diff --git a/src/Tools/ROOT b/src/Tools/ROOT --- a/src/Tools/ROOT +++ b/src/Tools/ROOT @@ -1,20 +1,15 @@ chapter Tools session Tools = Pure + theories Code_Generator -session Spec_Check in Spec_Check = Pure + - theories - Spec_Check - Examples - session SML in SML = Pure + theories Examples session Haskell in Haskell = Pure + theories Haskell theories [condition = ISABELLE_GHC_STACK] Test diff --git a/src/Tools/Spec_Check/Examples.thy b/src/Tools/Spec_Check/Examples.thy deleted file mode 100644 --- a/src/Tools/Spec_Check/Examples.thy +++ /dev/null @@ -1,83 +0,0 @@ -theory Examples -imports Spec_Check -begin - -section \List examples\ - -ML_command \ -check_property "ALL xs. rev xs = xs"; -\ - -ML_command \ -check_property "ALL xs. rev (rev xs) = xs"; -\ - - -section \AList Specification\ - -ML_command \ -(* map_entry applies the function to the element *) -check_property "ALL k f xs. AList.lookup (op =) (AList.map_entry (op =) k f xs) k = Option.map f (AList.lookup (op =) xs k)"; -\ - -ML_command \ -(* update always results in an entry *) -check_property "ALL k v xs. AList.defined (op =) (AList.update (op =) (k, v) xs) k"; -\ - -ML_command \ -(* update always writes the value *) -check_property "ALL k v xs. AList.lookup (op =) (AList.update (op =) (k, v) xs) k = SOME v"; -\ - -ML_command \ -(* default always results in an entry *) -check_property "ALL k v xs. AList.defined (op =) (AList.default (op =) (k, v) xs) k"; -\ - -ML_command \ -(* delete always removes the entry *) -check_property "ALL k xs. not (AList.defined (op =) (AList.delete (op =) k xs) k)"; -\ - -ML_command \ -(* default writes the entry iff it didn't exist *) -check_property "ALL k v xs. (AList.lookup (op =) (AList.default (op =) (k, v) xs) k = (if AList.defined (op =) xs k then AList.lookup (op =) xs k else SOME v))"; -\ - -section \Examples on Types and Terms\ - -ML_command \ -check_property "ALL f g t. map_types (g o f) t = (map_types f o map_types g) t"; -\ - -ML_command \ -check_property "ALL f g t. map_types (f o g) t = (map_types f o map_types g) t"; -\ - - -text \One would think this holds:\ - -ML_command \ -check_property "ALL t ts. strip_comb (list_comb (t, ts)) = (t, ts)" -\ - -text \But it only holds with this precondition:\ - -ML_command \ -check_property "ALL t ts. case t of _ $ _ => true | _ => strip_comb (list_comb (t, ts)) = (t, ts)" -\ - -section \Some surprises\ - -ML_command \ -check_property "ALL Ts t. type_of1 (Ts, t) = fastype_of1 (Ts, t)" -\ - - -ML_command \ -val thy = \<^theory>; -check_property "ALL t u. if Pattern.matches thy (t, u) then Term.could_unify (t, u) else true" -\ - -end diff --git a/src/Tools/Spec_Check/README b/src/Tools/Spec_Check/README deleted file mode 100644 --- a/src/Tools/Spec_Check/README +++ /dev/null @@ -1,47 +0,0 @@ -This is a Quickcheck tool for Isabelle/ML. - -Authors - - Lukas Bulwahn - Nicolai Schaffroth - -Quick Usage - - - Import Spec_Check.thy in your development - - Look at examples in Examples.thy - - write specifications with the ML invocation - check_property "ALL x. P x" - -Notes - -Our specification-based testing tool originated from Christopher League's -QCheck tool for SML (cf. https://github.com/league/qcheck). As Isabelle -provides a rich and uniform ML platform (called Isabelle/ML), this -testing tools is very different than the one for a typical ML developer. - -1. Isabelle/ML provides common data structures, which we can use in the -tool's implementation for storing data and printing output. - -2. The implementation in Isabelle that will be checked with this tool -commonly use Isabelle/ML's int type (which corresponds ML's IntInf.int), -but they do not use other integer types in ML, such as ML's Int.int, -Word.word and others. - -3. As Isabelle can run heavily in parallel, we avoid reference types. - -4. Isabelle has special naming conventions and documentation of source -code is only minimal to avoid parroting. - -Next steps: - - Remove all references and store the neccessary random seed in the - Isabelle's context. - - Simplify some existing random generators. - The original ones from Christopher League are so complicated to - support many integer types uniformly. - -License - - The source code originated from Christopher League's QCheck, which is - licensed under the 2-clause BSD license. The current source code is - licensed under the compatible 3-clause BSD license of Isabelle. - diff --git a/src/Tools/Spec_Check/Spec_Check.thy b/src/Tools/Spec_Check/Spec_Check.thy deleted file mode 100644 --- a/src/Tools/Spec_Check/Spec_Check.thy +++ /dev/null @@ -1,13 +0,0 @@ -theory Spec_Check -imports Pure -begin - -ML_file \random.ML\ -ML_file \property.ML\ -ML_file \base_generator.ML\ -ML_file \generator.ML\ -ML_file \gen_construction.ML\ -ML_file \spec_check.ML\ -ML_file \output_style.ML\ - -end \ No newline at end of file diff --git a/src/Tools/Spec_Check/base_generator.ML b/src/Tools/Spec_Check/base_generator.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/base_generator.ML +++ /dev/null @@ -1,201 +0,0 @@ -(* Title: Tools/Spec_Check/base_generator.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Basic random generators. -*) - -signature BASE_GENERATOR = -sig - -type rand -type 'a gen = rand -> 'a * rand -type ('a, 'b) co = 'a -> 'b gen -> 'b gen - -val new : unit -> rand -val range : int * int -> rand -> int * rand -type ('a, 'b) reader = 'b -> ('a * 'b) option - -val lift : 'a -> 'a gen -val select : 'a vector -> 'a gen -val choose : 'a gen vector -> 'a gen -val choose' : (int * 'a gen) vector -> 'a gen -val selectL : 'a list -> 'a gen -val chooseL : 'a gen list -> 'a gen -val chooseL' : (int * 'a gen) list -> 'a gen -val filter : ('a -> bool) -> 'a gen -> 'a gen - -val zip : ('a gen * 'b gen) -> ('a * 'b) gen -val zip3 : ('a gen * 'b gen * 'c gen) -> ('a * 'b * 'c) gen -val zip4 : ('a gen * 'b gen * 'c gen * 'd gen) -> ('a * 'b * 'c * 'd) gen -val map : ('a -> 'b) -> 'a gen -> 'b gen -val map2 : ('a * 'b -> 'c) -> ('a gen * 'b gen) -> 'c gen -val map3 : ('a * 'b * 'c -> 'd) -> ('a gen * 'b gen * 'c gen) -> 'd gen -val map4 : ('a * 'b * 'c * 'd -> 'e) -> ('a gen * 'b gen * 'c gen * 'd gen) -> 'e gen - -val flip : bool gen -val flip' : int * int -> bool gen - -val list : bool gen -> 'a gen -> 'a list gen -val option : bool gen -> 'a gen -> 'a option gen -val vector : (int * (int -> 'a) -> 'b) -> int gen * 'a gen -> 'b gen - -val variant : (int, 'b) co -val arrow : ('a, 'b) co * 'b gen -> ('a -> 'b) gen -val cobool : (bool, 'b) co -val colist : ('a, 'b) co -> ('a list, 'b) co -val coopt : ('a, 'b) co -> ('a option, 'b) co - -type stream -val start : rand -> stream -val limit : int -> 'a gen -> ('a, stream) reader - -end - -structure Base_Generator : BASE_GENERATOR = -struct - -(* random number engine *) - -type rand = real - -val a = 16807.0 -val m = 2147483647.0 - -fun nextrand seed = - let - val t = a * seed - in - t - m * real (floor (t / m)) - end - -val new = nextrand o Time.toReal o Time.now - -fun range (min, max) = - if min > max then raise Domain (* TODO: raise its own error *) - else fn r => (min + (floor (real (max - min + 1) * r / m)), nextrand r) - -fun split r = - let - val r = r / a - val r0 = real (floor r) - val r1 = r - r0 - in - (nextrand r0, nextrand r1) - end - -(* generators *) - -type 'a gen = rand -> 'a * rand -type ('a, 'b) reader = 'b -> ('a * 'b) option - -fun lift obj r = (obj, r) - -local (* Isabelle does not use vectors? *) - fun explode ((freq, gen), acc) = - List.tabulate (freq, fn _ => gen) @ acc -in - fun choose v r = - let val (i, r) = range(0, Vector.length v - 1) r - in Vector.sub (v, i) r end - fun choose' v = choose (Vector.fromList (Vector.foldr explode [] v)) - fun select v = choose (Vector.map lift v) -end - -fun chooseL l = choose (Vector.fromList l) -fun chooseL' l = choose' (Vector.fromList l) -fun selectL l = select (Vector.fromList l) - -fun zip (g1, g2) = g1 #-> (fn x1 => g2 #-> (fn x2 => pair (x1, x2))) - -fun zip3 (g1, g2, g3) = - zip (g1, zip (g2, g3)) #-> (fn (x1, (x2, x3)) => pair (x1, x2, x3)) - -fun zip4 (g1, g2, g3, g4) = - zip (zip (g1, g2), zip (g3, g4)) #-> (fn ((x1, x2), (x3, x4)) => pair (x1, x2, x3, x4)) - -fun map f g = apfst f o g - -fun map2 f = map f o zip -fun map3 f = map f o zip3 -fun map4 f = map f o zip4 - -fun filter p gen r = - let - fun loop (x, r) = if p x then (x, r) else loop (gen r) - in - loop (gen r) - end - -val flip = selectL [true, false] -fun flip' (p, q) = chooseL' [(p, lift true), (q, lift false)] - -fun list flip g r = - case flip r of - (true, r) => ([], r) - | (false, r) => - let - val (x,r) = g r - val (xs,r) = list flip g r - in (x::xs, r) end - -fun option flip g r = - case flip r of - (true, r) => (NONE, r) - | (false, r) => map SOME g r - -fun vector tabulate (int, elem) r = - let - val (n, r) = int r - val p = Unsynchronized.ref r - fun g _ = - let - val (x,r) = elem(!p) - in x before p := r end - in - (tabulate(n, g), !p) - end - -type stream = rand Unsynchronized.ref * int - -fun start r = (Unsynchronized.ref r, 0) - -fun limit max gen = - let - fun next (p, i) = - if i >= max then NONE - else - let val (x, r) = gen(!p) - in SOME(x, (p, i+1)) before p := r end - in - next - end - -type ('a, 'b) co = 'a -> 'b gen -> 'b gen - -fun variant v g r = - let - fun nth (i, r) = - let val (r1, r2) = split r - in if i = 0 then r1 else nth (i-1, r2) end - in - g (nth (v, r)) - end - -fun arrow (cogen, gen) r = - let - val (r1, r2) = split r - fun g x = fst (cogen x gen r1) - in (g, r2) end - -fun cobool false = variant 0 - | cobool true = variant 1 - -fun colist _ [] = variant 0 - | colist co (x::xs) = variant 1 o co x o colist co xs - -fun coopt _ NONE = variant 0 - | coopt co (SOME x) = variant 1 o co x - -end - diff --git a/src/Tools/Spec_Check/gen_construction.ML b/src/Tools/Spec_Check/gen_construction.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/gen_construction.ML +++ /dev/null @@ -1,179 +0,0 @@ -(* Title: Tools/Spec_Check/gen_construction.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Constructing generators and pretty printing function for complex types. -*) - -signature GEN_CONSTRUCTION = -sig - val register : string * (string * string) -> theory -> theory - type mltype - val parse_pred : string -> string * mltype - val build_check : Proof.context -> string -> mltype * string -> string - (*val safe_check : string -> mltype * string -> string*) - val string_of_bool : bool -> string - val string_of_ref : ('a -> string) -> 'a Unsynchronized.ref -> string -end; - -structure Gen_Construction : GEN_CONSTRUCTION = -struct - -(* Parsing ML types *) - -datatype mltype = Var | Con of string * mltype list | Tuple of mltype list; - -(*Split string into tokens for parsing*) -fun split s = - let - fun split_symbol #"(" = "( " - | split_symbol #")" = " )" - | split_symbol #"," = " ," - | split_symbol #":" = " :" - | split_symbol c = Char.toString c - fun is_space c = c = #" " - in String.tokens is_space (String.translate split_symbol s) end; - -(*Accept anything that is not a recognized symbol*) -val scan_name = Scan.one (fn s => not (String.isSubstring s "(),*->;")); - -(*Turn a type list into a nested Con*) -fun make_con [] = raise Empty - | make_con [c] = c - | make_con (Con (s, _) :: cl) = Con (s, [make_con cl]); - -(*Parse a type*) -fun parse_type s = (parse_fun || parse_tuple || parse_type_single) s - -and parse_type_arg s = (parse_tuple || parse_type_single) s - -and parse_type_single s = (parse_con || parse_type_basic) s - -and parse_type_basic s = (parse_var || $$ "(" |-- parse_type --| $$ ")") s - -and parse_list s = - ($$ "(" |-- parse_type -- Scan.repeat1 ($$ "," |-- parse_type) --| $$ ")" >> op::) s - -and parse_var s = (Scan.one (String.isPrefix "'") >> (fn _ => Var)) s - -and parse_con s = ((parse_con_nest - || parse_type_basic -- parse_con_nest >> (fn (b, Con (t, _) :: tl) => Con (t, [b]) :: tl) - || parse_list -- parse_con_nest >> (fn (l, Con (t, _) :: tl) => Con (t, l) :: tl)) - >> (make_con o rev)) s - -and parse_con_nest s = Scan.unless parse_var (Scan.repeat1 (scan_name >> (fn t => Con (t, [])))) s - -and parse_fun s = (parse_type_arg -- $$ "->" -- parse_type >> (fn ((a, f), r) => Con (f, [a, r]))) s - -and parse_tuple s = (parse_type_single -- Scan.repeat1 ($$ "*" |-- parse_type_single) - >> (fn (t, tl) => Tuple (t :: tl))) s; - -(*Parse entire type + name*) -fun parse_function s = - let - val p = $$ "val" |-- scan_name --| ($$ "=" -- $$ "fn" -- $$ ":") - val (name, ty) = p (split s) - val stop = Scan.stopper (fn _ => ";") (fn s => s = ";"); - val (typ, _) = Scan.finite stop parse_type ty - in (name, typ) end; - -(*Create desired output*) -fun parse_pred s = - let - val (name, Con ("->", t :: _)) = parse_function s - in (name, t) end; - -(* Construct Generators and Pretty Printers *) - -(*copied from smt_config.ML *) -fun string_of_bool b = if b then "true" else "false" - -fun string_of_ref f r = f (!r) ^ " ref"; - -val initial_content = Symtab.make - [("bool", ("Generator.flip", "Gen_Construction.string_of_bool")), - ("option", ("Generator.option (Generator.flip' (1, 3))", "ML_Syntax.print_option")), - ("list", ("Generator.list (Generator.flip' (1, 3))", "ML_Syntax.print_list")), - ("unit", ("gen_unit", "fn () => \"()\"")), - ("int", ("Generator.int", "string_of_int")), - ("real", ("Generator.real", "string_of_real")), - ("char", ("Generator.char", "fn c => \"#'\" ^ (Char.toString c) ^ \"'\"")), - ("string", ("Generator.string (Generator.range (0, 100), Generator.char)", "ML_Syntax.print_string")), - ("->", ("Generator.function_lazy", "fn (_, _) => fn _ => \"fn\"")), - ("typ", ("Generator.typ 10", "ML_Syntax.print_typ")), - ("term", ("Generator.term 10", "ML_Syntax.print_term"))] - -structure Data = Theory_Data -( - type T = (string * string) Symtab.table - val empty = initial_content - val extend = I - fun merge data : T = Symtab.merge (K true) data -) - -fun data_of ctxt tycon = - (case Symtab.lookup (Data.get (Proof_Context.theory_of ctxt)) tycon of - SOME data => data - | NONE => error ("No generator and printer defined for ML type constructor " ^ quote tycon)) - -val generator_of = fst oo data_of -val printer_of = snd oo data_of - -fun register (ty, data) = Data.map (Symtab.update (ty, data)) - -(* -fun remove_gen ty = gen_table := AList.delete (op =) ty (!gen_table); -*) - -fun combine dict [] = dict - | combine dict dicts = enclose "(" ")" dict ^ " " ^ enclose "(" ")" (commas dicts) - -fun compose_generator _ Var = "Generator.int" - | compose_generator ctxt (Con (s, types)) = - combine (generator_of ctxt s) (map (compose_generator ctxt) types) - | compose_generator ctxt (Tuple t) = - let - fun tuple_body t = space_implode "" - (map (fn (ty, n) => "val (x" ^ string_of_int n ^ ", r" ^ string_of_int n ^ ") = " ^ - compose_generator ctxt ty ^ " r" ^ string_of_int (n - 1) ^ " ") (t ~~ (1 upto (length t)))) - fun tuple_ret a = commas (map (fn n => "x" ^ string_of_int n) (1 upto a)) - in - "fn r0 => let " ^ tuple_body t ^ - "in ((" ^ tuple_ret (length t) ^ "), r" ^ string_of_int (length t) ^ ") end" - end; - -fun compose_printer _ Var = "Int.toString" - | compose_printer ctxt (Con (s, types)) = - combine (printer_of ctxt s) (map (compose_printer ctxt) types) - | compose_printer ctxt (Tuple t) = - let - fun tuple_head a = commas (map (fn n => "x" ^ string_of_int n) (1 upto a)) - fun tuple_body t = space_implode " ^ \", \" ^ " - (map (fn (ty, n) => "(" ^ compose_printer ctxt ty ^ ") x" ^ string_of_int n) - (t ~~ (1 upto (length t)))) - in "fn (" ^ tuple_head (length t) ^ ") => \"(\" ^ " ^ tuple_body t ^ " ^ \")\"" end; - -(*produce compilable string*) -fun build_check ctxt name (ty, spec) = - "Spec_Check.checkGen (Context.the_local_context ()) (" - ^ compose_generator ctxt ty ^ ", SOME (" ^ compose_printer ctxt ty ^ ")) (\"" - ^ name ^ "\", Property.pred (" ^ spec ^ "));"; - -(*produce compilable string - non-eqtype functions*) -(* -fun safe_check name (ty, spec) = - let - val default = - (case AList.lookup (op =) (!gen_table) "->" of - NONE => ("gen_function_rand", "fn (_, _) => fn _ => \"fn\"") - | SOME entry => entry) - in - (gen_table := - AList.update (op =) ("->", ("gen_function_safe", "fn (_, _) => fn _ => \"fn\"")) (!gen_table); - build_check name (ty, spec) before - gen_table := AList.update (op =) ("->", default) (!gen_table)) - end; -*) - -end; - diff --git a/src/Tools/Spec_Check/generator.ML b/src/Tools/Spec_Check/generator.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/generator.ML +++ /dev/null @@ -1,235 +0,0 @@ -(* Title: Tools/Spec_Check/generator.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Random generators for Isabelle/ML's types. -*) - -signature GENERATOR = sig - include BASE_GENERATOR - (* text generators *) - val char : char gen - val charRange : char * char -> char gen - val charFrom : string -> char gen - val charByType : (char -> bool) -> char gen - val string : (int gen * char gen) -> string gen - val substring : string gen -> substring gen - val cochar : (char, 'b) co - val costring : (string, 'b) co - val cosubstring : (substring, 'b) co - (* integer generators *) - val int : int gen - val int_pos : int gen - val int_neg : int gen - val int_nonpos : int gen - val int_nonneg : int gen - val coint : (int, 'b) co - (* real generators *) - val real : real gen - val real_frac : real gen - val real_pos : real gen - val real_neg : real gen - val real_nonpos : real gen - val real_nonneg : real gen - val real_finite : real gen - (* function generators *) - val function_const : 'c * 'b gen -> ('a -> 'b) gen - val function_strict : int -> ''a gen * 'b gen -> (''a -> 'b) gen - val function_lazy : ''a gen * 'b gen -> (''a -> 'b) gen - val unit : unit gen - val ref' : 'a gen -> 'a Unsynchronized.ref gen - (* more generators *) - val term : int -> term gen - val typ : int -> typ gen - - val stream : stream -end - -structure Generator : GENERATOR = -struct - -open Base_Generator - -val stream = start (new()) - -type 'a gen = rand -> 'a * rand -type ('a, 'b) co = 'a -> 'b gen -> 'b gen - -(* text *) - -type char = Char.char -type string = String.string -type substring = Substring.substring - - -val char = map Char.chr (range (0, Char.maxOrd)) -fun charRange (lo, hi) = map Char.chr (range (Char.ord lo, Char.ord hi)) - -fun charFrom s = - choose (Vector.tabulate (String.size s, fn i => lift (String.sub (s, i)))) - -fun charByType p = filter p char - -val string = vector CharVector.tabulate - -fun substring gen r = - let - val (s, r') = gen r - val (i, r'') = range (0, String.size s) r' - val (j, r''') = range (0, String.size s - i) r'' - in - (Substring.substring (s, i, j), r''') - end - -fun cochar c = - if Char.ord c = 0 then variant 0 - else variant 1 o cochar (Char.chr (Char.ord c div 2)) - -fun cosubstring s = Substring.foldr (fn (c,v) => cochar c o v) (variant 0) s - -fun costring s = cosubstring (Substring.full s) - -(* integers *) -val digit = charRange (#"0", #"9") -val nonzero = string (lift 1, charRange (#"1", #"9")) -fun digits' n = string (range (0, n-1), digit) -fun digits n = map2 op^ (nonzero, digits' n) - -val maxDigits = 64 -val ratio = 49 - -fun pos_or_neg f r = - let - val (s, r') = digits maxDigits r - in (f (the (Int.fromString s)), r') end - -val int_pos = pos_or_neg I -val int_neg = pos_or_neg Int.~ -val zero = lift 0 - -val int_nonneg = chooseL' [(1, zero), (ratio, int_pos)] -val int_nonpos = chooseL' [(1, zero), (ratio, int_neg)] -val int = chooseL [int_nonneg, int_nonpos] - -fun coint n = - if n = 0 then variant 0 - else if n < 0 then variant 1 o coint (~ n) - else variant 2 o coint (n div 2) - -(* reals *) -val digits = string (range(1, Real.precision), charRange(#"0", #"9")) - -fun real_frac r = - let val (s, r') = digits r - in (the (Real.fromString s), r') end - -val {exp=minExp,...} = Real.toManExp Real.minPos -val {exp=maxExp,...} = Real.toManExp Real.posInf - -val ratio = 99 - -fun mk r = - let - val (a, r') = digits r - val (b, r'') = digits r' - val (e, r''') = range (minExp div 4, maxExp div 4) r'' - val x = String.concat [a, ".", b, "E", Int.toString e] - in - (the (Real.fromString x), r''') - end - -val real_pos = chooseL' (List.map ((pair 1) o lift) - [Real.posInf, Real.maxFinite, Real.minPos, Real.minNormalPos] @ [(ratio, mk)]) - -val real_neg = map Real.~ real_pos - -val real_zero = Real.fromInt 0 -val real_nonneg = chooseL' [(1, lift real_zero), (ratio, real_pos)] -val real_nonpos = chooseL' [(1, lift real_zero), (ratio, real_neg)] - -val real = chooseL [real_nonneg, real_nonpos] - -val real_finite = filter Real.isFinite real - -(*alternate list generator - uses an integer generator to determine list length*) -fun list' int gen = vector List.tabulate (int, gen); - -(* more function generators *) - -fun function_const (_, gen2) r = - let - val (v, r') = gen2 r - in (fn _ => v, r') end; - -fun function_strict size (gen1, gen2) r = - let - val (def, r') = gen2 r - val (table, r'') = list' (fn s => (size, s)) (zip (gen1, gen2)) r' - in (fn v1 => the_default def (AList.lookup (op =) table v1), r'') end; - -fun function_lazy (gen1, gen2) r = - let - val (initial1, r') = gen1 r - val (initial2, internal) = gen2 r' - val seed = Unsynchronized.ref internal - val table = Unsynchronized.ref [(initial1, initial2)] - fun new_entry k = - let - val (new_val, new_seed) = gen2 (!seed) - val _ = seed := new_seed - val _ = table := AList.update (op =) (k, new_val) (!table) - in new_val end - in - (fn v1 => - case AList.lookup (op =) (!table) v1 of - NONE => new_entry v1 - | SOME v2 => v2, r') - end; - -(* unit *) - -fun unit r = ((), r); - -(* references *) - -fun ref' gen r = - let val (value, r') = gen r - in (Unsynchronized.ref value, r') end; - -(* types and terms *) - -val sort_string = selectL ["sort1", "sort2", "sort3"]; -val type_string = selectL ["TCon1", "TCon2", "TCon3"]; -val tvar_string = selectL ["a", "b", "c"]; - -val const_string = selectL ["c1", "c2", "c3"]; -val var_string = selectL ["x", "y", "z"]; -val index = selectL [0, 1, 2, 3]; -val bound_index = selectL [0, 1, 2, 3]; - -val sort = list (flip' (1, 2)) sort_string; - -fun typ n = - let - fun type' m = map Type (zip (type_string, list (flip' (1, 3)) (typ m))) - val tfree = map TFree (zip (tvar_string, sort)) - val tvar = map TVar (zip (zip (tvar_string, index), sort)) - in - if n = 0 then chooseL [tfree, tvar] - else chooseL [type' (n div 2), tfree, tvar] - end; - -fun term n = - let - val const = map Const (zip (const_string, typ 10)) - val free = map Free (zip (var_string, typ 10)) - val var = map Var (zip (zip (var_string, index), typ 10)) - val bound = map Bound bound_index - fun abs m = map Abs (zip3 (var_string, typ 10, term m)) - fun app m = map (op $) (zip (term m, term m)) - in - if n = 0 then chooseL [const, free, var, bound] - else chooseL [const, free, var, bound, abs (n - 1), app (n div 2)] - end; - -end diff --git a/src/Tools/Spec_Check/output_style.ML b/src/Tools/Spec_Check/output_style.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/output_style.ML +++ /dev/null @@ -1,113 +0,0 @@ -(* Title: Tools/Spec_Check/output_style.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Output styles for presenting Spec_Check's results. -*) - -structure Output_Style : sig end = -struct - -(* perl style *) - -val perl_style = - Spec_Check.register_style "Perl" - (fn ctxt => fn tag => - let - val target = Config.get ctxt Spec_Check.gen_target - val namew = Config.get ctxt Spec_Check.column_width - val sort_examples = Config.get ctxt Spec_Check.sort_examples - val show_stats = Config.get ctxt Spec_Check.show_stats - val limit = Config.get ctxt Spec_Check.examples - - val resultw = 8 - val countw = 20 - val allw = namew + resultw + countw + 2 - - val maybe_sort = if sort_examples then sort (int_ord o apply2 size) else I - - fun result ({count = 0, ...}, _) _ = "dubious" - | result (_ : Property.stats, badobjs) false = if null badobjs then "ok" else "FAILED" - | result ({count, tags}, badobjs) true = - if not (null badobjs) then "FAILED" - else if AList.defined (op =) tags "__GEN" andalso count < target then "dubious" - else "ok" - - fun ratio (0, _) = "(0/0 passed)" - | ratio (count, 0) = "(" ^ string_of_int count ^ " passed)" - | ratio (count, n) = - "(" ^ string_of_int (count - n) ^ "/" ^ string_of_int count ^ " passed)" - - fun update (stats, badobjs) donep = - "\r" ^ StringCvt.padRight #"." namew tag ^ "." ^ - StringCvt.padRight #" " resultw (result (stats, badobjs) donep) ^ - StringCvt.padRight #" " countw (ratio (#count stats, length badobjs)) - - fun status (_, result, (stats, badobjs)) = - if Property.failure result then warning (update (stats, badobjs) false) else () - - fun prtag count (tag, n) first = - if String.isPrefix "__" tag then ("", first) - else - let - val ratio = round ((real n / real count) * 100.0) - in - (((if first then "" else StringCvt.padRight #" " allw "\n") ^ - StringCvt.padLeft #" " 3 (string_of_int ratio) ^ "% " ^ tag), - false) - end - - fun prtags ({count, tags} : Property.stats) = - if show_stats then cat_lines (fst (fold_map (prtag count) tags true)) else "" - - fun err badobjs = - let - fun iter [] _ = () - | iter (e :: es) k = - (warning (StringCvt.padLeft #" " namew (if k > 0 then "" else "counter-examples") ^ - StringCvt.padRight #" " resultw (if k > 0 then "" else ":") ^ e); - iter es (k + 1)) - in - iter (maybe_sort (take limit (map_filter I badobjs))) 0 - end - - fun finish (stats, badobjs) = - if null badobjs then writeln (update (stats, badobjs) true ^ prtags stats) - else (warning (update (stats, badobjs) true); err badobjs) - in - {status = status, finish = finish} - end) - -val _ = Theory.setup perl_style; - - -(* CM style: meshes with CM output; highlighted in sml-mode *) - -val cm_style = - Spec_Check.register_style "CM" - (fn ctxt => fn tag => - let - fun pad wd = StringCvt.padLeft #"0" wd o Int.toString - val gen_target = Config.get ctxt Spec_Check.gen_target - val _ = writeln ("[testing " ^ tag ^ "... ") - fun finish ({count, ...} : Property.stats, badobjs) = - (case (count, badobjs) of - (0, []) => warning ("no valid cases generated]") - | (n, []) => writeln ( - if n >= gen_target then "ok]" - else "ok on " ^ string_of_int n ^ "; " ^ string_of_int gen_target ^ " required]") - | (_, es) => - let - val wd = size (string_of_int (length es)) - fun each (NONE, _) = () - | each (SOME e, i) = warning (tag ^ ":" ^ pad wd i ^ ".0 Error: " ^ e) - in - (warning "FAILED]"; map each (es ~~ (1 upto (length es))); ()) - end) - in - {status = K (), finish = finish} - end) - -val _ = Theory.setup cm_style; - -end diff --git a/src/Tools/Spec_Check/property.ML b/src/Tools/Spec_Check/property.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/property.ML +++ /dev/null @@ -1,77 +0,0 @@ -(* Title: Tools/Spec_Check/property.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Conditional properties that can track argument distribution. -*) - -signature PROPERTY = -sig - -type 'a pred = 'a -> bool -type 'a prop -val pred : 'a pred -> 'a prop -val pred2 : ('a * 'b) pred -> 'b -> 'a prop -val implies : 'a pred * 'a prop -> 'a prop -val ==> : 'a pred * 'a pred -> 'a prop -val trivial : 'a pred -> 'a prop -> 'a prop -val classify : 'a pred -> string -> 'a prop -> 'a prop -val classify' : ('a -> string option) -> 'a prop -> 'a prop - -(*Results*) -type result = bool option -type stats = { tags : (string * int) list, count : int } -val test : 'a prop -> 'a * stats -> result * stats -val stats : stats -val success : result pred -val failure : result pred - -end - -structure Property : PROPERTY = -struct - -type result = bool option -type stats = { tags : (string * int) list, count : int } -type 'a pred = 'a -> bool -type 'a prop = 'a * stats -> result * stats - -fun success (SOME true) = true - | success _ = false - -fun failure (SOME false) = true - | failure _ = false - -fun apply f x = (case try f x of NONE => SOME false | some => some) -fun pred f (x,s) = (apply f x, s) -fun pred2 f z = pred (fn x => f (x, z)) - -fun implies (cond, p) (x,s) = if cond x then p (x, s) else (NONE, s) - -fun ==> (p1, p2) = implies (p1, pred p2) - -fun wrap trans p (x,s) = - let val (result,s) = p (x,s) - in (result, trans (x, result, s)) end - -fun classify' f = - wrap (fn (x, result, {tags, count}) => - { tags = - if is_some result then - (case f x of - NONE => tags - | SOME tag => AList.map_default (op =) (tag, 0) (fn c => c + 1) tags) - else tags, - count = count }) - -fun classify p tag = classify' (fn x => if p x then SOME tag else NONE) - -fun trivial cond = classify cond "trivial" - -fun test p = - wrap (fn (_, result, {tags, count}) => - { tags = tags, count = if is_some result then count + 1 else count }) p - -val stats = { tags = [], count = 0 } - -end diff --git a/src/Tools/Spec_Check/random.ML b/src/Tools/Spec_Check/random.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/random.ML +++ /dev/null @@ -1,46 +0,0 @@ -(* Title: Tools/Spec_Check/random.ML - Author: Lukas Bulwahn and Nicolai Schaffroth, TU Muenchen - Author: Christopher League - -Random number engine. -*) - -signature RANDOM = -sig - type rand - val new : unit -> rand - val range : int * int -> rand -> int * rand - val split : rand -> rand * rand -end - -structure Random : RANDOM = -struct - -type rand = real - -val a = 16807.0 -val m = 2147483647.0 - -fun nextrand seed = - let - val t = a * seed - in - t - m * real(floor(t/m)) - end - -val new = nextrand o Time.toReal o Time.now - -fun range (min, max) = - if min > max then raise Domain (* TODO: raise its own error *) - else fn r => (min + (floor(real(max-min+1) * r / m)), nextrand r) - -fun split r = - let - val r = r / a - val r0 = real(floor r) - val r1 = r - r0 - in - (nextrand r0, nextrand r1) - end - -end diff --git a/src/Tools/Spec_Check/spec_check.ML b/src/Tools/Spec_Check/spec_check.ML deleted file mode 100644 --- a/src/Tools/Spec_Check/spec_check.ML +++ /dev/null @@ -1,196 +0,0 @@ -(* Title: Tools/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 context : ML_Compiler0.context = - {name_space = #name_space ML_Env.context, - print_depth = SOME 1000000, - here = #here ML_Env.context, - print = fn r => return := r, - error = #error ML_Env.context} - val _ = - Context.setmp_generic_context (SOME (Context.Proof ctxt)) - (fn () => - ML_Compiler0.ML context - {line = 0, file = "generated code", verbose = true, debug = false} s) () - in - Gen_Construction.parse_pred (! return) - end; - -(*call the compiler and run the test*) -fun run_test ctxt s = - Context.setmp_generic_context (SOME (Context.Proof ctxt)) - (fn () => - ML_Compiler0.ML ML_Env.context - {line = 0, file = "generated code", verbose = false, debug = 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 (Context.the_local_context ()) s; -