src/Tools/case_product.ML
author traytel
Thu Sep 29 09:37:59 2011 +0200 (2011-09-29)
changeset 45102 7bb89635eb51
parent 44045 2814ff2a6e3e
child 45375 7fe19930dfc9
permissions -rw-r--r--
correct coercion generation in case of unknown map functions
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(*  Title:      Tools/case_product.ML
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    Author:     Lars Noschinski, TU Muenchen
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Combines two case rules into a single one.
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Assumes that the theorems are of the form
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  "[| C1; ...; Cm; A1 ==> P; ...; An ==> P |] ==> P"
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where m is given by the "consumes" attribute of the theorem.
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*)
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signature CASE_PRODUCT =
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sig
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  val combine: Proof.context -> thm -> thm -> thm
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  val combine_annotated: Proof.context -> thm -> thm -> thm
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  val setup: theory -> theory
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end;
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structure Case_Product: CASE_PRODUCT =
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struct
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(*Instantiates the conclusion of thm2 to the one of thm1.*)
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fun inst_concl thm1 thm2 =
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  let
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    val cconcl_of = Drule.strip_imp_concl o Thm.cprop_of
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  in Thm.instantiate (Thm.match (cconcl_of thm2, cconcl_of thm1)) thm2 end
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fun inst_thms thm1 thm2 ctxt =
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  let
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    val import = yield_singleton (apfst snd oo Variable.import true)
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    val (i_thm1, ctxt') = import thm1 ctxt
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    val (i_thm2, ctxt'') = import (inst_concl i_thm1 thm2) ctxt'
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  in ((i_thm1, i_thm2), ctxt'') end
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(*
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Returns list of prems, where loose bounds have been replaced by frees.
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FIXME: Focus
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*)
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fun free_prems t ctxt =
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  let
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    val bs = Term.strip_all_vars t
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    val (names, ctxt') = Variable.variant_fixes (map fst bs) ctxt
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    val subst = map Free (names ~~ map snd bs)
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    val t' = map (Term.subst_bounds o pair (rev subst)) (Logic.strip_assums_hyp t)
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  in ((t', subst), ctxt') end
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fun build_concl_prems thm1 thm2 ctxt =
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  let
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    val concl = Thm.concl_of thm1
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    fun is_consumes t = not (Logic.strip_assums_concl t aconv concl)
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    val (p_cons1, p_cases1) = chop_while is_consumes (Thm.prems_of thm1)
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    val (p_cons2, p_cases2) = chop_while is_consumes (Thm.prems_of thm2)
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    val p_cases_prod = map (fn p1 => map (fn p2 =>
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      let
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        val (((t1, subst1), (t2, subst2)), _) = ctxt
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          |> free_prems p1 ||>> free_prems p2
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      in
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        Logic.list_implies (t1 @ t2, concl)
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        |> fold_rev Logic.all (subst1 @ subst2)
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      end
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      ) p_cases2) p_cases1
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    val prems = p_cons1 :: p_cons2 :: p_cases_prod
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  in
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    (concl, prems)
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  end
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fun case_product_tac prems struc thm1 thm2 =
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  let
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    val (p_cons1 :: p_cons2 :: premss) = unflat struc prems
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    val thm2' = thm2 OF p_cons2
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  in
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    (Tactic.rtac (thm1 OF p_cons1)
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     THEN' EVERY' (map (fn p =>
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       Tactic.rtac thm2'
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       THEN' EVERY' (map (Proof_Context.fact_tac o single) p)) premss)
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    )
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  end
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fun combine ctxt thm1 thm2 =
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  let
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    val ((i_thm1, i_thm2), ctxt') = inst_thms thm1 thm2 ctxt
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    val (concl, prems_rich) = build_concl_prems i_thm1 i_thm2 ctxt'
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  in
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    Goal.prove ctxt' [] (flat prems_rich) concl (fn {prems, ...} =>
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      case_product_tac prems prems_rich i_thm1 i_thm2 1)
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    |> singleton (Variable.export ctxt' ctxt)
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  end;
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fun annotation thm1 thm2 =
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  let
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    val (cases1, cons1) = apfst (map fst) (Rule_Cases.get thm1)
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    val (cases2, cons2) = apfst (map fst) (Rule_Cases.get thm2)
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    val names = map_product (fn (x,_) => fn (y,_) => x ^ "_" ^y) cases1 cases2
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  in
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    Rule_Cases.case_names names o Rule_Cases.consumes (cons1 + cons2)
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  end
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fun combine_annotated ctxt thm1 thm2 =
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  combine ctxt thm1 thm2
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  |> snd o annotation thm1 thm2 o pair (Context.Proof ctxt)
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(* Attribute setup *)
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val case_prod_attr =
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  let
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    fun combine_list ctxt = fold (fn x => fn y => combine_annotated ctxt y x)
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  in
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    Attrib.thms >> (fn thms => Thm.rule_attribute (fn ctxt => fn thm =>
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      combine_list (Context.proof_of ctxt) thms thm))
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  end
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val setup =
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 Attrib.setup @{binding "case_product"} case_prod_attr "product with other case rules"
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end;