| author | haftmann |
| Thu, 19 Aug 2010 16:08:59 +0200 | |
| changeset 38558 | 32ad17fe2b9c |
| parent 38549 | d0385f2764d8 |
| child 38786 | e46e7a9cb622 |
| permissions | -rw-r--r-- |
| 37744 | 1 |
(* Title: HOL/Decision_Procs/langford.ML |
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Author: Amine Chaieb, TU Muenchen |
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moved term order operations to structure TermOrd (cf. Pure/term_ord.ML);
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parents:
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*) |
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moved term order operations to structure TermOrd (cf. Pure/term_ord.ML);
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signature LANGFORD_QE = |
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sig |
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val dlo_tac : Proof.context -> int -> tactic |
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val dlo_conv : Proof.context -> cterm -> thm |
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end |
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structure LangfordQE :LANGFORD_QE = |
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struct |
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val dest_set = |
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let |
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fun h acc ct = |
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case term_of ct of |
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Set.UNIV and Set.empty are mere abbreviations for top and bot
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Const (@{const_name Orderings.bot}, _) => acc
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| Const (@{const_name insert}, _) $ _ $ t => h (Thm.dest_arg1 ct :: acc) (Thm.dest_arg ct)
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in h [] end; |
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||
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fun prove_finite cT u = |
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let val [th0,th1] = map (instantiate' [SOME cT] []) @{thms "finite.intros"}
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fun ins x th = |
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Thm.implies_elim (instantiate' [] [(SOME o Thm.dest_arg o Thm.dest_arg) |
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(Thm.cprop_of th), SOME x] th1) th |
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in fold ins u th0 end; |
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val simp_rule = Conv.fconv_rule (Conv.arg_conv (Simplifier.rewrite (HOL_basic_ss addsimps (@{thms "ball_simps"} @ simp_thms))));
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fun basic_dloqe ctxt stupid dlo_qeth dlo_qeth_nolb dlo_qeth_noub gather ep = |
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case term_of ep of |
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Const(@{const_name Ex},_)$_ =>
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let |
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val p = Thm.dest_arg ep |
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val ths = simplify (HOL_basic_ss addsimps gather) (instantiate' [] [SOME p] stupid) |
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val (L,U) = |
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let |
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val (x,q) = Thm.dest_abs NONE (Thm.dest_arg (Thm.rhs_of ths)) |
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in (Thm.dest_arg1 q |> Thm.dest_arg1, Thm.dest_arg q |> Thm.dest_arg1) |
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end |
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fun proveneF S = |
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let val (a,A) = Thm.dest_comb S |>> Thm.dest_arg |
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val cT = ctyp_of_term a |
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val ne = instantiate' [SOME cT] [SOME a, SOME A] |
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@{thm insert_not_empty}
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val f = prove_finite cT (dest_set S) |
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in (ne, f) end |
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val qe = case (term_of L, term_of U) of |
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(Const (@{const_name Orderings.bot}, _),_) =>
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let |
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val (neU,fU) = proveneF U |
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in simp_rule (Thm.transitive ths (dlo_qeth_nolb OF [neU, fU])) end |
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| (_,Const (@{const_name Orderings.bot}, _)) =>
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let |
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val (neL,fL) = proveneF L |
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in simp_rule (Thm.transitive ths (dlo_qeth_noub OF [neL, fL])) end |
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| (_,_) => |
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let |
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val (neL,fL) = proveneF L |
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val (neU,fU) = proveneF U |
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in simp_rule (Thm.transitive ths (dlo_qeth OF [neL, neU, fL, fU])) |
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end |
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in qe end |
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| _ => error "dlo_qe : Not an existential formula"; |
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val all_conjuncts = |
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let fun h acc ct = |
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case term_of ct of |
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@{term "op &"}$_$_ => h (h acc (Thm.dest_arg ct)) (Thm.dest_arg1 ct)
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| _ => ct::acc |
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in h [] end; |
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fun conjuncts ct = |
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case term_of ct of |
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@{term "op &"}$_$_ => (Thm.dest_arg1 ct)::(conjuncts (Thm.dest_arg ct))
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| _ => [ct]; |
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fun fold1 f = foldr1 (uncurry f); |
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val list_conj = fold1 (fn c => fn c' => Thm.capply (Thm.capply @{cterm "op &"} c) c') ;
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fun mk_conj_tab th = |
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let fun h acc th = |
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case prop_of th of |
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@{term "Trueprop"}$(@{term "op &"}$p$q) =>
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h (h acc (th RS conjunct2)) (th RS conjunct1) |
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| @{term "Trueprop"}$p => (p,th)::acc
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in fold (Termtab.insert Thm.eq_thm) (h [] th) Termtab.empty end; |
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fun is_conj (@{term "op &"}$_$_) = true
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| is_conj _ = false; |
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fun prove_conj tab cjs = |
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case cjs of |
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[c] => if is_conj (term_of c) then prove_conj tab (conjuncts c) else tab c |
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| c::cs => conjI OF [prove_conj tab [c], prove_conj tab cs]; |
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fun conj_aci_rule eq = |
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let |
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val (l,r) = Thm.dest_equals eq |
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fun tabl c = the (Termtab.lookup (mk_conj_tab (Thm.assume l)) (term_of c)) |
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fun tabr c = the (Termtab.lookup (mk_conj_tab (Thm.assume r)) (term_of c)) |
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val ll = Thm.dest_arg l |
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val rr = Thm.dest_arg r |
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val thl = prove_conj tabl (conjuncts rr) |
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|> Drule.implies_intr_hyps |
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val thr = prove_conj tabr (conjuncts ll) |
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|> Drule.implies_intr_hyps |
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val eqI = instantiate' [] [SOME ll, SOME rr] @{thm iffI}
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in Thm.implies_elim (Thm.implies_elim eqI thl) thr |> mk_meta_eq end; |
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115 |
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moved old add_term_vars, add_term_frees etc. to structure OldTerm;
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fun contains x ct = member (op aconv) (OldTerm.term_frees (term_of ct)) (term_of x); |
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fun is_eqx x eq = case term_of eq of |
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Const(@{const_name "op ="},_)$l$r => l aconv term_of x orelse r aconv term_of x
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| _ => false ; |
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local |
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fun proc ct = |
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case term_of ct of |
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Const(@{const_name Ex},_)$Abs (xn,_,_) =>
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let |
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val e = Thm.dest_fun ct |
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val (x,p) = Thm.dest_abs (SOME xn) (Thm.dest_arg ct) |
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129 |
val Pp = Thm.capply @{cterm "Trueprop"} p
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val (eqs,neqs) = List.partition (is_eqx x) (all_conjuncts p) |
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in case eqs of |
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[] => |
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let |
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val (dx,ndx) = List.partition (contains x) neqs |
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in case ndx of [] => NONE |
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| _ => |
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137 |
conj_aci_rule (Thm.mk_binop @{cterm "op == :: prop => _"} Pp
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138 |
(Thm.capply @{cterm Trueprop} (list_conj (ndx @dx))))
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|> Thm.abstract_rule xn x |> Drule.arg_cong_rule e |
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|> Conv.fconv_rule (Conv.arg_conv |
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(Simplifier.rewrite |
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(HOL_basic_ss addsimps (simp_thms @ ex_simps)))) |
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|> SOME |
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end |
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| _ => conj_aci_rule (Thm.mk_binop @{cterm "op == :: prop => _"} Pp
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(Thm.capply @{cterm Trueprop} (list_conj (eqs@neqs))))
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|> Thm.abstract_rule xn x |> Drule.arg_cong_rule e |
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|> Conv.fconv_rule (Conv.arg_conv |
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(Simplifier.rewrite |
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(HOL_basic_ss addsimps (simp_thms @ ex_simps)))) |
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|> SOME |
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end |
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| _ => NONE; |
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in val reduce_ex_simproc = |
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Simplifier.make_simproc |
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{lhss = [@{cpat "EX x. ?P x"}] , name = "reduce_ex_simproc",
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proc = K (K proc) , identifier = []} |
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end; |
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159 |
|
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fun raw_dlo_conv dlo_ss |
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({qe_bnds, qe_nolb, qe_noub, gst, gs, atoms}:Langford_Data.entry) =
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let |
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val ss = dlo_ss addsimps @{thms "dnf_simps"} addsimprocs [reduce_ex_simproc]
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val dnfex_conv = Simplifier.rewrite ss |
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val pcv = Simplifier.rewrite |
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(dlo_ss addsimps (simp_thms @ ex_simps @ all_simps) |
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@ [@{thm "all_not_ex"}, not_all, ex_disj_distrib])
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in fn p => |
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Qelim.gen_qelim_conv pcv pcv dnfex_conv cons |
| 36945 | 170 |
(Thm.add_cterm_frees p []) (K Thm.reflexive) (K Thm.reflexive) |
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(K (basic_dloqe () gst qe_bnds qe_nolb qe_noub gs)) p |
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172 |
end; |
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173 |
|
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174 |
|
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val grab_atom_bop = |
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let |
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fun h bounds tm = |
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(case term_of tm of |
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Const (@{const_name "op ="}, T) $ _ $ _ =>
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if domain_type T = HOLogic.boolT then find_args bounds tm |
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else Thm.dest_fun2 tm |
| 38558 | 182 |
| Const (@{const_name Not}, _) $ _ => h bounds (Thm.dest_arg tm)
|
183 |
| Const (@{const_name All}, _) $ _ => find_body bounds (Thm.dest_arg tm)
|
|
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| Const ("all", _) $ _ => find_body bounds (Thm.dest_arg tm)
|
| 38558 | 185 |
| Const (@{const_name Ex}, _) $ _ => find_body bounds (Thm.dest_arg tm)
|
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| Const (@{const_name "op &"}, _) $ _ $ _ => find_args bounds tm
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| Const (@{const_name "op |"}, _) $ _ $ _ => find_args bounds tm
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| Const (@{const_name "op -->"}, _) $ _ $ _ => find_args bounds tm
|
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189 |
| Const ("==>", _) $ _ $ _ => find_args bounds tm
|
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190 |
| Const ("==", _) $ _ $ _ => find_args bounds tm
|
| 38558 | 191 |
| Const (@{const_name Trueprop}, _) $ _ => h bounds (Thm.dest_arg tm)
|
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| _ => Thm.dest_fun2 tm) |
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and find_args bounds tm = |
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(h bounds (Thm.dest_arg tm) handle CTERM _ => h bounds (Thm.dest_arg1 tm)) |
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and find_body bounds b = |
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let val (_, b') = Thm.dest_abs (SOME (Name.bound bounds)) b |
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197 |
in h (bounds + 1) b' end; |
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198 |
in h end; |
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199 |
|
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200 |
fun dlo_instance ctxt tm = |
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(fst (Langford_Data.get ctxt), |
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202 |
Langford_Data.match ctxt (grab_atom_bop 0 tm)); |
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|
203 |
|
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204 |
fun dlo_conv ctxt tm = |
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205 |
(case dlo_instance ctxt tm of |
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(_, NONE) => raise CTERM ("dlo_conv (langford): no corresponding instance in context!", [tm])
|
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207 |
| (ss, SOME instance) => raw_dlo_conv ss instance tm); |
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208 |
|
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209 |
fun generalize_tac f = CSUBGOAL (fn (p, i) => PRIMITIVE (fn st => |
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210 |
let |
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211 |
fun all T = Drule.cterm_rule (instantiate' [SOME T] []) @{cpat "all"}
|
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212 |
fun gen x t = Thm.capply (all (ctyp_of_term x)) (Thm.cabs x t) |
| 35408 | 213 |
val ts = sort (fn (a,b) => Term_Ord.fast_term_ord (term_of a, term_of b)) (f p) |
|
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214 |
val p' = fold_rev gen ts p |
| 36945 | 215 |
in Thm.implies_intr p' (Thm.implies_elim st (fold Thm.forall_elim ts (Thm.assume p'))) end)); |
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216 |
|
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217 |
|
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218 |
fun cfrees ats ct = |
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219 |
let |
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220 |
val ins = insert (op aconvc) |
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221 |
fun h acc t = |
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222 |
case (term_of t) of |
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223 |
b$_$_ => if member (op aconvc) ats (Thm.dest_fun2 t) |
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224 |
then ins (Thm.dest_arg t) (ins (Thm.dest_arg1 t) acc) |
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225 |
else h (h acc (Thm.dest_arg t)) (Thm.dest_fun t) |
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226 |
| _$_ => h (h acc (Thm.dest_arg t)) (Thm.dest_fun t) |
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227 |
| Abs(_,_,_) => Thm.dest_abs NONE t ||> h acc |> uncurry (remove (op aconvc)) |
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228 |
| Free _ => if member (op aconvc) ats t then acc else ins t acc |
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229 |
| Var _ => if member (op aconvc) ats t then acc else ins t acc |
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230 |
| _ => acc |
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231 |
in h [] ct end |
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232 |
|
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233 |
fun dlo_tac ctxt = CSUBGOAL (fn (p, i) => |
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234 |
(case dlo_instance ctxt p of |
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235 |
(ss, NONE) => simp_tac ss i |
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236 |
| (ss, SOME instance) => |
| 35625 | 237 |
Object_Logic.full_atomize_tac i THEN |
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238 |
simp_tac ss i |
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239 |
THEN (CONVERSION Thm.eta_long_conversion) i |
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240 |
THEN (TRY o generalize_tac (cfrees (#atoms instance))) i |
| 35625 | 241 |
THEN Object_Logic.full_atomize_tac i |
242 |
THEN CONVERSION (Object_Logic.judgment_conv (raw_dlo_conv ss instance)) i |
|
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243 |
THEN (simp_tac ss i))); |
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|
244 |
end; |