(* Author: Lukas Bulwahn, TU Muenchen *)
header {* Another simple counterexample generator *}
theory Smallcheck
imports Quickcheck
uses ("Tools/smallvalue_generators.ML")
begin
subsection {* small value generator type classes *}
class small = term_of +
fixes small :: "('a \<Rightarrow> term list option) \<Rightarrow> code_numeral \<Rightarrow> term list option"
instantiation unit :: small
begin
definition "small f d = f ()"
instance ..
end
instantiation int :: small
begin
function small' :: "(int => term list option) => int => int => term list option"
where "small' f d i = (if d < i then None else (case f i of Some t => Some t | None => small' f d (i + 1)))"
by pat_completeness auto
termination
by (relation "measure (%(_, d, i). nat (d + 1 - i))") auto
definition "small f d = small' f (Code_Numeral.int_of d) (- (Code_Numeral.int_of d))"
instance ..
end
instantiation prod :: (small, small) small
begin
definition
"small f d = small (%x. small (%y. f (x, y)) d) d"
instance ..
end
subsection {* full small value generator type classes *}
class full_small = term_of +
fixes full_small :: "('a * (unit => term) \<Rightarrow> term list option) \<Rightarrow> code_numeral \<Rightarrow> term list option"
instantiation unit :: full_small
begin
definition "full_small f d = f (Code_Evaluation.valtermify ())"
instance ..
end
instantiation int :: full_small
begin
function full_small' :: "(int * (unit => term) => term list option) => int => int => term list option"
where "full_small' f d i = (if d < i then None else (case f (i, %_. Code_Evaluation.term_of i) of Some t => Some t | None => full_small' f d (i + 1)))"
by pat_completeness auto
termination
by (relation "measure (%(_, d, i). nat (d + 1 - i))") auto
definition "full_small f d = full_small' f (Code_Numeral.int_of d) (- (Code_Numeral.int_of d))"
instance ..
end
instantiation prod :: (full_small, full_small) full_small
begin
definition
"full_small f d = full_small (%(x, t1). full_small (%(y, t2). f ((x, y),
%u. Code_Evaluation.App (Code_Evaluation.App (Code_Evaluation.term_of (Pair :: 'a => 'b => ('a * 'b))) (t1 ())) (t2 ()))) d) d"
instance ..
end
instantiation "fun" :: ("{equal, full_small}", full_small) full_small
begin
fun full_small_fun' :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => code_numeral => term list option"
where
"full_small_fun' f i d = (if i > 1 then
full_small (%(a, at). full_small (%(b, bt).
full_small_fun' (%(g, gt). f (g(a := b),
(%_. let T1 = (Typerep.typerep (TYPE('a)));
T2 = (Typerep.typerep (TYPE('b)))
in
Code_Evaluation.App (Code_Evaluation.App (Code_Evaluation.App
(Code_Evaluation.Const (STR ''Fun.fun_upd'')
(Typerep.Typerep (STR ''fun'') [Typerep.Typerep (STR ''fun'') [T1, T2],
Typerep.Typerep (STR ''fun'') [T1, Typerep.Typerep (STR ''fun'') [T2, Typerep.Typerep (STR ''fun'') [T1, T2]]]]))
(gt ())) (at ())) (bt ())))) (i - 1) d) d) d
else (if i > 0 then
full_small (%(b, t). f (%_. b, %_. Code_Evaluation.Abs (STR ''x'') (Typerep.typerep TYPE('a)) (t ()))) d else None))"
definition full_small_fun :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => term list option"
where
"full_small_fun f d = full_small_fun' f d d"
instance ..
end
subsection {* Defining combinators for any first-order data type *}
definition orelse :: "'a option => 'a option => 'a option"
where
[code_unfold]: "orelse x y = (case x of Some x' => Some x' | None => y)"
definition catch_match :: "term list option => term list option => term list option"
where
[code del]: "catch_match t1 t2 = (SOME t. t = t1 \<or> t = t2)"
code_const catch_match
(SML "(_) handle Match => _")
use "Tools/smallvalue_generators.ML"
setup {* Smallvalue_Generators.setup *}
declare [[quickcheck_tester = exhaustive]]
hide_fact orelse_def catch_match_def
hide_const (open) orelse catch_match
end