(* Title: HOL/ROOT
ID: $Id$
Author: Tobias Nipkow
Copyright 1993 University of Cambridge
Adds Classical Higher-order Logic to a database containing pure Isabelle.
Should be executed in the subdirectory HOL.
*)
val banner = "Higher-Order Logic";
writeln banner;
(* Add user section "datatype" *)
use "Datatype.ML";
structure ThySyn =
ThySynFun(val user_keywords = ["|", "datatype", "primrec"]
and user_sections = [("datatype", datatype_decls),
("primrec", primrec_decl)]);
init_thy_reader ();
print_depth 1;
eta_contract := true;
use_thy "HOL";
use "../Provers/hypsubst.ML";
use "../Provers/classical.ML";
use "../Provers/simplifier.ML";
use "../Provers/splitter.ML";
use "../Provers/ind.ML";
(** Applying HypsubstFun to generate hyp_subst_tac **)
structure Hypsubst_Data =
struct
(*Take apart an equality judgement; otherwise raise Match!*)
fun dest_eq (Const("Trueprop",_) $ (Const("op =",_) $ t $ u)) = (t,u);
val imp_intr = impI
(*etac rev_cut_eq moves an equality to be the last premise. *)
val rev_cut_eq = prove_goal HOL.thy "[| a=b; a=b ==> R |] ==> R"
(fn prems => [ REPEAT(resolve_tac prems 1) ]);
val rev_mp = rev_mp
val subst = subst
val sym = sym
end;
structure Hypsubst = HypsubstFun(Hypsubst_Data);
open Hypsubst;
(** Applying ClassicalFun to create a classical prover **)
structure Classical_Data =
struct
val sizef = size_of_thm
val mp = mp
val not_elim = notE
val swap = swap
val hyp_subst_tacs=[hyp_subst_tac]
end;
structure Classical = ClassicalFun(Classical_Data);
open Classical;
(*Propositional rules*)
val prop_cs = empty_cs addSIs [refl,TrueI,conjI,disjCI,impI,notI,iffI]
addSEs [conjE,disjE,impCE,FalseE,iffE];
(*Quantifier rules*)
val HOL_cs = prop_cs addSIs [allI] addIs [exI,ex1I]
addSEs [exE,ex1E] addEs [allE];
val HOL_dup_cs = prop_cs addSIs [allI] addIs [exCI,ex1I]
addSEs [exE,ex1E] addEs [all_dupE];
structure HOL_Induction = InductionFun(struct val spec=spec end);
open HOL_Induction;
use "simpdata.ML";
use_thy "Ord";
use_thy "subset";
use_thy "equalities";
use_thy "Prod";
use_thy "Sum";
use_thy "LList";
use "../Pure/install_pp.ML";
print_depth 8;
val HOL_build_completed = (); (*indicate successful build*)