src/HOL/Spec_Check/spec_check.ML

--- a/src/HOL/Spec_Check/spec_check.ML	Fri Aug 23 16:51:53 2013 +0200
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,192 +0,0 @@
-(*  Title:      HOL/Spec_Check/spec_check.ML
-    Author:     Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen
-    Author:     Christopher League
-
-Specification-based testing of ML programs with random values.
-*)
-
-signature SPEC_CHECK =
-sig
-  val gen_target : int Config.T
-  val gen_max : int Config.T
-  val examples : int Config.T
-  val sort_examples : bool Config.T
-  val show_stats : bool Config.T
-  val column_width : int Config.T
-  val style : string Config.T
-
-  type output_style = Proof.context -> string ->
-    {status : string option * Property.result * (Property.stats  * string option list) -> unit,
-     finish: Property.stats * string option list -> unit}
-
-  val register_style : string -> output_style -> theory -> theory
-
-  val checkGen : Proof.context ->
-    'a Generator.gen * ('a -> string) option -> string * 'a Property.prop -> unit
-
-  val check_property : Proof.context -> string -> unit
-end;
-
-structure Spec_Check : SPEC_CHECK =
-struct
-
-(* configurations *)
-
-val gen_target = Attrib.setup_config_int @{binding spec_check_gen_target} (K 100)
-val gen_max = Attrib.setup_config_int @{binding spec_check_gen_max} (K 400)
-val examples = Attrib.setup_config_int @{binding spec_check_examples} (K 5)
-
-val sort_examples = Attrib.setup_config_bool @{binding spec_check_sort_examples} (K true)
-val show_stats = Attrib.setup_config_bool @{binding spec_check_show_stats} (K true)
-val column_width = Attrib.setup_config_int @{binding spec_check_column_width} (K 22)
-val style = Attrib.setup_config_string @{binding spec_check_style} (K "Perl")
-
-type ('a, 'b) reader = 'b -> ('a * 'b) option
-type 'a rep = ('a -> string) option
-
-type output_style = Proof.context -> string ->
-  {status: string option * Property.result * (Property.stats * string option list) -> unit,
-   finish: Property.stats * string option list -> unit}
-
-fun limit ctxt gen = Generator.limit (Config.get ctxt gen_max) gen
-
-structure Style = Theory_Data
-(
-  type T = output_style Symtab.table
-  val empty = Symtab.empty
-  val extend = I
-  fun merge data : T = Symtab.merge (K true) data
-)
-
-fun get_style ctxt =
-  let val name = Config.get ctxt style in
-    (case Symtab.lookup (Style.get (Proof_Context.theory_of ctxt)) name of
-      SOME style => style ctxt
-    | NONE => error ("No style called " ^ quote name ^ " found"))
-  end
-
-fun register_style name style = Style.map (Symtab.update (name, style))
-
-
-(* testing functions *)
-
-fun cpsCheck ctxt s0 shrink (next, show) (tag, prop) =
-  let
-    val apply_show = case show of NONE => (fn _ => NONE) | SOME f => SOME o f
-
-    val {status, finish} = get_style ctxt tag
-    fun status' (obj, result, (stats, badobjs)) =
-      let
-        val badobjs' = if Property.failure result then obj :: badobjs else badobjs
-        val _ = status (apply_show obj, result, (stats, map apply_show badobjs'))
-      in badobjs' end
-
-    fun try_shrink (obj, result, stats') (stats, badobjs) =
-      let
-        fun is_failure s =
-          let val (result, stats') = Property.test prop (s, stats)
-          in if Property.failure result then SOME (s, result, stats') else NONE end
-      in
-        case get_first is_failure (shrink obj) of
-          SOME (obj, result, stats') => try_shrink (obj, result, stats') (stats, badobjs)
-        | NONE => status' (obj, result, (stats', badobjs))
-      end
-
-    fun iter (NONE, (stats, badobjs)) = finish (stats, map apply_show badobjs)
-      | iter (SOME (obj, stream), (stats, badobjs)) =
-        if #count stats >= Config.get ctxt gen_target then
-          finish (stats, map apply_show badobjs)
-        else
-          let
-            val (result, stats') = Property.test prop (obj, stats)
-            val badobjs' = if Property.failure result then
-                try_shrink (obj, result, stats') (stats, badobjs)
-              else
-                status' (obj, result, (stats', badobjs))
-          in iter (next stream, (stats', badobjs')) end
-  in
-    fn stream => iter (next stream, (s0, []))
-  end
-
-fun check' ctxt s0 = cpsCheck ctxt s0 (fn _ => [])
-fun check ctxt = check' ctxt Property.stats
-fun checks ctxt = cpsCheck ctxt Property.stats
-
-fun checkGen ctxt (gen, show) (tag, prop) =
-  check' ctxt {count = 0, tags = [("__GEN", 0)]}
-    (limit ctxt gen, show) (tag, prop) Generator.stream
-
-fun checkGenShrink ctxt shrink (gen, show) (tag, prop) =
-  cpsCheck ctxt {count=0, tags=[("__GEN", 0)]} shrink
-    (limit ctxt gen, show) (tag, prop) Generator.stream
-
-fun checkOne ctxt show (tag, prop) obj =
-  check ctxt (List.getItem, show) (tag, prop) [obj]
-
-(*call the compiler and pass resulting type string to the parser*)
-fun determine_type ctxt s =
-  let
-    val return = Unsynchronized.ref "return"
-    val use_context : use_context =
-     {tune_source = #tune_source ML_Env.local_context,
-      name_space = #name_space ML_Env.local_context,
-      str_of_pos = #str_of_pos ML_Env.local_context,
-      print = fn r => return := r,
-      error = #error ML_Env.local_context}
-    val _ =
-      Context.setmp_thread_data (SOME (Context.Proof ctxt))
-        (fn () => Secure.use_text use_context (0, "generated code") true s) ()
-  in
-    Gen_Construction.parse_pred (! return)
-  end;
-
-(*call the compiler and run the test*)
-fun run_test ctxt s =
-  Context.setmp_thread_data (SOME (Context.Proof ctxt))
-    (fn () => Secure.use_text ML_Env.local_context (0, "generated code") false s) ();
-
-(*split input into tokens*)
-fun input_split s =
-  let
-    fun dot c = c = #"."
-    fun space c = c = #" "
-    val (head, code) = Substring.splitl (not o dot) (Substring.full s)
-  in
-   (String.tokens space (Substring.string head),
-    Substring.string (Substring.dropl dot code))
-  end;
-
-(*create the function from the input*)
-fun make_fun s =
-  let
-    val scan_param = Scan.one (fn s => s <> ";")
-    fun parameters s = Scan.repeat1 scan_param s
-    val p = $$ "ALL" |-- parameters
-    val (split, code) = input_split s
-    val stop = Scan.stopper (fn _ => ";") (fn s => s = ";");
-    val (params, _) = Scan.finite stop p split
-  in "fn (" ^ commas params ^ ") => " ^ code end;
-
-(*read input and perform the test*)
-fun gen_check_property check ctxt s =
-  let
-    val func = make_fun s
-    val (_, ty) = determine_type ctxt func
-  in run_test ctxt (check ctxt "Check" (ty, func)) end;
-
-val check_property = gen_check_property Gen_Construction.build_check
-(*val check_property_safe = gen_check_property Gen_Construction.safe_check*)
-
-(*perform test for specification function*)
-fun gen_check_property_f check ctxt s =
-  let
-    val (name, ty) = determine_type ctxt s
-  in run_test ctxt (check ctxt name (ty, s)) end;
-
-val check_property_f = gen_check_property_f Gen_Construction.build_check
-(*val check_property_safe_f_ = gen_check_property_f Gen_Construction.safe_check*)
-
-end;
-
-fun check_property s = Spec_Check.check_property (ML_Context.the_local_context ()) s;
-