src/Pure/Isar/obtain.ML
author wenzelm
Tue Sep 02 14:10:30 2008 +0200 (2008-09-02)
changeset 28080 4723eb2456ce
parent 24920 2a45e400fdad
child 28084 a05ca48ef263
permissions -rw-r--r--
explicit type Name.binding for higher-specification elements;
simplified ProofContext.inferred_param;
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(*  Title:      Pure/Isar/obtain.ML
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    ID:         $Id$
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    Author:     Markus Wenzel, TU Muenchen
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The 'obtain' and 'guess' language elements -- generalized existence at
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the level of proof texts: 'obtain' involves a proof that certain
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fixes/assumes may be introduced into the present context; 'guess' is
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similar, but derives these elements from the course of reasoning!
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  <chain_facts>
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  obtain x where "A x" <proof> ==
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  have "!!thesis. (!!x. A x ==> thesis) ==> thesis"
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  proof succeed
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    fix thesis
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    assume that [intro?]: "!!x. A x ==> thesis"
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    <chain_facts>
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    show thesis
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      apply (insert that)
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      <proof>
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  qed
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  fix x assm <<obtain_export>> "A x"
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  <chain_facts>
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  guess x <proof body> <proof end> ==
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  {
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    fix thesis
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    <chain_facts> have "PROP ?guess"
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      apply magic      -- {* turns goal into "thesis ==> #thesis" *}
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      <proof body>
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      apply_end magic  -- {* turns final "(!!x. P x ==> thesis) ==> #thesis" into
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        "#((!!x. A x ==> thesis) ==> thesis)" which is a finished goal state *}
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      <proof end>
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  }
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  fix x assm <<obtain_export>> "A x"
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*)
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signature OBTAIN =
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sig
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  val thatN: string
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  val obtain: string -> (Name.binding * string option * mixfix) list ->
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    ((Name.binding * Attrib.src list) * (string * string list) list) list ->
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    bool -> Proof.state -> Proof.state
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  val obtain_i: string -> (Name.binding * typ option * mixfix) list ->
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    ((Name.binding * attribute list) * (term * term list) list) list ->
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    bool -> Proof.state -> Proof.state
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  val result: (Proof.context -> tactic) -> thm list -> Proof.context ->
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    (cterm list * thm list) * Proof.context
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  val guess: (Name.binding * string option * mixfix) list -> bool -> Proof.state -> Proof.state
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  val guess_i: (Name.binding * typ option * mixfix) list -> bool -> Proof.state -> Proof.state
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end;
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structure Obtain: OBTAIN =
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struct
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(** obtain_export **)
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(*
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  [x, A x]
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     :
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     B
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  --------
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     B
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*)
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fun eliminate_term ctxt xs tm =
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  let
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    val vs = map (dest_Free o Thm.term_of) xs;
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    val bads = Term.fold_aterms (fn t as Free v =>
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      if member (op =) vs v then insert (op aconv) t else I | _ => I) tm [];
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    val _ = null bads orelse
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      error ("Result contains obtained parameters: " ^
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        space_implode " " (map (Syntax.string_of_term ctxt) bads));
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  in tm end;
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fun eliminate fix_ctxt rule xs As thm =
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  let
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    val thy = ProofContext.theory_of fix_ctxt;
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    val _ = eliminate_term fix_ctxt xs (Thm.full_prop_of thm);
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    val _ = ObjectLogic.is_judgment thy (Thm.concl_of thm) orelse
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      error "Conclusion in obtained context must be object-logic judgment";
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    val ((_, [thm']), ctxt') = Variable.import_thms true [thm] fix_ctxt;
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    val prems = Drule.strip_imp_prems (#prop (Thm.crep_thm thm'));
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  in
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    ((Drule.implies_elim_list thm' (map Thm.assume prems)
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        |> Drule.implies_intr_list (map Drule.norm_hhf_cterm As)
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        |> Drule.forall_intr_list xs)
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      COMP rule)
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    |> Drule.implies_intr_list prems
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    |> singleton (Variable.export ctxt' fix_ctxt)
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  end;
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fun obtain_export ctxt rule xs _ As =
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  (eliminate ctxt rule xs As, eliminate_term ctxt xs);
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(** obtain **)
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fun bind_judgment ctxt name =
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  let
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    val (bind, ctxt') = ProofContext.bind_fixes [name] ctxt;
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    val (t as _ $ Free v) = bind (ObjectLogic.fixed_judgment (ProofContext.theory_of ctxt) name);
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  in ((v, t), ctxt') end;
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val thatN = "that";
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local
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fun gen_obtain prep_att prep_vars prep_propp
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    name raw_vars raw_asms int state =
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  let
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    val _ = Proof.assert_forward_or_chain state;
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    val thy = Proof.theory_of state;
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    val cert = Thm.cterm_of thy;
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    val ctxt = Proof.context_of state;
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    val chain_facts = if can Proof.assert_chain state then Proof.the_facts state else [];
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    (*obtain vars*)
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    val (vars, vars_ctxt) = prep_vars raw_vars ctxt;
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    val (_, fix_ctxt) = vars_ctxt |> ProofContext.add_fixes_i vars;
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    val xs = map (Name.name_of o #1) vars;
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    (*obtain asms*)
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    val (asms_ctxt, proppss) = prep_propp (fix_ctxt, map snd raw_asms);
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    val asm_props = maps (map fst) proppss;
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    val asms = map fst (Attrib.map_specs (prep_att thy) raw_asms) ~~ proppss;
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    val _ = Variable.warn_extra_tfrees fix_ctxt asms_ctxt;
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    (*obtain statements*)
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    val thesisN = Name.variant xs AutoBind.thesisN;
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    val (thesis_var, thesis) = #1 (bind_judgment fix_ctxt thesisN);
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    val asm_frees = fold Term.add_frees asm_props [];
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    val parms = xs |> map (fn x =>
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      let val x' = ProofContext.get_skolem fix_ctxt x
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      in (x', the_default propT (AList.lookup (op =) asm_frees x')) end);
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    val that_name = if name = "" then thatN else name;
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    val that_prop =
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      Term.list_all_free (parms, Logic.list_implies (asm_props, thesis))
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      |> Library.curry Logic.list_rename_params xs;
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    val obtain_prop =
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      Logic.list_rename_params ([AutoBind.thesisN],
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        Term.list_all_free ([thesis_var], Logic.mk_implies (that_prop, thesis)));
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    fun after_qed _ =
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      Proof.local_qed (NONE, false)
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      #> Seq.map (`Proof.the_fact #-> (fn rule =>
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        Proof.fix_i vars
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        #> Proof.assm_i (obtain_export fix_ctxt rule (map (cert o Free) parms)) asms));
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  in
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    state
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    |> Proof.enter_forward
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    |> Proof.have_i NONE (K Seq.single) [((Name.no_binding, []), [(obtain_prop, [])])] int
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    |> Proof.proof (SOME Method.succeed_text) |> Seq.hd
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    |> Proof.fix_i [(Name.binding thesisN, NONE, NoSyn)]
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    |> Proof.assume_i
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      [((Name.binding that_name, [ContextRules.intro_query NONE]), [(that_prop, [])])]
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    |> `Proof.the_facts
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    ||> Proof.chain_facts chain_facts
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    ||> Proof.show_i NONE after_qed [((Name.no_binding, []), [(thesis, [])])] false
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    |-> Proof.refine_insert
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  end;
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in
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val obtain = gen_obtain Attrib.attribute ProofContext.read_vars ProofContext.read_propp;
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val obtain_i = gen_obtain (K I) ProofContext.cert_vars ProofContext.cert_propp;
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end;
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(** tactical result **)
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fun check_result ctxt thesis th =
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  (case Thm.prems_of th of
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    [prem] =>
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      if Thm.concl_of th aconv thesis andalso
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        Logic.strip_assums_concl prem aconv thesis then th
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      else error ("Guessed a different clause:\n" ^ ProofContext.string_of_thm ctxt th)
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  | [] => error "Goal solved -- nothing guessed."
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  | _ => error ("Guess split into several cases:\n" ^ ProofContext.string_of_thm ctxt th));
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fun result tac facts ctxt =
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  let
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    val thy = ProofContext.theory_of ctxt;
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    val cert = Thm.cterm_of thy;
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    val ((thesis_var, thesis), thesis_ctxt) = bind_judgment ctxt AutoBind.thesisN;
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    val rule =
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      (case SINGLE (Method.insert_tac facts 1 THEN tac thesis_ctxt) (Goal.init (cert thesis)) of
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        NONE => raise THM ("Obtain.result: tactic failed", 0, facts)
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      | SOME th => check_result ctxt thesis (MetaSimplifier.norm_hhf (Goal.conclude th)));
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    val closed_rule = Thm.forall_intr (cert (Free thesis_var)) rule;
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    val ((_, [rule']), ctxt') = Variable.import_thms false [closed_rule] ctxt;
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    val obtain_rule = Thm.forall_elim (cert (Logic.varify (Free thesis_var))) rule';
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    val ((params, stmt), fix_ctxt) = Variable.focus (Thm.cprem_of obtain_rule 1) ctxt';
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    val (prems, ctxt'') =
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      Assumption.add_assms (obtain_export fix_ctxt obtain_rule params)
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        (Drule.strip_imp_prems stmt) fix_ctxt;
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  in ((params, prems), ctxt'') end;
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(** guess **)
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local
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fun unify_params vars thesis_var raw_rule ctxt =
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  let
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    val thy = ProofContext.theory_of ctxt;
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    val certT = Thm.ctyp_of thy;
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    val cert = Thm.cterm_of thy;
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    val string_of_typ = Syntax.string_of_typ ctxt;
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    val string_of_term = setmp show_types true (Syntax.string_of_term ctxt);
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    fun err msg th = error (msg ^ ":\n" ^ ProofContext.string_of_thm ctxt th);
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    val maxidx = fold (Term.maxidx_typ o snd o fst) vars ~1;
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    val rule = Thm.incr_indexes (maxidx + 1) raw_rule;
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    val params = RuleCases.strip_params (Logic.nth_prem (1, Thm.prop_of rule));
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    val m = length vars;
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    val n = length params;
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    val _ = m <= n orelse err "More variables than parameters in obtained rule" rule;
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    fun unify ((x, T), (y, U)) (tyenv, max) = Sign.typ_unify thy (T, U) (tyenv, max)
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      handle Type.TUNIFY =>
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        err ("Failed to unify variable " ^
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          string_of_term (Free (x, Envir.norm_type tyenv T)) ^ " against parameter " ^
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          string_of_term (Syntax.mark_boundT (y, Envir.norm_type tyenv U)) ^ " in") rule;
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    val (tyenv, _) = fold unify (map #1 vars ~~ Library.take (m, params))
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      (Vartab.empty, Int.max (maxidx, Thm.maxidx_of rule));
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    val norm_type = Envir.norm_type tyenv;
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    val xs = map (apsnd norm_type o fst) vars;
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    val ys = map (apsnd norm_type) (Library.drop (m, params));
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    val ys' = map Name.internal (Name.variant_list (map fst xs) (map fst ys)) ~~ map #2 ys;
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    val terms = map (Drule.mk_term o cert o Free) (xs @ ys');
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    val instT =
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      fold (Term.add_tvarsT o #2) params []
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      |> map (TVar #> (fn T => (certT T, certT (norm_type T))));
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    val closed_rule = rule
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      |> Thm.forall_intr (cert (Free thesis_var))
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      |> Thm.instantiate (instT, []);
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    val ((_, rule' :: terms'), ctxt') = Variable.import_thms false (closed_rule :: terms) ctxt;
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    val vars' =
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      map (dest_Free o Thm.term_of o Drule.dest_term) terms' ~~
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      (map snd vars @ replicate (length ys) NoSyn);
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    val rule'' = Thm.forall_elim (cert (Logic.varify (Free thesis_var))) rule';
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  in ((vars', rule''), ctxt') end;
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fun inferred_type (binding, _, mx) ctxt =
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  let
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    val x = Name.name_of binding;
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    val (T, ctxt') = ProofContext.inferred_param x ctxt
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  in ((x, T, mx), ctxt') end;
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fun polymorphic ctxt vars =
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  let val Ts = map Logic.dest_type (Variable.polymorphic ctxt (map (Logic.mk_type o #2) vars))
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  in map2 (fn (x, _, mx) => fn T => ((x, T), mx)) vars Ts end;
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fun gen_guess prep_vars raw_vars int state =
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  let
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    val _ = Proof.assert_forward_or_chain state;
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    val thy = Proof.theory_of state;
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    val cert = Thm.cterm_of thy;
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    val ctxt = Proof.context_of state;
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    val chain_facts = if can Proof.assert_chain state then Proof.the_facts state else [];
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    val (thesis_var, thesis) = #1 (bind_judgment ctxt AutoBind.thesisN);
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    val vars = ctxt |> prep_vars raw_vars |-> fold_map inferred_type |> fst |> polymorphic ctxt;
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    fun guess_context raw_rule state' =
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      let
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        val ((parms, rule), ctxt') =
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          unify_params vars thesis_var raw_rule (Proof.context_of state');
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        val (bind, _) = ProofContext.bind_fixes (map (#1 o #1) parms) ctxt';
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        val ts = map (bind o Free o #1) parms;
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        val ps = map dest_Free ts;
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        val asms =
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          Logic.strip_assums_hyp (Logic.nth_prem (1, Thm.prop_of rule))
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          |> map (fn asm => (Term.betapplys (Term.list_abs (ps, asm), ts), []));
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        val _ = not (null asms) orelse error "Trivial result -- nothing guessed";
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      in
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        state'
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        |> Proof.map_context (K ctxt')
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        |> Proof.fix_i (map (fn ((x, T), mx) => (Name.binding x, SOME T, mx)) parms)
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        |> `Proof.context_of |-> (fn fix_ctxt => Proof.assm_i
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          (obtain_export fix_ctxt rule (map cert ts)) [((Name.no_binding, []), asms)])
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        |> Proof.add_binds_i AutoBind.no_facts
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      end;
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    val goal = Var (("guess", 0), propT);
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    fun print_result ctxt' (k, [(s, [_, th])]) =
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      ProofDisplay.print_results int ctxt' (k, [(s, [th])]);
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    val before_qed = SOME (Method.primitive_text (Goal.conclude #> MetaSimplifier.norm_hhf #>
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        (fn th => Goal.protect (Conjunction.intr (Drule.mk_term (Thm.cprop_of th)) th))));
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    fun after_qed [[_, res]] =
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      Proof.end_block #> guess_context (check_result ctxt thesis res) #> Seq.single;
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  in
wenzelm@17858
   311
    state
wenzelm@17858
   312
    |> Proof.enter_forward
wenzelm@17858
   313
    |> Proof.begin_block
wenzelm@28080
   314
    |> Proof.fix_i [(Name.binding AutoBind.thesisN, NONE, NoSyn)]
wenzelm@17858
   315
    |> Proof.chain_facts chain_facts
wenzelm@19779
   316
    |> Proof.local_goal print_result (K I) (apsnd (rpair I))
wenzelm@28080
   317
      "guess" before_qed after_qed [((Name.no_binding, []), [Logic.mk_term goal, goal])]
wenzelm@20308
   318
    |> Proof.refine (Method.primitive_text (K (Goal.init (cert thesis)))) |> Seq.hd
wenzelm@17858
   319
  end;
wenzelm@17858
   320
wenzelm@17858
   321
in
wenzelm@17858
   322
wenzelm@17858
   323
val guess = gen_guess ProofContext.read_vars;
wenzelm@17858
   324
val guess_i = gen_guess ProofContext.cert_vars;
wenzelm@17858
   325
wenzelm@17858
   326
end;
wenzelm@17858
   327
wenzelm@17858
   328
end;