separate module for quickcheck generators

--- a/src/HOL/IsaMakefile	Tue May 26 13:40:50 2009 +0200
+++ b/src/HOL/IsaMakefile	Tue May 26 17:29:32 2009 +0200
@@ -244,6 +244,7 @@
   Tools/numeral_simprocs.ML \
   Tools/numeral_syntax.ML \
   Tools/polyhash.ML \
+  Tools/quickcheck_generators.ML \
   Tools/Qelim/cooper_data.ML \
   Tools/Qelim/cooper.ML \
   Tools/Qelim/generated_cooper.ML \

--- a/src/HOL/Quickcheck.thy	Tue May 26 13:40:50 2009 +0200
+++ b/src/HOL/Quickcheck.thy	Tue May 26 17:29:32 2009 +0200
@@ -4,6 +4,7 @@
 
 theory Quickcheck
 imports Random Code_Eval
+uses ("Tools/quickcheck_generators.ML")
 begin
 
 notation fcomp (infixl "o>" 60)
@@ -16,59 +17,7 @@
   fixes random :: "code_numeral \<Rightarrow> Random.seed \<Rightarrow> ('a \<times> (unit \<Rightarrow> term)) \<times> Random.seed"
 
 
-subsection {* Quickcheck generator *}
-
-ML {*
-structure Quickcheck =
-struct
-
-open Quickcheck;
-
-val eval_ref : (unit -> int -> int * int -> term list option * (int * int)) option ref = ref NONE;
-
-val target = "Quickcheck";
-
-fun mk_generator_expr thy prop tys =
-  let
-    val bound_max = length tys - 1;
-    val bounds = map_index (fn (i, ty) =>
-      (2 * (bound_max - i) + 1, 2 * (bound_max - i), 2 * i, ty)) tys;
-    val result = list_comb (prop, map (fn (i, _, _, _) => Bound i) bounds);
-    val terms = HOLogic.mk_list @{typ term} (map (fn (_, i, _, _) => Bound i $ @{term "()"}) bounds);
-    val check = @{term "If \<Colon> bool \<Rightarrow> term list option \<Rightarrow> term list option \<Rightarrow> term list option"}
-      $ result $ @{term "None \<Colon> term list option"} $ (@{term "Some \<Colon> term list \<Rightarrow> term list option "} $ terms);
-    val return = @{term "Pair \<Colon> term list option \<Rightarrow> Random.seed \<Rightarrow> term list option \<times> Random.seed"};
-    fun liftT T sT = sT --> HOLogic.mk_prodT (T, sT);
-    fun mk_termtyp ty = HOLogic.mk_prodT (ty, @{typ "unit \<Rightarrow> term"});
-    fun mk_scomp T1 T2 sT f g = Const (@{const_name scomp},
-      liftT T1 sT --> (T1 --> liftT T2 sT) --> liftT T2 sT) $ f $ g;
-    fun mk_split ty = Sign.mk_const thy
-      (@{const_name split}, [ty, @{typ "unit \<Rightarrow> term"}, liftT @{typ "term list option"} @{typ Random.seed}]);
-    fun mk_scomp_split ty t t' =
-      mk_scomp (mk_termtyp ty) @{typ "term list option"} @{typ Random.seed} t
-        (mk_split ty $ Abs ("", ty, Abs ("", @{typ "unit \<Rightarrow> term"}, t')));
-    fun mk_bindclause (_, _, i, ty) = mk_scomp_split ty
-      (Sign.mk_const thy (@{const_name random}, [ty]) $ Bound i);
-  in Abs ("n", @{typ code_numeral}, fold_rev mk_bindclause bounds (return $ check)) end;
-
-fun compile_generator_expr thy t =
-  let
-    val tys = (map snd o fst o strip_abs) t;
-    val t' = mk_generator_expr thy t tys;
-    val f = Code_ML.eval (SOME target) ("Quickcheck.eval_ref", eval_ref)
-      (fn proc => fn g => fn s => g s #>> (Option.map o map) proc) thy t' [];
-  in f #> Random_Engine.run end;
-
-end
-*}
-
-setup {*
-  Code_Target.extend_target (Quickcheck.target, (Code_ML.target_Eval, K I))
-  #> Quickcheck.add_generator ("code", Quickcheck.compile_generator_expr o ProofContext.theory_of)
-*}
-
-
-subsection {* Fundamental types*}
+subsection {* Fundamental and numeric types*}
 
 instantiation bool :: random
 begin
@@ -91,66 +40,6 @@
 
 end
 
-text {* Type @{typ "'a \<Rightarrow> 'b"} *}
-
-ML {*
-structure Random_Engine =
-struct
-
-open Random_Engine;
-
-fun random_fun (T1 : typ) (T2 : typ) (eq : 'a -> 'a -> bool) (term_of : 'a -> term)
-    (random : Random_Engine.seed -> ('b * (unit -> term)) * Random_Engine.seed)
-    (random_split : Random_Engine.seed -> Random_Engine.seed * Random_Engine.seed)
-    (seed : Random_Engine.seed) =
-  let
-    val (seed', seed'') = random_split seed;
-    val state = ref (seed', [], Const (@{const_name undefined}, T1 --> T2));
-    val fun_upd = Const (@{const_name fun_upd},
-      (T1 --> T2) --> T1 --> T2 --> T1 --> T2);
-    fun random_fun' x =
-      let
-        val (seed, fun_map, f_t) = ! state;
-      in case AList.lookup (uncurry eq) fun_map x
-       of SOME y => y
-        | NONE => let
-              val t1 = term_of x;
-              val ((y, t2), seed') = random seed;
-              val fun_map' = (x, y) :: fun_map;
-              val f_t' = fun_upd $ f_t $ t1 $ t2 ();
-              val _ = state := (seed', fun_map', f_t');
-            in y end
-      end;
-    fun term_fun' () = #3 (! state);
-  in ((random_fun', term_fun'), seed'') end;
-
-end
-*}
-
-axiomatization random_fun_aux :: "typerep \<Rightarrow> typerep \<Rightarrow> ('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> term)
-  \<Rightarrow> (Random.seed \<Rightarrow> ('b \<times> (unit \<Rightarrow> term)) \<times> Random.seed) \<Rightarrow> (Random.seed \<Rightarrow> Random.seed \<times> Random.seed)
-  \<Rightarrow> Random.seed \<Rightarrow> (('a \<Rightarrow> 'b) \<times> (unit \<Rightarrow> term)) \<times> Random.seed"
-
-code_const random_fun_aux (Quickcheck "Random'_Engine.random'_fun")
-  -- {* With enough criminal energy this can be abused to derive @{prop False};
-  for this reason we use a distinguished target @{text Quickcheck}
-  not spoiling the regular trusted code generation *}
-
-instantiation "fun" :: ("{eq, term_of}", "{type, random}") random
-begin
-
-definition random_fun :: "code_numeral \<Rightarrow> Random.seed \<Rightarrow> (('a \<Rightarrow> 'b) \<times> (unit \<Rightarrow> term)) \<times> Random.seed" where
-  "random n = random_fun_aux TYPEREP('a) TYPEREP('b) (op =) Code_Eval.term_of (random n) Random.split_seed"
-
-instance ..
-
-end
-
-code_reserved Quickcheck Random_Engine
-
-
-subsection {* Numeric types *}
-
 instantiation nat :: random
 begin
 
@@ -175,119 +64,40 @@
 
 end
 
-subsection {* Type copies *}
+
+subsection {* Complex generators *}
+
+definition collapse :: "('a \<Rightarrow> ('a \<Rightarrow> 'b \<times> 'a) \<times> 'a) \<Rightarrow> 'a \<Rightarrow> 'b \<times> 'a" where
+  "collapse f = (f o\<rightarrow> id)"
 
-setup {*
-let
+definition beyond :: "code_numeral \<Rightarrow> code_numeral \<Rightarrow> code_numeral" where
+  "beyond k l = (if l > k then l else 0)"
+
+use "Tools/quickcheck_generators.ML"
+setup {* Quickcheck_Generators.setup *}
+
+code_reserved Quickcheck Quickcheck_Generators
+
+text {* Type @{typ "'a \<Rightarrow> 'b"} *}
 
-fun mk_random_typecopy tyco vs constr typ thy =
-  let
-    val Ts = map TFree vs;  
-    val T = Type (tyco, Ts);
-    fun mk_termifyT T = HOLogic.mk_prodT (T, @{typ "unit \<Rightarrow> term"})
-    val Ttm = mk_termifyT T;
-    val typtm = mk_termifyT typ;
-    fun mk_const c Ts = Const (c, Sign.const_instance thy (c, Ts));
-    fun mk_random T = mk_const @{const_name random} [T];
-    val size = @{term "k\<Colon>code_numeral"};
-    val v = "x";
-    val t_v = Free (v, typtm);
-    val t_constr = mk_const constr Ts;
-    val lhs = mk_random T $ size;
-    val rhs = HOLogic.mk_ST [(((mk_random typ) $ size, @{typ Random.seed}), SOME (v, typtm))]
-      (HOLogic.mk_return Ttm @{typ Random.seed}
-      (mk_const "Code_Eval.valapp" [typ, T]
-        $ HOLogic.mk_prod (t_constr, Abs ("u", @{typ unit}, HOLogic.reflect_term t_constr)) $ t_v))
-      @{typ Random.seed} (SOME Ttm, @{typ Random.seed});
-    val eq = HOLogic.mk_Trueprop (HOLogic.mk_eq (lhs, rhs));
-  in   
-    thy
-    |> TheoryTarget.instantiation ([tyco], vs, @{sort random})
-    |> `(fn lthy => Syntax.check_term lthy eq)
-    |-> (fn eq => Specification.definition (NONE, (Attrib.empty_binding, eq)))
-    |> snd
-    |> Class.prove_instantiation_exit (K (Class.intro_classes_tac []))
-  end;
+axiomatization random_fun_aux :: "typerep \<Rightarrow> typerep \<Rightarrow> ('a \<Rightarrow> 'a \<Rightarrow> bool) \<Rightarrow> ('a \<Rightarrow> term)
+  \<Rightarrow> (Random.seed \<Rightarrow> ('b \<times> (unit \<Rightarrow> term)) \<times> Random.seed) \<Rightarrow> (Random.seed \<Rightarrow> Random.seed \<times> Random.seed)
+  \<Rightarrow> Random.seed \<Rightarrow> (('a \<Rightarrow> 'b) \<times> (unit \<Rightarrow> term)) \<times> Random.seed"
 
-fun ensure_random_typecopy tyco thy =
-  let
-    val SOME { vs = raw_vs, constr, typ = raw_typ, ... } =
-      TypecopyPackage.get_info thy tyco;
-    val constrain = curry (Sorts.inter_sort (Sign.classes_of thy));
-    val typ = map_atyps (fn TFree (v, sort) =>
-      TFree (v, constrain sort @{sort random})) raw_typ;
-    val vs' = Term.add_tfreesT typ [];
-    val vs = map (fn (v, sort) =>
-      (v, the_default (constrain sort @{sort typerep}) (AList.lookup (op =) vs' v))) raw_vs;
-    val do_inst = Sign.of_sort thy (typ, @{sort random});
-  in if do_inst then mk_random_typecopy tyco vs constr typ thy else thy end;
+code_const random_fun_aux (Quickcheck "Quickcheck'_Generators.random'_fun")
+  -- {* With enough criminal energy this can be abused to derive @{prop False};
+  for this reason we use a distinguished target @{text Quickcheck}
+  not spoiling the regular trusted code generation *}
 
-in
+instantiation "fun" :: ("{eq, term_of}", "{type, random}") random
+begin
 
-TypecopyPackage.interpretation ensure_random_typecopy
+definition random_fun :: "code_numeral \<Rightarrow> Random.seed \<Rightarrow> (('a \<Rightarrow> 'b) \<times> (unit \<Rightarrow> term)) \<times> Random.seed" where
+  "random n = random_fun_aux TYPEREP('a) TYPEREP('b) (op =) Code_Eval.term_of (random n) Random.split_seed"
+
+instance ..
 
 end
-*}
-
-
-subsection {* Type copies *}
-
-setup {*
-let
-
-fun mk_random_typecopy tyco vs constr typ thy =
-  let
-    val Ts = map TFree vs;
-    val T = Type (tyco, Ts);
-    fun mk_termifyT T = HOLogic.mk_prodT (T, @{typ "unit \<Rightarrow> term"})
-    val Ttm = mk_termifyT T;
-    val typtm = mk_termifyT typ;
-    fun mk_const c Ts = Const (c, Sign.const_instance thy (c, Ts));
-    fun mk_random T = mk_const @{const_name random} [T];
-    val size = @{term "k\<Colon>code_numeral"};
-    val v = "x";
-    val t_v = Free (v, typtm);
-    val t_constr = mk_const constr Ts;
-    val lhs = mk_random T $ size;
-    val rhs = HOLogic.mk_ST [(((mk_random typ) $ size, @{typ Random.seed}), SOME (v, typtm))]
-      (HOLogic.mk_return Ttm @{typ Random.seed}
-      (mk_const "Code_Eval.valapp" [typ, T]
-        $ HOLogic.mk_prod (t_constr, Abs ("u", @{typ unit}, HOLogic.reflect_term t_constr)) $ t_v))
-      @{typ Random.seed} (SOME Ttm, @{typ Random.seed});
-    val eq = HOLogic.mk_Trueprop (HOLogic.mk_eq (lhs, rhs));
-  in
-    thy
-    |> TheoryTarget.instantiation ([tyco], vs, @{sort random})
-    |> `(fn lthy => Syntax.check_term lthy eq)
-    |-> (fn eq => Specification.definition (NONE, (Attrib.empty_binding, eq)))
-    |> snd
-    |> Class.prove_instantiation_exit (K (Class.intro_classes_tac []))
-  end;
-
-fun ensure_random_typecopy tyco thy =
-  let
-    val SOME { vs = raw_vs, constr, typ = raw_typ, ... } =
-      TypecopyPackage.get_info thy tyco;
-    val constrain = curry (Sorts.inter_sort (Sign.classes_of thy));
-    val typ = map_atyps (fn TFree (v, sort) =>
-      TFree (v, constrain sort @{sort random})) raw_typ;
-    val vs' = Term.add_tfreesT typ [];
-    val vs = map (fn (v, sort) =>
-      (v, the_default (constrain sort @{sort typerep}) (AList.lookup (op =) vs' v))) raw_vs;
-    val do_inst = Sign.of_sort thy (typ, @{sort random});
-  in if do_inst then mk_random_typecopy tyco vs constr typ thy else thy end;
-
-in
-
-TypecopyPackage.interpretation ensure_random_typecopy
-
-end
-*}
-
-
-subsection {* Datatypes *}
-
-text {* under construction *}
 
 
 no_notation fcomp (infixl "o>" 60)

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/HOL/Tools/quickcheck_generators.ML	Tue May 26 17:29:32 2009 +0200
@@ -0,0 +1,145 @@
+(* Author: Florian Haftmann, TU Muenchen
+
+Quickcheck generators for various types.
+*)
+
+signature QUICKCHECK_GENERATORS =
+sig
+  val compile_generator_expr: theory -> term -> int -> term list option
+  type seed = Random_Engine.seed
+  val random_fun: typ -> typ -> ('a -> 'a -> bool) -> ('a -> term)
+    -> (seed -> ('b * (unit -> term)) * seed) -> (seed -> seed * seed)
+    -> seed -> (('a -> 'b) * (unit -> Term.term)) * seed
+  val ensure_random_typecopy: string -> theory -> theory
+  val eval_ref: (unit -> int -> int * int -> term list option * (int * int)) option ref
+  val setup: theory -> theory
+end;
+
+structure Quickcheck_Generators : QUICKCHECK_GENERATORS =
+struct
+
+(** building and compiling generator expressions **)
+
+val eval_ref : (unit -> int -> int * int -> term list option * (int * int)) option ref = ref NONE;
+
+val target = "Quickcheck";
+
+fun mk_generator_expr thy prop tys =
+  let
+    val bound_max = length tys - 1;
+    val bounds = map_index (fn (i, ty) =>
+      (2 * (bound_max - i) + 1, 2 * (bound_max - i), 2 * i, ty)) tys;
+    val result = list_comb (prop, map (fn (i, _, _, _) => Bound i) bounds);
+    val terms = HOLogic.mk_list @{typ term} (map (fn (_, i, _, _) => Bound i $ @{term "()"}) bounds);
+    val check = @{term "If :: bool => term list option => term list option => term list option"}
+      $ result $ @{term "None :: term list option"} $ (@{term "Some :: term list => term list option "} $ terms);
+    val return = @{term "Pair :: term list option => Random.seed => term list option * Random.seed"};
+    fun liftT T sT = sT --> HOLogic.mk_prodT (T, sT);
+    fun mk_termtyp ty = HOLogic.mk_prodT (ty, @{typ "unit => term"});
+    fun mk_scomp T1 T2 sT f g = Const (@{const_name scomp},
+      liftT T1 sT --> (T1 --> liftT T2 sT) --> liftT T2 sT) $ f $ g;
+    fun mk_split ty = Sign.mk_const thy
+      (@{const_name split}, [ty, @{typ "unit => term"}, liftT @{typ "term list option"} @{typ Random.seed}]);
+    fun mk_scomp_split ty t t' =
+      mk_scomp (mk_termtyp ty) @{typ "term list option"} @{typ Random.seed} t
+        (mk_split ty $ Abs ("", ty, Abs ("", @{typ "unit => term"}, t')));
+    fun mk_bindclause (_, _, i, ty) = mk_scomp_split ty
+      (Sign.mk_const thy (@{const_name random}, [ty]) $ Bound i);
+  in Abs ("n", @{typ code_numeral}, fold_rev mk_bindclause bounds (return $ check)) end;
+
+fun compile_generator_expr thy t =
+  let
+    val tys = (map snd o fst o strip_abs) t;
+    val t' = mk_generator_expr thy t tys;
+    val f = Code_ML.eval (SOME target) ("Quickcheck_Generators.eval_ref", eval_ref)
+      (fn proc => fn g => fn s => g s #>> (Option.map o map) proc) thy t' [];
+  in f #> Random_Engine.run end;
+
+
+(** typ "'a => 'b" **)
+
+type seed = Random_Engine.seed;
+
+fun random_fun (T1 : typ) (T2 : typ) (eq : 'a -> 'a -> bool) (term_of : 'a -> term)
+    (random : seed -> ('b * (unit -> term)) * seed)
+    (random_split : seed -> seed * seed)
+    (seed : seed) =
+  let
+    val (seed', seed'') = random_split seed;
+    val state = ref (seed', [], Const (@{const_name undefined}, T1 --> T2));
+    val fun_upd = Const (@{const_name fun_upd},
+      (T1 --> T2) --> T1 --> T2 --> T1 --> T2);
+    fun random_fun' x =
+      let
+        val (seed, fun_map, f_t) = ! state;
+      in case AList.lookup (uncurry eq) fun_map x
+       of SOME y => y
+        | NONE => let
+              val t1 = term_of x;
+              val ((y, t2), seed') = random seed;
+              val fun_map' = (x, y) :: fun_map;
+              val f_t' = fun_upd $ f_t $ t1 $ t2 ();
+              val _ = state := (seed', fun_map', f_t');
+            in y end
+      end;
+    fun term_fun' () = #3 (! state);
+  in ((random_fun', term_fun'), seed'') end;
+
+
+(** type copies **)
+
+fun mk_random_typecopy tyco vs constr typ thy =
+  let
+    val Ts = map TFree vs;  
+    val T = Type (tyco, Ts);
+    fun mk_termifyT T = HOLogic.mk_prodT (T, @{typ "unit => term"})
+    val Ttm = mk_termifyT T;
+    val typtm = mk_termifyT typ;
+    fun mk_const c Ts = Const (c, Sign.const_instance thy (c, Ts));
+    fun mk_random T = mk_const @{const_name random} [T];
+    val size = @{term "j::code_numeral"};
+    val v = "x";
+    val t_v = Free (v, typtm);
+    val t_constr = mk_const constr Ts;
+    val lhs = mk_random T $ size;
+    val rhs = HOLogic.mk_ST [(((mk_random typ) $ size, @{typ Random.seed}), SOME (v, typtm))]
+      (HOLogic.mk_return Ttm @{typ Random.seed}
+      (mk_const "Code_Eval.valapp" [typ, T]
+        $ HOLogic.mk_prod (t_constr, Abs ("u", @{typ unit}, HOLogic.reflect_term t_constr)) $ t_v))
+      @{typ Random.seed} (SOME Ttm, @{typ Random.seed});
+    val eq = HOLogic.mk_Trueprop (HOLogic.mk_eq (lhs, rhs));
+  in   
+    thy
+    |> TheoryTarget.instantiation ([tyco], vs, @{sort random})
+    |> `(fn lthy => Syntax.check_term lthy eq)
+    |-> (fn eq => Specification.definition (NONE, (Attrib.empty_binding, eq)))
+    |> snd
+    |> Class.prove_instantiation_exit (K (Class.intro_classes_tac []))
+  end;
+
+fun ensure_random_typecopy tyco thy =
+  let
+    val SOME { vs = raw_vs, constr, typ = raw_typ, ... } =
+      TypecopyPackage.get_info thy tyco;
+    val constrain = curry (Sorts.inter_sort (Sign.classes_of thy));
+    val typ = map_atyps (fn TFree (v, sort) =>
+      TFree (v, constrain sort @{sort random})) raw_typ;
+    val vs' = Term.add_tfreesT typ [];
+    val vs = map (fn (v, sort) =>
+      (v, the_default (constrain sort @{sort typerep}) (AList.lookup (op =) vs' v))) raw_vs;
+    val do_inst = Sign.of_sort thy (typ, @{sort random});
+  in if do_inst then mk_random_typecopy tyco vs constr typ thy else thy end;
+
+
+(** datatypes **)
+
+(* still under construction *)
+
+
+(** setup **)
+
+val setup = Code_Target.extend_target (target, (Code_ML.target_Eval, K I))
+  #> Quickcheck.add_generator ("code", compile_generator_expr o ProofContext.theory_of)
+  #> TypecopyPackage.interpretation ensure_random_typecopy;
+
+end;