author Cezary Kaliszyk Wed, 04 Apr 2012 20:40:39 +0200 changeset 47365 7b09206bb74b parent 47364 637074507956 (current diff) parent 47362 b1f099bdfbba (diff) child 47366 f5a304ca037e child 47369 f483be2fecb9
merge
--- a/src/HOL/Quotient.thy	Wed Apr 04 20:10:21 2012 +0200
+++ b/src/HOL/Quotient.thy	Wed Apr 04 20:40:39 2012 +0200
@@ -772,6 +772,32 @@
using assms
by (rule OOO_quotient3) auto

+subsection {* Quotient3 to Quotient *}
+
+lemma Quotient3_to_Quotient:
+assumes "Quotient3 R Abs Rep"
+and "T \<equiv> \<lambda>x y. R x x \<and> Abs x = y"
+shows "Quotient R Abs Rep T"
+using assms unfolding Quotient3_def by (intro QuotientI) blast+
+
+lemma Quotient3_to_Quotient_equivp:
+assumes q: "Quotient3 R Abs Rep"
+and T_def: "T \<equiv> \<lambda>x y. Abs x = y"
+and eR: "equivp R"
+shows "Quotient R Abs Rep T"
+proof (intro QuotientI)
+  fix a
+  show "Abs (Rep a) = a" using q by(rule Quotient3_abs_rep)
+next
+  fix a
+  show "R (Rep a) (Rep a)" using q by(rule Quotient3_rep_reflp)
+next
+  fix r s
+  show "R r s = (R r r \<and> R s s \<and> Abs r = Abs s)" using q by(rule Quotient3_rel[symmetric])
+next
+  show "T = (\<lambda>x y. R x x \<and> Abs x = y)" using T_def equivp_reflp[OF eR] by simp
+qed
+
subsection {* ML setup *}

text {* Auxiliary data for the quotient package *}
--- a/src/HOL/Tools/Quotient/quotient_type.ML	Wed Apr 04 20:10:21 2012 +0200
+++ b/src/HOL/Tools/Quotient/quotient_type.ML	Wed Apr 04 20:40:39 2012 +0200
@@ -99,6 +99,54 @@
else
lthy

+infix 0 MRSL
+
+fun ants MRSL thm = fold (fn rl => fn thm => rl RS thm) ants thm
+
+fun define_cr_rel equiv_thm abs_fun lthy =
+  let
+    fun force_type_of_rel rel forced_ty =
+      let
+        val thy = Proof_Context.theory_of lthy
+        val rel_ty = (domain_type o fastype_of) rel
+        val ty_inst = Sign.typ_match thy (rel_ty, forced_ty) Vartab.empty
+      in
+        Envir.subst_term_types ty_inst rel
+      end
+
+    val (rty, qty) = (dest_funT o fastype_of) abs_fun
+    val abs_fun_graph = HOLogic.mk_eq(abs_fun \$ Bound 1, Bound 0)
+    val Abs_body = (case (HOLogic.dest_Trueprop o prop_of) equiv_thm of
+      Const (@{const_name equivp}, _) \$ _ => abs_fun_graph
+      | Const (@{const_name part_equivp}, _) \$ rel =>
+        HOLogic.mk_conj (force_type_of_rel rel rty \$ Bound 1 \$ Bound 1, abs_fun_graph)
+      | _ => error "unsupported equivalence theorem"
+      )
+    val def_term = Abs ("x", rty, Abs ("y", qty, Abs_body));
+    val qty_name = (fst o dest_Type) qty
+    val cr_rel_name = Binding.prefix_name "cr_" (Binding.qualified_name qty_name)
+    val (fixed_def_term, lthy') = yield_singleton (Variable.importT_terms) def_term lthy
+    val ((_, (_ , def_thm)), lthy'') =
+      Local_Theory.define ((cr_rel_name, NoSyn), ((Thm.def_binding cr_rel_name, []), fixed_def_term)) lthy'
+  in
+    (def_thm, lthy'')
+  end;
+
+fun setup_lifting_package quot3_thm equiv_thm lthy =
+  let
+    val (_ \$ _ \$ abs_fun \$ _) = (HOLogic.dest_Trueprop o prop_of) quot3_thm
+    val (T_def, lthy') = define_cr_rel equiv_thm abs_fun lthy
+    val quot_thm = (case (HOLogic.dest_Trueprop o prop_of) equiv_thm of
+      Const (@{const_name equivp}, _) \$ _ =>
+        [quot3_thm, T_def, equiv_thm] MRSL @{thm Quotient3_to_Quotient_equivp}
+      | Const (@{const_name part_equivp}, _) \$ _ =>
+        [quot3_thm, T_def] MRSL @{thm Quotient3_to_Quotient}
+      | _ => error "unsupported equivalence theorem"
+      )
+  in
+    Lifting_Setup.setup_lifting_infr quot_thm equiv_thm lthy'
+  end
+
fun init_quotient_infr quot_thm equiv_thm lthy =
let
val (_ \$ rel \$ abs \$ rep) = (HOLogic.dest_Trueprop o prop_of) quot_thm
@@ -115,6 +163,7 @@
(fn phi => Quotient_Info.update_quotients qty_full_name (quot_info phi)
#> Quotient_Info.update_abs_rep qty_full_name (abs_rep_info phi))
|> define_abs_type quot_thm
+      |> setup_lifting_package quot_thm equiv_thm
end

(* main function for constructing a quotient type *)