(* Title: FOL/ROOT
ID: $Id$
Author: Lawrence C Paulson, Cambridge University Computer Laboratory
Copyright 1993 University of Cambridge
Adds First-Order Logic to a database containing pure Isabelle.
Should be executed in the subdirectory FOL.
*)
val banner = "First-Order Logic with Natural Deduction";
writeln banner;
print_depth 1;
use "$ISABELLE_HOME/src/Provers/simplifier.ML";
use "$ISABELLE_HOME/src/Provers/splitter.ML";
use "$ISABELLE_HOME/src/Provers/ind.ML";
use "$ISABELLE_HOME/src/Provers/hypsubst.ML";
use "$ISABELLE_HOME/src/Provers/classical.ML";
use "$ISABELLE_HOME/src/Provers/blast.ML";
use "$ISABELLE_HOME/src/Provers/quantifier1.ML";
use_thy "IFOL";
use "fologic.ML";
(** Applying HypsubstFun to generate hyp_subst_tac **)
structure Hypsubst_Data =
struct
structure Simplifier = Simplifier
(*Take apart an equality judgement; otherwise raise Match!*)
fun dest_eq (Const("Trueprop",_) $ (Const("op =",T) $ t $ u)) =
(t, u, domain_type T)
val eq_reflection = eq_reflection
val imp_intr = impI
val rev_mp = rev_mp
val subst = subst
val sym = sym
val thin_refl = prove_goal IFOL.thy
"!!X. [|x=x; PROP W|] ==> PROP W" (K [atac 1]);
end;
structure Hypsubst = HypsubstFun(Hypsubst_Data);
open Hypsubst;
use "intprover.ML";
use_thy "FOL";
use "cladata.ML";
use "simpdata.ML";
qed_goal "ex1_functional" FOL.thy
"!!a b c. [| EX! z. P(a,z); P(a,b); P(a,c) |] ==> b = c"
(fn _ => [ (deepen_tac FOL_cs 0 1) ]);
print_depth 8;
val FOL_build_completed = (); (*indicate successful build*)