diff -r a6f3e1b08494 -r b6873d123f9b Attic/Unused.thy --- a/Attic/Unused.thy Sat May 12 21:05:59 2012 +0100 +++ /dev/null Thu Jan 01 00:00:00 1970 +0000 @@ -1,33 +0,0 @@ -(*notation ( output) "prop" ("#_" [1000] 1000) *) -notation ( output) "Trueprop" ("#_" [1000] 1000) - -syntax - "Bex1_rel" :: "id \ ('a \ 'a \ bool) \ ('a \ bool) \ bool" ("(3\!!_\_./ _)" [0, 0, 10] 10) -translations - "\!!x\A. P" == "Bex1_rel A (%x. P)" - -(*interpretation code *) -(*val bindd = ((Binding.make ("", Position.none)), ([]: Attrib.src list)) - val ((_, [eqn1pre]), lthy5) = Variable.import true [ABS_def] lthy4; - val eqn1i = Thm.prop_of (symmetric eqn1pre) - val ((_, [eqn2pre]), lthy6) = Variable.import true [REP_def] lthy5; - val eqn2i = Thm.prop_of (symmetric eqn2pre) - - val exp_morphism = ProofContext.export_morphism lthy6 (ProofContext.init (ProofContext.theory_of lthy6)); - val exp_term = Morphism.term exp_morphism; - val exp = Morphism.thm exp_morphism; - - val mthd = Method.SIMPLE_METHOD ((rtac quot_thm 1) THEN - ALLGOALS (simp_tac (HOL_basic_ss addsimps [(symmetric (exp ABS_def)), (symmetric (exp REP_def))]))) - val mthdt = Method.Basic (fn _ => mthd) - val bymt = Proof.global_terminal_proof (mthdt, NONE) - val exp_i = [(@{const_name QUOT_TYPE}, ((("QUOT_TYPE_I_" ^ (Binding.name_of qty_name)), true), - Expression.Named [("R", rel), ("Abs", abs), ("Rep", rep) ]))]*) - -(*||> Local_Theory.theory (fn thy => - let - val global_eqns = map exp_term [eqn2i, eqn1i]; - (* Not sure if the following context should not be used *) - val (global_eqns2, lthy7) = Variable.import_terms true global_eqns lthy6; - val global_eqns3 = map (fn t => (bindd, t)) global_eqns2; - in ProofContext.theory_of (bymt (Expression.interpretation (exp_i, []) global_eqns3 thy)) end)*)