src/HOL/Codegenerator_Test/RBT_Set_Test.thy

--- a/src/HOL/Codegenerator_Test/RBT_Set_Test.thy	Fri Feb 15 11:47:33 2013 +0100
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,70 +0,0 @@
-(*  Title:      HOL/Codegenerator_Test/RBT_Set_Test.thy
-    Author:     Ondrej Kuncar
-*)
-
-header {* Test of the code generator using an implementation of sets by RBT trees *}
-
-theory RBT_Set_Test
-imports "~~/src/HOL/Library/Library" "~~/src/HOL/Library/RBT_Set"
-begin
-
-(* 
-   The following code equations have to be deleted because they use 
-   lists to implement sets in the code generetor. 
-*)
-
-lemma [code, code del]:
-  "Sup_pred_inst.Sup_pred = Sup_pred_inst.Sup_pred" ..
-
-lemma [code, code del]:
-  "Inf_pred_inst.Inf_pred = Inf_pred_inst.Inf_pred" ..
-
-lemma [code, code del]:
-  "pred_of_set = pred_of_set" ..
-
-lemma [code, code del]:
-  "acc = acc" ..
-
-lemma [code, code del]:
-  "Cardinality.card' = Cardinality.card'" ..
-
-lemma [code, code del]:
-  "Cardinality.finite' = Cardinality.finite'" ..
-
-lemma [code, code del]:
-  "Cardinality.subset' = Cardinality.subset'" ..
-
-lemma [code, code del]:
-  "Cardinality.eq_set = Cardinality.eq_set" ..
-
-(*
-  If the code generation ends with an exception with the following message:
-  '"List.set" is not a constructor, on left hand side of equation: ...',
-  the code equation in question has to be either deleted (like many others in this file) 
-  or implemented for RBT trees.
-*)
-
-export_code _ checking SML OCaml? Haskell?
-
-(* Extra setup to make Scala happy *)
-(* If the compilation fails with an error "ambiguous implicit values",
-   read \<section>7.1 in the Code Generation Manual *)
-
-class ccpo_linorder = ccpo + linorder
-
-lemma [code]:
-  "(Complete_Partial_Order.admissible :: ('a :: ccpo_linorder \<Rightarrow> bool) \<Rightarrow> bool) P = 
-    (\<forall>A. Complete_Partial_Order.chain (op \<le>) A \<longrightarrow> (\<forall>x\<in>A. P x) \<longrightarrow> P (Sup A))"
-unfolding admissible_def by blast
-
-lemma [code]:
-  "(gfp :: ('a :: complete_linorder \<Rightarrow> 'a) \<Rightarrow> 'a) f = Sup {u. u \<le> f u}"
-unfolding gfp_def by blast
-
-lemma [code]:
-  "(lfp :: ('a :: complete_linorder \<Rightarrow> 'a) \<Rightarrow> 'a) f = Inf {u. f u \<le> u}"
-unfolding lfp_def by blast
-
-export_code _ checking Scala?
-
-end