author | wenzelm |
Mon, 06 Apr 2015 17:06:48 +0200 | |
changeset 59936 | b8ffc3dc9e24 |
parent 59880 | 30687c3f2b10 |
child 60328 | 9c94e6a30d29 |
permissions | -rw-r--r-- |
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(* Title: HOL/Tools/inductive_set.ML |
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Author: Stefan Berghofer, TU Muenchen |
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Wrapper for defining inductive sets using package for inductive predicates, |
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including infrastructure for converting between predicates and sets. |
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*) |
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signature INDUCTIVE_SET = |
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sig |
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val to_set_att: thm list -> attribute |
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val to_pred_att: thm list -> attribute |
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val to_pred : thm list -> Context.generic -> thm -> thm |
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val pred_set_conv_att: attribute |
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val add_inductive_i: |
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Inductive.inductive_flags -> |
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((binding * typ) * mixfix) list -> |
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type Attrib.binding abbreviates Name.binding without attributes;
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(string * typ) list -> |
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(Attrib.binding * term) list -> thm list -> |
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local_theory -> Inductive.inductive_result * local_theory |
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val add_inductive: bool -> bool -> |
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(binding * string option * mixfix) list -> |
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(binding * string option * mixfix) list -> |
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(Attrib.binding * string) list -> (Facts.ref * Token.src list) list -> |
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local_theory -> Inductive.inductive_result * local_theory |
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val mono_add: attribute |
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val mono_del: attribute |
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val codegen_preproc: theory -> thm list -> thm list |
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end; |
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structure Inductive_Set: INDUCTIVE_SET = |
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struct |
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(***********************************************************************************) |
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(* simplifies (%x y. (x, y) : S & P x y) to (%x y. (x, y) : S Int {(x, y). P x y}) *) |
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(* and (%x y. (x, y) : S | P x y) to (%x y. (x, y) : S Un {(x, y). P x y}) *) |
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(* used for converting "strong" (co)induction rules *) |
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(***********************************************************************************) |
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val anyt = Free ("t", TFree ("'t", [])); |
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fun strong_ind_simproc tab = |
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Simplifier.simproc_global_i @{theory HOL} "strong_ind" [anyt] (fn ctxt => fn t => |
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let |
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fun close p t f = |
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let val vs = Term.add_vars t [] |
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in Drule.instantiate' [] (rev (map (SOME o Thm.cterm_of ctxt o Var) vs)) |
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(p (fold (Logic.all o Var) vs t) f) |
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end; |
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fun mkop @{const_name HOL.conj} T x = |
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SOME (Const (@{const_name Lattices.inf}, T --> T --> T), x) |
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| mkop @{const_name HOL.disj} T x = |
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SOME (Const (@{const_name Lattices.sup}, T --> T --> T), x) |
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| mkop _ _ _ = NONE; |
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fun mk_collect p T t = |
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let val U = HOLogic.dest_setT T |
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in HOLogic.Collect_const U $ |
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HOLogic.mk_psplits (HOLogic.flat_tuple_paths p) U HOLogic.boolT t |
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end; |
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fun decomp (Const (s, _) $ ((m as Const (@{const_name Set.member}, |
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Type (_, [_, Type (_, [T, _])]))) $ p $ S) $ u) = |
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mkop s T (m, p, S, mk_collect p T (head_of u)) |
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| decomp (Const (s, _) $ u $ ((m as Const (@{const_name Set.member}, |
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Type (_, [_, Type (_, [T, _])]))) $ p $ S)) = |
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mkop s T (m, p, mk_collect p T (head_of u), S) |
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| decomp _ = NONE; |
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val simp = |
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full_simp_tac |
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(put_simpset HOL_basic_ss ctxt addsimps [mem_Collect_eq, @{thm split_conv}]) 1; |
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fun mk_rew t = (case strip_abs_vars t of |
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[] => NONE |
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| xs => (case decomp (strip_abs_body t) of |
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NONE => NONE |
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| SOME (bop, (m, p, S, S')) => |
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SOME (close (Goal.prove ctxt [] []) |
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(Logic.mk_equals (t, fold_rev Term.abs xs (m $ p $ (bop $ S $ S')))) |
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(K (EVERY |
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[resolve_tac ctxt [eq_reflection] 1, |
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REPEAT (resolve_tac ctxt @{thms ext} 1), |
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resolve_tac ctxt [iffI] 1, |
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EVERY [eresolve_tac ctxt [conjE] 1, resolve_tac ctxt [IntI] 1, simp, simp, |
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eresolve_tac ctxt [IntE] 1, resolve_tac ctxt [conjI] 1, simp, simp] ORELSE |
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EVERY [eresolve_tac ctxt [disjE] 1, resolve_tac ctxt [UnI1] 1, simp, |
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resolve_tac ctxt [UnI2] 1, simp, |
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eresolve_tac ctxt [UnE] 1, resolve_tac ctxt [disjI1] 1, simp, |
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resolve_tac ctxt [disjI2] 1, simp]]))) |
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handle ERROR _ => NONE)) |
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in |
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case strip_comb t of |
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(h as Const (name, _), ts) => (case Symtab.lookup tab name of |
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SOME _ => |
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let val rews = map mk_rew ts |
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in |
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if forall is_none rews then NONE |
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else SOME (fold (fn th1 => fn th2 => Thm.combination th2 th1) |
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(map2 (fn SOME r => K r | NONE => Thm.reflexive o Thm.cterm_of ctxt) |
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rews ts) (Thm.reflexive (Thm.cterm_of ctxt h))) |
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end |
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| NONE => NONE) |
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| _ => NONE |
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end); |
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(* only eta contract terms occurring as arguments of functions satisfying p *) |
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fun eta_contract p = |
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let |
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fun eta b (Abs (a, T, body)) = |
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(case eta b body of |
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body' as (f $ Bound 0) => |
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if Term.is_dependent f orelse not b then Abs (a, T, body') |
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else incr_boundvars ~1 f |
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| body' => Abs (a, T, body')) |
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| eta b (t $ u) = eta b t $ eta (p (head_of t)) u |
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| eta b t = t |
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in eta false end; |
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fun eta_contract_thm p = |
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Conv.fconv_rule (Conv.then_conv (Thm.beta_conversion true, fn ct => |
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Thm.transitive (Thm.eta_conversion ct) |
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(Thm.symmetric (Thm.eta_conversion |
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(Thm.global_cterm_of (Thm.theory_of_cterm ct) (eta_contract p (Thm.term_of ct))))))); |
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(***********************************************************) |
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(* rules for converting between predicate and set notation *) |
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(* *) |
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(* rules for converting predicates to sets have the form *) |
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(* P (%x y. (x, y) : s) = (%x y. (x, y) : S s) *) |
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(* *) |
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(* rules for converting sets to predicates have the form *) |
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(* S {(x, y). p x y} = {(x, y). P p x y} *) |
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(* *) |
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(* where s and p are parameters *) |
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(***********************************************************) |
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|
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structure Data = Generic_Data |
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( |
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type T = |
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{(* rules for converting predicates to sets *) |
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to_set_simps: thm list, |
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(* rules for converting sets to predicates *) |
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to_pred_simps: thm list, |
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(* arities of functions of type t set => ... => u set *) |
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set_arities: (typ * (int list list option list * int list list option)) list Symtab.table, |
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(* arities of functions of type (t => ... => bool) => u => ... => bool *) |
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pred_arities: (typ * (int list list option list * int list list option)) list Symtab.table}; |
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val empty = {to_set_simps = [], to_pred_simps = [], |
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set_arities = Symtab.empty, pred_arities = Symtab.empty}; |
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val extend = I; |
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fun merge |
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({to_set_simps = to_set_simps1, to_pred_simps = to_pred_simps1, |
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set_arities = set_arities1, pred_arities = pred_arities1}, |
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{to_set_simps = to_set_simps2, to_pred_simps = to_pred_simps2, |
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set_arities = set_arities2, pred_arities = pred_arities2}) : T = |
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{to_set_simps = Thm.merge_thms (to_set_simps1, to_set_simps2), |
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to_pred_simps = Thm.merge_thms (to_pred_simps1, to_pred_simps2), |
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set_arities = Symtab.merge_list (op =) (set_arities1, set_arities2), |
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pred_arities = Symtab.merge_list (op =) (pred_arities1, pred_arities2)}; |
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); |
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|
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fun name_type_of (Free p) = SOME p |
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| name_type_of (Const p) = SOME p |
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| name_type_of _ = NONE; |
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|
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fun map_type f (Free (s, T)) = Free (s, f T) |
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| map_type f (Var (ixn, T)) = Var (ixn, f T) |
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| map_type f _ = error "map_type"; |
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|
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fun find_most_specific is_inst f eq xs T = |
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find_first (fn U => is_inst (T, f U) |
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andalso forall (fn U' => eq (f U, f U') orelse not |
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(is_inst (T, f U') andalso is_inst (f U', f U))) |
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xs) xs; |
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|
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fun lookup_arity thy arities (s, T) = case Symtab.lookup arities s of |
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NONE => NONE |
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| SOME xs => find_most_specific (Sign.typ_instance thy) fst (op =) xs T; |
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|
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fun lookup_rule thy f rules = find_most_specific |
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(swap #> Pattern.matches thy) (f #> fst) (op aconv) rules; |
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|
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fun infer_arities thy arities (optf, t) fs = case strip_comb t of |
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(Abs (_, _, u), []) => infer_arities thy arities (NONE, u) fs |
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| (Abs _, _) => infer_arities thy arities (NONE, Envir.beta_norm t) fs |
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| (u, ts) => (case Option.map (lookup_arity thy arities) (name_type_of u) of |
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SOME (SOME (_, (arity, _))) => |
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(fold (infer_arities thy arities) (arity ~~ List.take (ts, length arity)) fs |
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handle General.Subscript => error "infer_arities: bad term") |
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| _ => fold (infer_arities thy arities) (map (pair NONE) ts) |
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(case optf of |
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NONE => fs |
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| SOME f => AList.update op = (u, the_default f |
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(Option.map (fn g => inter (op =) g f) (AList.lookup op = fs u))) fs)); |
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|
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|
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(**************************************************************) |
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(* derive the to_pred equation from the to_set equation *) |
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(* *) |
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(* 1. instantiate each set parameter with {(x, y). p x y} *) |
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(* 2. apply %P. {(x, y). P x y} to both sides of the equation *) |
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(* 3. simplify *) |
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(**************************************************************) |
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fun mk_to_pred_inst ctxt fs = |
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map (fn (x, ps) => |
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let |
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val (Ts, T) = strip_type (fastype_of x); |
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val U = HOLogic.dest_setT T; |
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val x' = map_type |
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(K (Ts @ HOLogic.strip_ptupleT ps U ---> HOLogic.boolT)) x; |
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in |
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(Thm.cterm_of ctxt x, |
211 |
Thm.cterm_of ctxt (fold_rev (Term.abs o pair "x") Ts |
|
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(HOLogic.Collect_const U $ |
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HOLogic.mk_psplits ps U HOLogic.boolT |
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(list_comb (x', map Bound (length Ts - 1 downto 0)))))) |
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end) fs; |
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|
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fun mk_to_pred_eq ctxt p fs optfs' T thm = |
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let |
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val insts = mk_to_pred_inst ctxt fs; |
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val thm' = Thm.instantiate ([], insts) thm; |
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val thm'' = |
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(case optfs' of |
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NONE => thm' RS sym |
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| SOME fs' => |
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let |
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val U = HOLogic.dest_setT (body_type T); |
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val Ts = HOLogic.strip_ptupleT fs' U; |
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(* FIXME: should cterm_instantiate increment indexes? *) |
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val arg_cong' = Thm.incr_indexes (Thm.maxidx_of thm + 1) arg_cong; |
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val (arg_cong_f, _) = arg_cong' |> Thm.cprop_of |> Drule.strip_imp_concl |> |
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Thm.dest_comb |> snd |> Drule.strip_comb |> snd |> hd |> Thm.dest_comb |
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in |
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thm' RS (Drule.cterm_instantiate [(arg_cong_f, |
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Thm.cterm_of ctxt (Abs ("P", Ts ---> HOLogic.boolT, |
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HOLogic.Collect_const U $ HOLogic.mk_psplits fs' U |
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HOLogic.boolT (Bound 0))))] arg_cong' RS sym) |
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end) |
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in |
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Simplifier.simplify (put_simpset HOL_basic_ss ctxt addsimps [mem_Collect_eq, @{thm split_conv}] |
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addsimprocs [@{simproc Collect_mem}]) thm'' |> |
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zero_var_indexes |> eta_contract_thm (equal p) |
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242 |
end; |
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243 |
|
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244 |
|
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(**** declare rules for converting predicates to sets ****) |
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246 |
|
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exception Malformed of string; |
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248 |
|
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fun add context thm (tab as {to_set_simps, to_pred_simps, set_arities, pred_arities}) = |
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(case Thm.prop_of thm of |
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Const (@{const_name Trueprop}, _) $ (Const (@{const_name HOL.eq}, Type (_, [T, _])) $ lhs $ rhs) => |
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(case body_type T of |
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@{typ bool} => |
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let |
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val thy = Context.theory_of context; |
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val ctxt = Context.proof_of context; |
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fun factors_of t fs = case strip_abs_body t of |
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Const (@{const_name Set.member}, _) $ u $ S => |
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if is_Free S orelse is_Var S then |
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let val ps = HOLogic.flat_tuple_paths u |
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in (SOME ps, (S, ps) :: fs) end |
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else (NONE, fs) |
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| _ => (NONE, fs); |
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val (h, ts) = strip_comb lhs |
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val (pfs, fs) = fold_map factors_of ts []; |
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val ((h', ts'), fs') = (case rhs of |
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Abs _ => (case strip_abs_body rhs of |
37677 | 268 |
Const (@{const_name Set.member}, _) $ u $ S => |
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(strip_comb S, SOME (HOLogic.flat_tuple_paths u)) |
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| _ => raise Malformed "member symbol on right-hand side expected") |
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| _ => (strip_comb rhs, NONE)) |
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in |
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case (name_type_of h, name_type_of h') of |
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(SOME (s, T), SOME (s', T')) => |
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if exists (fn (U, _) => |
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Sign.typ_instance thy (T', U) andalso |
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Sign.typ_instance thy (U, T')) |
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(Symtab.lookup_list set_arities s') |
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279 |
then |
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(if Context_Position.is_really_visible ctxt then |
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warning ("Ignoring conversion rule for operator " ^ s') |
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282 |
else (); tab) |
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283 |
else |
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284 |
{to_set_simps = thm :: to_set_simps, |
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285 |
to_pred_simps = |
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286 |
mk_to_pred_eq ctxt h fs fs' T' thm :: to_pred_simps, |
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set_arities = Symtab.insert_list op = (s', |
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288 |
(T', (map (AList.lookup op = fs) ts', fs'))) set_arities, |
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289 |
pred_arities = Symtab.insert_list op = (s, |
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(T, (pfs, fs'))) pred_arities} |
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291 |
| _ => raise Malformed "set / predicate constant expected" |
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292 |
end |
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293 |
| _ => raise Malformed "equation between predicates expected") |
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294 |
| _ => raise Malformed "equation expected") |
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295 |
handle Malformed msg => |
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296 |
let |
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297 |
val ctxt = Context.proof_of context |
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298 |
val _ = |
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299 |
if Context_Position.is_really_visible ctxt then |
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300 |
warning ("Ignoring malformed set / predicate conversion rule: " ^ msg ^ |
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301 |
"\n" ^ Display.string_of_thm ctxt thm) |
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302 |
else (); |
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303 |
in tab end; |
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304 |
|
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305 |
val pred_set_conv_att = Thm.declaration_attribute |
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306 |
(fn thm => fn ctxt => Data.map (add ctxt thm) ctxt); |
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307 |
|
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308 |
|
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309 |
(**** convert theorem in set notation to predicate notation ****) |
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310 |
|
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311 |
fun is_pred tab t = |
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312 |
case Option.map (Symtab.lookup tab o fst) (name_type_of t) of |
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313 |
SOME (SOME _) => true | _ => false; |
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314 |
|
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315 |
fun to_pred_simproc rules = |
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316 |
let val rules' = map mk_meta_eq rules |
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317 |
in |
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318 |
Simplifier.simproc_global_i @{theory HOL} "to_pred" [anyt] |
59582 | 319 |
(fn ctxt => |
320 |
lookup_rule (Proof_Context.theory_of ctxt) (Thm.prop_of #> Logic.dest_equals) rules') |
|
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321 |
end; |
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|
322 |
|
59642 | 323 |
fun to_pred_proc thy rules t = |
324 |
case lookup_rule thy I rules t of |
|
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325 |
NONE => NONE |
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326 |
| SOME (lhs, rhs) => |
32035 | 327 |
SOME (Envir.subst_term |
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328 |
(Pattern.match thy (lhs, t) (Vartab.empty, Vartab.empty)) rhs); |
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|
329 |
|
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|
330 |
fun to_pred thms context thm = |
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|
331 |
let |
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simplifier uses proper Proof.context instead of historic type simpset;
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|
332 |
val thy = Context.theory_of context; |
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simplifier uses proper Proof.context instead of historic type simpset;
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|
333 |
val ctxt = Context.proof_of context; |
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|
334 |
val {to_pred_simps, set_arities, pred_arities, ...} = |
51717
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simplifier uses proper Proof.context instead of historic type simpset;
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|
335 |
fold (add context) thms (Data.get context); |
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336 |
val fs = filter (is_Var o fst) |
59582 | 337 |
(infer_arities thy set_arities (NONE, Thm.prop_of thm) []); |
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|
338 |
(* instantiate each set parameter with {(x, y). p x y} *) |
59642 | 339 |
val insts = mk_to_pred_inst ctxt fs |
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|
340 |
in |
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|
341 |
thm |> |
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|
342 |
Thm.instantiate ([], insts) |> |
51717
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simplifier uses proper Proof.context instead of historic type simpset;
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changeset
|
343 |
Simplifier.full_simplify (put_simpset HOL_basic_ss ctxt addsimprocs |
37136 | 344 |
[to_pred_simproc (mem_Collect_eq :: @{thm split_conv} :: to_pred_simps)]) |> |
25416
1d8ebaf5f211
to_pred and to_set now save induction and case rule tags.
berghofe
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diff
changeset
|
345 |
eta_contract_thm (is_pred pred_arities) |> |
33368 | 346 |
Rule_Cases.save thm |
23764
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|
347 |
end; |
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|
348 |
|
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|
349 |
val to_pred_att = Thm.rule_attribute o to_pred; |
45979 | 350 |
|
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|
351 |
|
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|
352 |
(**** convert theorem in predicate notation to set notation ****) |
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|
353 |
|
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|
354 |
fun to_set thms context thm = |
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|
355 |
let |
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simplifier uses proper Proof.context instead of historic type simpset;
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changeset
|
356 |
val thy = Context.theory_of context; |
9e7d1c139569
simplifier uses proper Proof.context instead of historic type simpset;
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|
357 |
val ctxt = Context.proof_of context; |
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|
358 |
val {to_set_simps, pred_arities, ...} = |
51717
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simplifier uses proper Proof.context instead of historic type simpset;
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parents:
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|
359 |
fold (add context) thms (Data.get context); |
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New wrapper for defining inductive sets with new inductive
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|
360 |
val fs = filter (is_Var o fst) |
59582 | 361 |
(infer_arities thy pred_arities (NONE, Thm.prop_of thm) []); |
23764
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|
362 |
(* instantiate each predicate parameter with %x y. (x, y) : s *) |
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|
363 |
val insts = map (fn (x, ps) => |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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|
364 |
let |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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parents:
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changeset
|
365 |
val Ts = binder_types (fastype_of x); |
46828
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
366 |
val l = length Ts; |
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
367 |
val k = length ps; |
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
368 |
val (Rs, Us) = chop (l - k - 1) Ts; |
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
369 |
val T = HOLogic.mk_ptupleT ps Us; |
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
370 |
val x' = map_type (K (Rs ---> HOLogic.mk_setT T)) x |
23764
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New wrapper for defining inductive sets with new inductive
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changeset
|
371 |
in |
59642 | 372 |
(Thm.cterm_of ctxt x, |
373 |
Thm.cterm_of ctxt (fold_rev (Term.abs o pair "x") Ts |
|
46828
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
374 |
(HOLogic.mk_mem (HOLogic.mk_ptuple ps T (map Bound (k downto 0)), |
b1d15637381a
to_pred/set attributes now properly handle variables of type "... => T set"
berghofe
parents:
46219
diff
changeset
|
375 |
list_comb (x', map Bound (l - 1 downto k + 1)))))) |
46219
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
376 |
end) fs; |
23764
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New wrapper for defining inductive sets with new inductive
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|
377 |
in |
25416
1d8ebaf5f211
to_pred and to_set now save induction and case rule tags.
berghofe
parents:
25016
diff
changeset
|
378 |
thm |> |
1d8ebaf5f211
to_pred and to_set now save induction and case rule tags.
berghofe
parents:
25016
diff
changeset
|
379 |
Thm.instantiate ([], insts) |> |
51717
9e7d1c139569
simplifier uses proper Proof.context instead of historic type simpset;
wenzelm
parents:
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diff
changeset
|
380 |
Simplifier.full_simplify (put_simpset HOL_basic_ss ctxt addsimps to_set_simps |
56512 | 381 |
addsimprocs [strong_ind_simproc pred_arities, @{simproc Collect_mem}]) |> |
33368 | 382 |
Rule_Cases.save thm |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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parents:
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changeset
|
383 |
end; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
384 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
385 |
val to_set_att = Thm.rule_attribute o to_set; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
386 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
387 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
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changeset
|
388 |
(**** preprocessor for code generator ****) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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changeset
|
389 |
|
54895 | 390 |
(* FIXME unused!? *) |
391 |
fun codegen_preproc thy = (* FIXME proper context!? *) |
|
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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parents:
diff
changeset
|
392 |
let |
54895 | 393 |
val ctxt = Proof_Context.init_global thy; |
23764
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New wrapper for defining inductive sets with new inductive
berghofe
parents:
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changeset
|
394 |
val {to_pred_simps, set_arities, pred_arities, ...} = |
50774
ac53370dfae1
more tolerant set/pred rule declaration to improve "tool compliance", notably for "context assumes";
wenzelm
parents:
49324
diff
changeset
|
395 |
Data.get (Context.Theory thy); |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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changeset
|
396 |
fun preproc thm = |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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changeset
|
397 |
if exists_Const (fn (s, _) => case Symtab.lookup set_arities s of |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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parents:
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changeset
|
398 |
NONE => false |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
399 |
| SOME arities => exists (fn (_, (xs, _)) => |
59582 | 400 |
forall is_none xs) arities) (Thm.prop_of thm) |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
401 |
then |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
402 |
thm |> |
54895 | 403 |
Simplifier.full_simplify (put_simpset HOL_basic_ss ctxt addsimprocs |
37136 | 404 |
[to_pred_simproc (mem_Collect_eq :: @{thm split_conv} :: to_pred_simps)]) |> |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
405 |
eta_contract_thm (is_pred pred_arities) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
406 |
else thm |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
407 |
in map preproc end; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
408 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
409 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
410 |
(**** definition of inductive sets ****) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
411 |
|
29389 | 412 |
fun add_ind_set_def |
49170
03bee3a6a1b7
discontinued obsolete fork_mono to loosen some brakes -- NB: TTY interaction has Goal.future_proofs disabled due to missing Future.worker_task;
wenzelm
parents:
46961
diff
changeset
|
413 |
{quiet_mode, verbose, alt_name, coind, no_elim, no_ind, skip_mono} |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
414 |
cs intros monos params cnames_syn lthy = |
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
415 |
let |
42361 | 416 |
val thy = Proof_Context.theory_of lthy; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
417 |
val {set_arities, pred_arities, to_pred_simps, ...} = |
50774
ac53370dfae1
more tolerant set/pred rule declaration to improve "tool compliance", notably for "context assumes";
wenzelm
parents:
49324
diff
changeset
|
418 |
Data.get (Context.Proof lthy); |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
419 |
fun infer (Abs (_, _, t)) = infer t |
37677 | 420 |
| infer (Const (@{const_name Set.member}, _) $ t $ u) = |
32287
65d5c5b30747
cleaned up abstract tuple operations and named them consistently
haftmann
parents:
32135
diff
changeset
|
421 |
infer_arities thy set_arities (SOME (HOLogic.flat_tuple_paths t), u) |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
422 |
| infer (t $ u) = infer t #> infer u |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
423 |
| infer _ = I; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
424 |
val new_arities = filter_out |
45979 | 425 |
(fn (x as Free (_, T), _) => member (op =) params x andalso length (binder_types T) > 0 |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
426 |
| _ => false) (fold (snd #> infer) intros []); |
33278 | 427 |
val params' = map (fn x => |
428 |
(case AList.lookup op = new_arities x of |
|
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
429 |
SOME fs => |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
430 |
let |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
431 |
val T = HOLogic.dest_setT (fastype_of x); |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32287
diff
changeset
|
432 |
val Ts = HOLogic.strip_ptupleT fs T; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
433 |
val x' = map_type (K (Ts ---> HOLogic.boolT)) x |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
434 |
in |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
435 |
(x, (x', |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
436 |
(HOLogic.Collect_const T $ |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32287
diff
changeset
|
437 |
HOLogic.mk_psplits fs T HOLogic.boolT x', |
46219
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
438 |
fold_rev (Term.abs o pair "x") Ts |
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
439 |
(HOLogic.mk_mem |
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
440 |
(HOLogic.mk_ptuple fs T (map Bound (length fs downto 0)), x))))) |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
441 |
end |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
442 |
| NONE => (x, (x, (x, x))))) params; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
443 |
val (params1, (params2, params3)) = |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
444 |
params' |> map snd |> split_list ||> split_list; |
30860
e5f9477aed50
Added check whether argument types of inductive set agree with types of declared
berghofe
parents:
30528
diff
changeset
|
445 |
val paramTs = map fastype_of params; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
446 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
447 |
(* equations for converting sets to predicates *) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
448 |
val ((cs', cs_info), eqns) = cs |> map (fn c as Free (s, T) => |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
449 |
let |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
450 |
val fs = the_default [] (AList.lookup op = new_arities c); |
45979 | 451 |
val (Us, U) = strip_type T |> apsnd HOLogic.dest_setT; |
30860
e5f9477aed50
Added check whether argument types of inductive set agree with types of declared
berghofe
parents:
30528
diff
changeset
|
452 |
val _ = Us = paramTs orelse error (Pretty.string_of (Pretty.chunks |
e5f9477aed50
Added check whether argument types of inductive set agree with types of declared
berghofe
parents:
30528
diff
changeset
|
453 |
[Pretty.str "Argument types", |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
454 |
Pretty.block (Pretty.commas (map (Syntax.pretty_typ lthy) Us)), |
30860
e5f9477aed50
Added check whether argument types of inductive set agree with types of declared
berghofe
parents:
30528
diff
changeset
|
455 |
Pretty.str ("of " ^ s ^ " do not agree with types"), |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
456 |
Pretty.block (Pretty.commas (map (Syntax.pretty_typ lthy) paramTs)), |
30860
e5f9477aed50
Added check whether argument types of inductive set agree with types of declared
berghofe
parents:
30528
diff
changeset
|
457 |
Pretty.str "of declared parameters"])); |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32287
diff
changeset
|
458 |
val Ts = HOLogic.strip_ptupleT fs U; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
459 |
val c' = Free (s ^ "p", |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
460 |
map fastype_of params1 @ Ts ---> HOLogic.boolT) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
461 |
in |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
462 |
((c', (fs, U, Ts)), |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
463 |
(list_comb (c, params2), |
32342
3fabf5b5fc83
path-sensitive tuple combinators carry a "p"(ath) prefix; combinators for standard right-fold tuples
haftmann
parents:
32287
diff
changeset
|
464 |
HOLogic.Collect_const U $ HOLogic.mk_psplits fs U HOLogic.boolT |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
465 |
(list_comb (c', params1)))) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
466 |
end) |> split_list |>> split_list; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
467 |
val eqns' = eqns @ |
59582 | 468 |
map (Thm.prop_of #> HOLogic.dest_Trueprop #> HOLogic.dest_eq) |
37136 | 469 |
(mem_Collect_eq :: @{thm split_conv} :: to_pred_simps); |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
470 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
471 |
(* predicate version of the introduction rules *) |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
472 |
val intros' = |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
473 |
map (fn (name_atts, t) => (name_atts, |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
474 |
t |> |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
475 |
map_aterms (fn u => |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
476 |
(case AList.lookup op = params' u of |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
477 |
SOME (_, (u', _)) => u' |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
478 |
| NONE => u)) |> |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
479 |
Pattern.rewrite_term thy [] [to_pred_proc thy eqns'] |> |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
480 |
eta_contract (member op = cs' orf is_pred pred_arities))) intros; |
30345 | 481 |
val cnames_syn' = map (fn (b, _) => (Binding.suffix_name "p" b, NoSyn)) cnames_syn; |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
482 |
val monos' = map (to_pred [] (Context.Proof lthy)) monos; |
38665
e92223c886f8
introducing simplification equations for inductive sets; added data structure for storing equations; rewriting retrieval of simplification equation for inductive predicates and sets
bulwahn
parents:
37863
diff
changeset
|
483 |
val ({preds, intrs, elims, raw_induct, eqs, ...}, lthy1) = |
31723
f5cafe803b55
discontinued ancient tradition to suffix certain ML module names with "_package"
haftmann
parents:
30860
diff
changeset
|
484 |
Inductive.add_ind_def |
33669 | 485 |
{quiet_mode = quiet_mode, verbose = verbose, alt_name = Binding.empty, |
49170
03bee3a6a1b7
discontinued obsolete fork_mono to loosen some brakes -- NB: TTY interaction has Goal.future_proofs disabled due to missing Future.worker_task;
wenzelm
parents:
46961
diff
changeset
|
486 |
coind = coind, no_elim = no_elim, no_ind = no_ind, skip_mono = skip_mono} |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
487 |
cs' intros' monos' params1 cnames_syn' lthy; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
488 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
489 |
(* define inductive sets using previously defined predicates *) |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
490 |
val (defs, lthy2) = lthy1 |
59880
30687c3f2b10
clarified role of naming for background theory: transform_binding (e.g. for "concealed" flag) uses naming of hypothetical context;
wenzelm
parents:
59859
diff
changeset
|
491 |
|> Proof_Context.concealed (* FIXME ?? *) |
33766
c679f05600cd
adapted Local_Theory.define -- eliminated odd thm kind;
wenzelm
parents:
33671
diff
changeset
|
492 |
|> fold_map Local_Theory.define |
46909 | 493 |
(map (fn (((c, syn), (fs, U, _)), p) => ((c, syn), ((Thm.def_binding c, []), |
33278 | 494 |
fold_rev lambda params (HOLogic.Collect_const U $ |
495 |
HOLogic.mk_psplits fs U HOLogic.boolT (list_comb (p, params3)))))) |
|
496 |
(cnames_syn ~~ cs_info ~~ preds)) |
|
59880
30687c3f2b10
clarified role of naming for background theory: transform_binding (e.g. for "concealed" flag) uses naming of hypothetical context;
wenzelm
parents:
59859
diff
changeset
|
497 |
||> Proof_Context.restore_naming lthy1; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
498 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
499 |
(* prove theorems for converting predicate to set notation *) |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
500 |
val lthy3 = fold |
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
501 |
(fn (((p, c as Free (s, _)), (fs, U, Ts)), (_, (_, def))) => fn lthy => |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
502 |
let val conv_thm = |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
503 |
Goal.prove lthy (map (fst o dest_Free) params) [] |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
504 |
(HOLogic.mk_Trueprop (HOLogic.mk_eq |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
505 |
(list_comb (p, params3), |
46219
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
506 |
fold_rev (Term.abs o pair "x") Ts |
426ed18eba43
discontinued old-style Term.list_abs in favour of plain Term.abs;
wenzelm
parents:
45979
diff
changeset
|
507 |
(HOLogic.mk_mem (HOLogic.mk_ptuple fs U (map Bound (length fs downto 0)), |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
508 |
list_comb (c, params)))))) |
59498
50b60f501b05
proper context for resolve_tac, eresolve_tac, dresolve_tac, forward_tac etc.;
wenzelm
parents:
58839
diff
changeset
|
509 |
(K (REPEAT (resolve_tac lthy @{thms ext} 1) THEN |
58839 | 510 |
simp_tac (put_simpset HOL_basic_ss lthy addsimps |
511 |
[def, mem_Collect_eq, @{thm split_conv}]) 1)) |
|
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
512 |
in |
33671 | 513 |
lthy |> Local_Theory.note ((Binding.name (s ^ "p_" ^ s ^ "_eq"), |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
514 |
[Attrib.internal (K pred_set_conv_att)]), |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
515 |
[conv_thm]) |> snd |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
516 |
end) (preds ~~ cs ~~ cs_info ~~ defs) lthy2; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
517 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
518 |
(* convert theorems to set notation *) |
28083
103d9282a946
explicit type Name.binding for higher-specification elements;
wenzelm
parents:
27330
diff
changeset
|
519 |
val rec_name = |
28965 | 520 |
if Binding.is_empty alt_name then |
30223
24d975352879
renamed Binding.name_pos to Binding.make, renamed Binding.base_name to Binding.name_of, renamed Binding.map_base to Binding.map_name, added mandatory flag to Binding.qualify;
wenzelm
parents:
30089
diff
changeset
|
521 |
Binding.name (space_implode "_" (map (Binding.name_of o fst) cnames_syn)) |
28083
103d9282a946
explicit type Name.binding for higher-specification elements;
wenzelm
parents:
27330
diff
changeset
|
522 |
else alt_name; |
33671 | 523 |
val cnames = map (Local_Theory.full_name lthy3 o #1) cnames_syn; (* FIXME *) |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
524 |
val (intr_names, intr_atts) = split_list (map fst intros); |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
525 |
val raw_induct' = to_set [] (Context.Proof lthy3) raw_induct; |
37734
489ac1ecb9f1
added the new command inductive_cases to derive simplification equations for inductive predicates; added binding simps for general simplification equation
bulwahn
parents:
37677
diff
changeset
|
526 |
val (intrs', elims', eqs', induct, inducts, lthy4) = |
35757
c2884bec5463
adding Spec_Rules to definitional package inductive and inductive_set
bulwahn
parents:
35646
diff
changeset
|
527 |
Inductive.declare_rules rec_name coind no_ind cnames (map fst defs) |
33459 | 528 |
(map (to_set [] (Context.Proof lthy3)) intrs) intr_names intr_atts |
529 |
(map (fn th => (to_set [] (Context.Proof lthy3) th, |
|
44045
2814ff2a6e3e
infrastructure for attaching names to hypothesis in cases; realised via the same tag mechanism as case names
nipkow
parents:
43278
diff
changeset
|
530 |
map (fst o fst) (fst (Rule_Cases.get th)), |
34986
7f7939c9370f
Added "constraints" tag / attribute for specifying the number of equality
berghofe
parents:
34903
diff
changeset
|
531 |
Rule_Cases.get_constraints th)) elims) |
38665
e92223c886f8
introducing simplification equations for inductive sets; added data structure for storing equations; rewriting retrieval of simplification equation for inductive predicates and sets
bulwahn
parents:
37863
diff
changeset
|
532 |
(map (to_set [] (Context.Proof lthy3)) eqs) raw_induct' lthy3; |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
533 |
in |
35646 | 534 |
({intrs = intrs', elims = elims', induct = induct, inducts = inducts, |
37734
489ac1ecb9f1
added the new command inductive_cases to derive simplification equations for inductive predicates; added binding simps for general simplification equation
bulwahn
parents:
37677
diff
changeset
|
535 |
raw_induct = raw_induct', preds = map fst defs, eqs = eqs'}, |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
wenzelm
parents:
33368
diff
changeset
|
536 |
lthy4) |
23764
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
537 |
end; |
15f81c5d5330
New wrapper for defining inductive sets with new inductive
berghofe
parents:
diff
changeset
|
538 |
|
31723
f5cafe803b55
discontinued ancient tradition to suffix certain ML module names with "_package"
haftmann
parents:
30860
diff
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539 |
val add_inductive_i = Inductive.gen_add_inductive_i add_ind_set_def; |
f5cafe803b55
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|
540 |
val add_inductive = Inductive.gen_add_inductive add_ind_set_def; |
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|
541 |
|
45384
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clarified attribute "mono_set": pure declaration, proper export in ML;
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|
542 |
fun mono_att att = |
dffa657f0aa2
clarified attribute "mono_set": pure declaration, proper export in ML;
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changeset
|
543 |
Thm.declaration_attribute (fn thm => fn context => |
dffa657f0aa2
clarified attribute "mono_set": pure declaration, proper export in ML;
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|
544 |
Thm.attribute_declaration att (to_pred [] context thm) context); |
45375
7fe19930dfc9
more explicit representation of rule_attribute vs. declaration_attribute vs. mixed_attribute;
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diff
changeset
|
545 |
|
45384
dffa657f0aa2
clarified attribute "mono_set": pure declaration, proper export in ML;
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changeset
|
546 |
val mono_add = mono_att Inductive.mono_add; |
dffa657f0aa2
clarified attribute "mono_set": pure declaration, proper export in ML;
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parents:
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changeset
|
547 |
val mono_del = mono_att Inductive.mono_del; |
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New wrapper for defining inductive sets with new inductive
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parents:
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changeset
|
548 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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changeset
|
549 |
|
15f81c5d5330
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|
550 |
(** package setup **) |
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New wrapper for defining inductive sets with new inductive
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|
551 |
|
56512 | 552 |
(* attributes *) |
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|
553 |
|
56512 | 554 |
val _ = |
555 |
Theory.setup |
|
556 |
(Attrib.setup @{binding pred_set_conv} (Scan.succeed pred_set_conv_att) |
|
557 |
"declare rules for converting between predicate and set notation" #> |
|
558 |
Attrib.setup @{binding to_set} (Attrib.thms >> to_set_att) |
|
559 |
"convert rule to set notation" #> |
|
560 |
Attrib.setup @{binding to_pred} (Attrib.thms >> to_pred_att) |
|
561 |
"convert rule to predicate notation" #> |
|
562 |
Attrib.setup @{binding mono_set} (Attrib.add_del mono_add mono_del) |
|
563 |
"declare of monotonicity rule for set operators"); |
|
30528 | 564 |
|
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New wrapper for defining inductive sets with new inductive
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|
565 |
|
56512 | 566 |
(* commands *) |
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New wrapper for defining inductive sets with new inductive
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changeset
|
567 |
|
31723
f5cafe803b55
discontinued ancient tradition to suffix certain ML module names with "_package"
haftmann
parents:
30860
diff
changeset
|
568 |
val ind_set_decl = Inductive.gen_ind_decl add_ind_set_def; |
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New wrapper for defining inductive sets with new inductive
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|
569 |
|
24867 | 570 |
val _ = |
59936
b8ffc3dc9e24
@{command_spec} is superseded by @{command_keyword};
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|
571 |
Outer_Syntax.local_theory @{command_keyword inductive_set} "define inductive sets" |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
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parents:
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changeset
|
572 |
(ind_set_decl false); |
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changeset
|
573 |
|
24867 | 574 |
val _ = |
59936
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@{command_spec} is superseded by @{command_keyword};
wenzelm
parents:
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diff
changeset
|
575 |
Outer_Syntax.local_theory @{command_keyword coinductive_set} "define coinductive sets" |
33458
ae1f5d89b082
proper naming convention lthy: local_theory, but ctxt: Proof.context for arbitrary context;
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changeset
|
576 |
(ind_set_decl true); |
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New wrapper for defining inductive sets with new inductive
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|
577 |
|
15f81c5d5330
New wrapper for defining inductive sets with new inductive
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|
578 |
end; |