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1227
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theory Rsp
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imports Abs
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begin
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ML {*
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fun define_quotient_type args tac ctxt =
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let
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val mthd = Method.SIMPLE_METHOD tac
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val mthdt = Method.Basic (fn _ => mthd)
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val bymt = Proof.global_terminal_proof (mthdt, NONE)
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in
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bymt (Quotient_Type.quotient_type args ctxt)
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end
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*}
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ML {*
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun const_rsp lthy const =
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1227
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let
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val nty = fastype_of (Quotient_Term.quotient_lift_const ("", const) lthy)
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val rel = Quotient_Term.equiv_relation_chk lthy (fastype_of const, nty);
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in
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HOLogic.mk_Trueprop (rel $ const $ const)
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end
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*}
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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(* Replaces bounds by frees and meta implications by implications *)
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1227
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ML {*
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun prepare_goal trm =
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1227
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let
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val vars = strip_all_vars trm
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val fs = rev (map Free vars)
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val (fixes, no_alls) = ((map fst vars), subst_bounds (fs, (strip_all_body trm)))
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val prems = map HOLogic.dest_Trueprop (Logic.strip_imp_prems no_alls)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val concl = HOLogic.dest_Trueprop (Logic.strip_imp_concl no_alls)
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1227
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in
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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(fixes, fold (curry HOLogic.mk_imp) prems concl)
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1227
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end
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*}
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ML {*
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fun get_rsp_goal thy trm =
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let
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val goalstate = Goal.init (cterm_of thy trm);
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val tac = REPEAT o rtac @{thm fun_rel_id};
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in
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case (SINGLE (tac 1) goalstate) of
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NONE => error "rsp_goal failed"
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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| SOME th => prepare_goal (term_of (cprem_of th 1))
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1227
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end
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*}
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ML {*
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun repeat_mp thm = repeat_mp (mp OF [thm]) handle THM _ => thm
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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54 |
*}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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55 |
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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56 |
ML {*
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun prove_const_rsp bind consts tac ctxt =
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1227
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let
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val rsp_goals = map (const_rsp ctxt) consts
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1227
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val thy = ProofContext.theory_of ctxt
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val (fixed, user_goals) = split_list (map (get_rsp_goal thy) rsp_goals)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val fixed' = distinct (op =) (flat fixed)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val user_goal = HOLogic.mk_Trueprop (foldr1 HOLogic.mk_conj user_goals)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val user_thm = Goal.prove ctxt fixed' [] user_goal tac
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val user_thms = map repeat_mp (HOLogic.conj_elims user_thm)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun tac _ = (REPEAT o rtac @{thm fun_rel_id} THEN' resolve_tac user_thms THEN_ALL_NEW atac) 1
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val rsp_thms = map (fn gl => Goal.prove ctxt [] [] gl tac) rsp_goals
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1227
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in
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ctxt
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|> snd o Local_Theory.note
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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((Binding.empty, [Attrib.internal (fn _ => Quotient_Info.rsp_rules_add)]), rsp_thms)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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|> snd o Local_Theory.note ((bind, []), user_thms)
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1227
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end
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*}
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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76 |
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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1227
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ML {*
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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fun fvbv_rsp_tac induct fvbv_simps =
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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((((rtac impI THEN' etac induct) ORELSE' rtac induct) THEN_ALL_NEW
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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(TRY o rtac @{thm TrueI})) THEN_ALL_NEW asm_full_simp_tac
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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(HOL_ss addsimps (@{thm alpha_gen} :: fvbv_simps)))
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1227
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*}
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ML {*
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fun constr_rsp_tac inj rsp equivps =
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let
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val reflps = map (fn x => @{thm equivp_reflp} OF [x]) equivps
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in
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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REPEAT o rtac impI THEN'
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1227
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simp_tac (HOL_ss addsimps inj) THEN'
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(TRY o REPEAT_ALL_NEW (CHANGED o rtac conjI)) THEN_ALL_NEW
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(asm_simp_tac HOL_ss THEN_ALL_NEW (
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rtac @{thm exI[of _ "0 :: perm"]} THEN'
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asm_full_simp_tac (HOL_ss addsimps (rsp @ reflps @
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@{thms alpha_gen fresh_star_def fresh_zero_perm permute_zero ball_triv}))
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))
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end
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*}
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1230
a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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(* Testing code
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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local_setup {* prove_const_rsp @{binding fv_rtrm2_rsp} [@{term rbv2}]
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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103 |
(fn _ => fv_rsp_tac @{thm alpha_rtrm2_alpha_rassign.inducts(2)} @{thms fv_rtrm2_fv_rassign.simps} 1) *}*)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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104 |
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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105 |
(*ML {*
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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106 |
val rsp_goals = map (const_rsp @{context}) [@{term rbv2}]
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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107 |
val (fixed, user_goals) = split_list (map (get_rsp_goal @{theory}) rsp_goals)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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108 |
val fixed' = distinct (op =) (flat fixed)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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109 |
val user_goal = HOLogic.mk_Trueprop (foldr1 HOLogic.mk_conj user_goals)
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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110 |
*}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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111 |
prove ug: {* user_goal *}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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112 |
ML_prf {*
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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113 |
val induct = @{thm alpha_rtrm2_alpha_rassign.inducts(2)}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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114 |
val fv_simps = @{thms rbv2.simps}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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115 |
*}
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a41c3a105104
rsp for bv; the only issue is that it requires an appropriate induction principle.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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116 |
*)
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1227
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117 |
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1268
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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118 |
ML {*
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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119 |
fun build_eqvts bind funs perms simps induct ctxt =
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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120 |
let
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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121 |
val pi = Free ("p", @{typ perm});
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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122 |
val types = map (domain_type o fastype_of) funs;
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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val indnames = Name.variant_list ["p"] (Datatype_Prop.make_tnames (map body_type types));
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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124 |
val args = map Free (indnames ~~ types);
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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125 |
val perm_at = @{term "permute :: perm \<Rightarrow> atom set \<Rightarrow> atom set"}
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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126 |
fun eqvtc (fnctn, (arg, perm)) =
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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127 |
HOLogic.mk_eq ((perm_at $ pi $ (fnctn $ arg)), (fnctn $ (perm $ pi $ arg)))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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128 |
val gl = HOLogic.mk_Trueprop (foldr1 HOLogic.mk_conj (map eqvtc (funs ~~ (args ~~ perms))))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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129 |
fun tac _ = (Datatype_Aux.indtac induct indnames THEN_ALL_NEW
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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130 |
(asm_full_simp_tac (HOL_ss addsimps
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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131 |
(@{thm atom_eqvt} :: (Nominal_ThmDecls.get_eqvts_thms ctxt) @ simps)))) 1
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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132 |
val thm = Goal.prove ctxt ("p" :: indnames) [] gl tac
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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133 |
val thms = HOLogic.conj_elims thm
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
134 |
in
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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135 |
Local_Theory.note ((bind, [Attrib.internal (fn _ => Nominal_ThmDecls.eqvt_add)]), thms) ctxt
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1227
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136 |
end
|
1268
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
137 |
*}
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
138 |
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
139 |
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
140 |
ML {*
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
141 |
fun build_alpha_eqvts funs perms simps induct ctxt =
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
142 |
let
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
143 |
val pi = Free ("p", @{typ perm});
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
144 |
val types = map (domain_type o fastype_of) funs;
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
145 |
val indnames = Name.variant_list ["p"] (Datatype_Prop.make_tnames (map body_type types));
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
146 |
val indnames2 = Name.variant_list ("p" :: indnames) (Datatype_Prop.make_tnames (map body_type types));
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
147 |
val args = map Free (indnames ~~ types);
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
148 |
val args2 = map Free (indnames2 ~~ types);
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
149 |
fun eqvtc ((alpha, perm), (arg, arg2)) =
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
150 |
HOLogic.mk_imp (alpha $ arg $ arg2,
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
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151 |
(alpha $ (perm $ pi $ arg) $ (perm $ pi $ arg2)))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
152 |
val gl = HOLogic.mk_Trueprop (foldr1 HOLogic.mk_conj (map eqvtc ((funs ~~ perms) ~~ (args ~~ args2))))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
153 |
fun tac _ = (((rtac impI THEN' etac induct) ORELSE' rtac induct) THEN_ALL_NEW
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
154 |
(asm_full_simp_tac (HOL_ss addsimps
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
155 |
(@{thm atom_eqvt} :: (Nominal_ThmDecls.get_eqvts_thms ctxt) @ simps)))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
156 |
THEN_ALL_NEW (TRY o REPEAT_ALL_NEW (CHANGED o rtac conjI) THEN_ALL_NEW
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
157 |
(etac @{thm alpha_gen_compose_eqvt})) THEN_ALL_NEW
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
158 |
(asm_full_simp_tac (HOL_ss addsimps
|
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
159 |
(@{thm atom_eqvt} :: (Nominal_ThmDecls.get_eqvts_thms ctxt) @ simps)))
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
160 |
) 1
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
161 |
val thm = Goal.prove ctxt ("p" :: indnames @ indnames2) [] gl tac
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
162 |
in
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
163 |
map (fn x => mp OF [x]) (HOLogic.conj_elims thm)
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d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
164 |
end
|
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
165 |
*}
|
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
166 |
|
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
167 |
|
d1999540d23a
Move the eqvt code out of Terms and fixed induction for single-rule examples.
Cezary Kaliszyk <kaliszyk@in.tum.de>
diff
changeset
|
168 |
end
|