_string [] = "NONE"
paulson@21978
   507
  | rules_to_string xs = space_implode "  " xs
paulson@21978
   508
paulson@21978
   509
paulson@21978
   510
(*The signal handler in watcher.ML must be able to read the output of this.*)
paulson@21978
   511
fun prover_lemma_list_aux getax proofstr probfile toParent ppid thm_names = 
paulson@21978
   512
 (trace ("\n\nGetting lemma names. proofstr is " ^ proofstr ^
paulson@21978
   513
         " num of clauses is " ^ string_of_int (Vector.length thm_names));
paulson@21978
   514
  signal_success probfile toParent ppid 
paulson@21978
   515
    ("Lemmas used in automatic proof: " ^ rules_to_string (getax proofstr thm_names)))
paulson@21978
   516
 handle e => (*FIXME: exn handler is too general!*)
paulson@21978
   517
  (trace ("\nprover_lemma_list_aux: In exception handler: " ^ Toplevel.exn_message e);
paulson@21978
   518
   TextIO.output (toParent, "Translation failed for the proof: " ^ 
paulson@21978
   519
                  String.toString proofstr ^ "\n");
paulson@21978
   520
   TextIO.output (toParent, probfile);
paulson@21978
   521
   TextIO.flushOut toParent;
paulson@21978
   522
   Posix.Process.kill(Posix.Process.K_PROC ppid, Posix.Signal.usr2));
paulson@21978
   523
paulson@21978
   524
val e_lemma_list = prover_lemma_list_aux get_axiom_names_tstp;
paulson@21978
   525
paulson@21978
   526
val vamp_lemma_list = prover_lemma_list_aux get_axiom_names_vamp;
paulson@21978
   527
paulson@21978
   528
val spass_lemma_list = prover_lemma_list_aux get_axiom_names_spass;
paulson@21978
   529
paulson@21978
   530
paulson@21978
   531
(**** Extracting proofs from an ATP's output ****)
paulson@21978
   532
paulson@21978
   533
(*Return everything in s that comes before the string t*)
paulson@21978
   534
fun cut_before t s = 
paulson@21978
   535
  let val (s1,s2) = Substring.position t (Substring.full s)
paulson@21978
   536
  in  if Substring.size s2 = 0 then error "cut_before: string not found" 
paulson@21978
   537
      else Substring.string s2
paulson@21978
   538
  end;
paulson@21978
   539
paulson@21978
   540
val start_E = "# Proof object starts here."
paulson@21978
   541
val end_E   = "# Proof object ends here."
paulson@21978
   542
val start_V6 = "%================== Proof: ======================"
paulson@21978
   543
val end_V6   = "%==============  End of proof. =================="
paulson@21978
   544
val start_V8 = "=========== Refutation =========="
paulson@21978
   545
val end_V8 = "======= End of refutation ======="
paulson@21978
   546
val end_SPASS = "Formulae used in the proof"
paulson@21978
   547
paulson@21978
   548
(*********************************************************************************)
paulson@21978
   549
(*  Inspect the output of an ATP process to see if it has found a proof,     *)
paulson@21978
   550
(*  and if so, transfer output to the input pipe of the main Isabelle process    *)
paulson@21978
   551
(*********************************************************************************)
paulson@21978
   552
paulson@21978
   553
(*Returns "true" if it successfully returns a lemma list, otherwise "false", but this
paulson@21978
   554
  return value is currently never used!*)
paulson@22012
   555
fun startTransfer endS (fromChild, toParent, ppid, probfile, ctxt, th, sgno, thm_names) =
paulson@21978
   556
 let fun transferInput currentString =
paulson@21978
   557
      let val thisLine = TextIO.inputLine fromChild
paulson@21978
   558
      in
paulson@21978
   559
	if thisLine = "" (*end of file?*)
paulson@21978
   560
	then (trace ("\n extraction_failed.  End bracket: " ^ endS ^
paulson@21978
   561
	             "\naccumulated text: " ^ currentString);
paulson@21978
   562
	      false)                    
paulson@21978
   563
	else if String.isPrefix endS thisLine
paulson@21978
   564
	then let val proofextract = currentString ^ cut_before endS thisLine
paulson@21978
   565
	         val lemma_list = if endS = end_V8 then vamp_lemma_list
paulson@21978
   566
			  	  else if endS = end_SPASS then spass_lemma_list
paulson@21978
   567
			  	  else e_lemma_list
paulson@21978
   568
	     in
paulson@21978
   569
	       trace ("\nExtracted proof:\n" ^ proofextract); 
paulson@21978
   570
	       if !full andalso String.isPrefix "cnf(" proofextract
paulson@22012
   571
	       then tstp_extract proofextract probfile toParent ppid ctxt th sgno thm_names
paulson@21978
   572
	       else lemma_list proofextract probfile toParent ppid thm_names;
paulson@21978
   573
	       true
paulson@21978
   574
	     end
paulson@21978
   575
	else transferInput (currentString^thisLine)
paulson@21978
   576
      end
paulson@21978
   577
 in
paulson@21978
   578
     transferInput ""
paulson@21978
   579
 end 
paulson@21978
   580
paulson@21978
   581
paulson@21978
   582
(*The signal handler in watcher.ML must be able to read the output of this.*)
paulson@21978
   583
fun signal_parent (toParent, ppid, msg, probfile) =
paulson@21978
   584
 (TextIO.output (toParent, msg);
paulson@21978
   585
  TextIO.output (toParent, probfile ^ "\n");
paulson@21978
   586
  TextIO.flushOut toParent;
paulson@21978
   587
  trace ("\nSignalled parent: " ^ msg ^ probfile);
paulson@21978
   588
  Posix.Process.kill(Posix.Process.K_PROC ppid, Posix.Signal.usr2);
paulson@21978
   589
  (*Give the parent time to respond before possibly sending another signal*)
paulson@21978
   590
  OS.Process.sleep (Time.fromMilliseconds 600));
paulson@21978
   591
paulson@22012
   592
(*FIXME: once TSTP output is produced by all ATPs, these three functions can be combined.*)
paulson@22012
   593
paulson@21978
   594
(*Called from watcher. Returns true if the Vampire process has returned a verdict.*)
paulson@22012
   595
fun checkVampProofFound (arg as (fromChild, toParent, ppid, probfile, ctxt, th, sgno, thm_names)) =
paulson@21978
   596
 let val thisLine = TextIO.inputLine fromChild
paulson@21978
   597
 in   
paulson@21978
   598
     trace thisLine;
paulson@21978
   599
     if thisLine = "" 
paulson@21978
   600
     then (trace "\nNo proof output seen"; false)
paulson@21978
   601
     else if String.isPrefix start_V8 thisLine
paulson@22012
   602
     then startTransfer end_V8 arg
paulson@21978
   603
     else if (String.isPrefix "Satisfiability detected" thisLine) orelse
paulson@21978
   604
             (String.isPrefix "Refutation not found" thisLine)
paulson@21978
   605
     then (signal_parent (toParent, ppid, "Failure\n", probfile);
paulson@21978
   606
	   true)
paulson@22012
   607
     else checkVampProofFound arg
paulson@21978
   608
  end
paulson@21978
   609
paulson@21978
   610
(*Called from watcher. Returns true if the E process has returned a verdict.*)
paulson@22012
   611
fun checkEProofFound (arg as (fromChild, toParent, ppid, probfile, ctxt, th, sgno, thm_names)) = 
paulson@21978
   612
 let val thisLine = TextIO.inputLine fromChild  
paulson@21978
   613
 in   
paulson@21978
   614
     trace thisLine;
paulson@21978
   615
     if thisLine = "" then (trace "\nNo proof output seen"; false)
paulson@21978
   616
     else if String.isPrefix start_E thisLine
paulson@22012
   617
     then startTransfer end_E arg
paulson@21978
   618
     else if String.isPrefix "# Problem is satisfiable" thisLine
paulson@21978
   619
     then (signal_parent (toParent, ppid, "Invalid\n", probfile);
paulson@21978
   620
	   true)
paulson@21978
   621
     else if String.isPrefix "# Cannot determine problem status within resource limit" thisLine
paulson@21978
   622
     then (signal_parent (toParent, ppid, "Failure\n", probfile);
paulson@21978
   623
	   true)
paulson@22012
   624
     else checkEProofFound arg
paulson@21978
   625
 end;
paulson@21978
   626
paulson@21978
   627
(*Called from watcher. Returns true if the SPASS process has returned a verdict.*)
paulson@22012
   628
fun checkSpassProofFound (arg as (fromChild, toParent, ppid, probfile, ctxt, th, sgno, thm_names)) = 
paulson@21978
   629
 let val thisLine = TextIO.inputLine fromChild  
paulson@21978
   630
 in    
paulson@21978
   631
     trace thisLine;
paulson@21978
   632
     if thisLine = "" then (trace "\nNo proof output seen"; false)
paulson@21978
   633
     else if String.isPrefix "Here is a proof" thisLine
paulson@22012
   634
     then startTransfer end_SPASS arg
paulson@21978
   635
     else if thisLine = "SPASS beiseite: Completion found.\n"
paulson@21978
   636
     then (signal_parent (toParent, ppid, "Invalid\n", probfile);
paulson@21978
   637
	   true)
paulson@21978
   638
     else if thisLine = "SPASS beiseite: Ran out of time.\n" orelse
paulson@21978
   639
             thisLine = "SPASS beiseite: Maximal number of loops exceeded.\n"
paulson@21978
   640
     then (signal_parent (toParent, ppid, "Failure\n", probfile);
paulson@21978
   641
	   true)
paulson@22012
   642
    else checkSpassProofFound arg
paulson@21978
   643
 end
paulson@21978
   644
paulson@21978
   645
end;