diff -r ae54ce4cde54 -r f78c820f67c3 Nominal/Parser.thy --- a/Nominal/Parser.thy Sat Mar 27 14:38:22 2010 +0100 +++ b/Nominal/Parser.thy Sat Mar 27 14:55:07 2010 +0100 @@ -390,57 +390,57 @@ val qty_binds = map (fn (_, b, _, _) => b) dts; val qty_names = map Name.of_binding qty_binds; val qty_full_names = map (Long_Name.qualify thy_name) qty_names - val (q_tys, lthy7) = define_quotient_types qty_binds all_typs alpha_ts_nobn alpha_equivp lthy6; + val (qtys, lthy7) = define_quotient_types qty_binds all_typs alpha_ts_nobn alpha_equivp lthy6; val const_names = map Name.of_binding (flat (map (fn (_, _, _, t) => map (fn (b, _, _) => b) t) dts)); val raw_consts = flat (map (fn (i, (_, _, l)) => map (fn (cname, dts) => Const (cname, map (typ_of_dtyp descr sorts) dts ---> typ_of_dtyp descr sorts (DtRec i))) l) descr); - val (consts, const_defs, lthy8) = quotient_lift_consts_export (const_names ~~ raw_consts) lthy7; + val (consts, const_defs, lthy8) = quotient_lift_consts_export qtys (const_names ~~ raw_consts) lthy7; val _ = tracing "Proving respects"; val bns_rsp_pre' = build_fvbv_rsps alpha_ts alpha_induct raw_bn_eqs (map fst bns) lthy8; val _ = map tracing (map PolyML.makestring bns_rsp_pre') val (bns_rsp_pre, lthy9) = fold_map ( - fn (bn_t, i) => prove_const_rsp Binding.empty [bn_t] (fn _ => + fn (bn_t, i) => prove_const_rsp qtys Binding.empty [bn_t] (fn _ => resolve_tac bns_rsp_pre' 1)) bns lthy8; val bns_rsp = flat (map snd bns_rsp_pre); fun fv_rsp_tac _ = if !cheat_fv_rsp then Skip_Proof.cheat_tac thy else fvbv_rsp_tac alpha_induct fv_def lthy8 1; val fv_rsps = prove_fv_rsp fv_alpha_all alpha_ts fv_rsp_tac lthy9; val (fv_rsp_pre, lthy10) = fold_map - (fn fv => fn ctxt => prove_const_rsp Binding.empty [fv] + (fn fv => fn ctxt => prove_const_rsp qtys Binding.empty [fv] (fn _ => asm_simp_tac (HOL_ss addsimps fv_rsps) 1) ctxt) fv_ts lthy9; val fv_rsp = flat (map snd fv_rsp_pre); - val (perms_rsp, lthy11) = prove_const_rsp Binding.empty perms + val (perms_rsp, lthy11) = prove_const_rsp qtys Binding.empty perms (fn _ => asm_simp_tac (HOL_ss addsimps alpha_eqvt) 1) lthy10; val alpha_bn_rsp_pre = prove_alpha_bn_rsp alpha_ts alpha_induct (alpha_eq_iff @ rel_dists @ rel_dists_bn) alpha_equivp exhausts alpha_ts_bn lthy11; - val (alpha_bn_rsps, lthy11a) = fold_map (fn cnst => prove_const_rsp Binding.empty [cnst] + val (alpha_bn_rsps, lthy11a) = fold_map (fn cnst => prove_const_rsp qtys Binding.empty [cnst] (fn _ => asm_simp_tac (HOL_ss addsimps alpha_bn_rsp_pre) 1)) alpha_ts_bn lthy11 (* val _ = map tracing (map PolyML.makestring alpha_bn_rsps);*) fun const_rsp_tac _ = if !cheat_const_rsp then Skip_Proof.cheat_tac thy else let val alpha_alphabn = prove_alpha_alphabn alpha_ts alpha_induct alpha_eq_iff alpha_ts_bn lthy11a in constr_rsp_tac alpha_eq_iff (fv_rsp @ bns_rsp @ reflps @ alpha_alphabn) 1 end - val (const_rsps, lthy12) = fold_map (fn cnst => prove_const_rsp Binding.empty [cnst] + val (const_rsps, lthy12) = fold_map (fn cnst => prove_const_rsp qtys Binding.empty [cnst] const_rsp_tac) raw_consts lthy11a val qfv_names = map (unsuffix "_raw" o Long_Name.base_name o fst o dest_Const) ordered_fv_ts - val (qfv_ts, qfv_defs, lthy12a) = quotient_lift_consts_export (qfv_names ~~ ordered_fv_ts) lthy12; + val (qfv_ts, qfv_defs, lthy12a) = quotient_lift_consts_export qtys (qfv_names ~~ ordered_fv_ts) lthy12; val (qfv_ts_nobn, qfv_ts_bn) = chop (length perms) qfv_ts; val qbn_names = map (fn (b, _ , _) => Name.of_binding b) bn_funs - val (qbn_defs, lthy12b) = fold_map Quotient_Def.quotient_lift_const (qbn_names ~~ raw_bn_funs) lthy12a; + val (qbn_ts, qbn_defs, lthy12b) = quotient_lift_consts_export qtys (qbn_names ~~ raw_bn_funs) lthy12a; val qalpha_bn_names = map (unsuffix "_raw" o Long_Name.base_name o fst o dest_Const) alpha_ts_bn - val (qalpha_ts_bn, qbn_defs, lthy12c) = quotient_lift_consts_export (qalpha_bn_names ~~ alpha_ts_bn) lthy12b; + val (qalpha_ts_bn, qalphabn_defs, lthy12c) = quotient_lift_consts_export qtys (qalpha_bn_names ~~ alpha_ts_bn) lthy12b; val _ = tracing "Lifting permutations"; val thy = Local_Theory.exit_global lthy12c; val perm_names = map (fn x => "permute_" ^ x) qty_names - val thy' = define_lifted_perms qty_full_names (perm_names ~~ perms) raw_perm_simps thy; + val thy' = define_lifted_perms qtys qty_full_names (perm_names ~~ perms) raw_perm_simps thy; val lthy13 = Theory_Target.init NONE thy'; val q_name = space_implode "_" qty_names; fun suffix_bind s = Binding.qualify true q_name (Binding.name s); val _ = tracing "Lifting induction"; val constr_names = map (Long_Name.base_name o fst o dest_Const) consts; - val q_induct = Rule_Cases.name constr_names (lift_thm lthy13 induct); + val q_induct = Rule_Cases.name constr_names (lift_thm qtys lthy13 induct); fun note_suffix s th ctxt = snd (Local_Theory.note ((suffix_bind s, []), th) ctxt); fun note_simp_suffix s th ctxt = @@ -449,27 +449,27 @@ [Attrib.internal (K (Rule_Cases.case_names constr_names))]), [Rule_Cases.name constr_names q_induct]) lthy13; val q_inducts = Project_Rule.projects lthy13 (1 upto (length alpha_inducts)) q_induct val (_, lthy14a) = Local_Theory.note ((suffix_bind "inducts", []), q_inducts) lthy14; - val q_perm = map (lift_thm lthy14) raw_perm_def; + val q_perm = map (lift_thm qtys lthy14) raw_perm_def; val lthy15 = note_simp_suffix "perm" q_perm lthy14a; - val q_fv = map (lift_thm lthy15) fv_def; + val q_fv = map (lift_thm qtys lthy15) fv_def; val lthy16 = note_simp_suffix "fv" q_fv lthy15; - val q_bn = map (lift_thm lthy16) raw_bn_eqs; + val q_bn = map (lift_thm qtys lthy16) raw_bn_eqs; val lthy17 = note_simp_suffix "bn" q_bn lthy16; val _ = tracing "Lifting eq-iff"; val eq_iff_unfolded1 = map (Local_Defs.unfold lthy17 @{thms alphas2}) alpha_eq_iff val eq_iff_unfolded2 = map (Local_Defs.unfold lthy17 @{thms alphas}) eq_iff_unfolded1 - val q_eq_iff_pre1 = map (lift_thm lthy17) eq_iff_unfolded2; + val q_eq_iff_pre1 = map (lift_thm qtys lthy17) eq_iff_unfolded2; val q_eq_iff_pre2 = map (Local_Defs.fold lthy17 @{thms alphas2}) q_eq_iff_pre1 val q_eq_iff = map (Local_Defs.fold lthy17 @{thms alphas}) q_eq_iff_pre2 val (_, lthy18) = Local_Theory.note ((suffix_bind "eq_iff", []), q_eq_iff) lthy17; - val q_dis = map (lift_thm lthy18) rel_dists; + val q_dis = map (lift_thm qtys lthy18) rel_dists; val lthy19 = note_simp_suffix "distinct" q_dis lthy18; - val q_eqvt = map (lift_thm lthy19) (bv_eqvt @ fv_eqvt); + val q_eqvt = map (lift_thm qtys lthy19) (bv_eqvt @ fv_eqvt); val (_, lthy20) = Local_Theory.note ((Binding.empty, [Attrib.internal (fn _ => Nominal_ThmDecls.eqvt_add)]), q_eqvt) lthy19; val _ = tracing "Finite Support"; val supports = map (prove_supports lthy20 q_perm) consts; - val fin_supp = HOLogic.conj_elims (prove_fs lthy20 q_induct supports q_tys); + val fin_supp = HOLogic.conj_elims (prove_fs lthy20 q_induct supports qtys); val thy3 = Local_Theory.exit_global lthy20; val lthy21 = Theory_Target.instantiation (qty_full_names, [], @{sort fs}) thy3; fun tac _ = Class.intro_classes_tac [] THEN (ALLGOALS (resolve_tac fin_supp))