# HG changeset patch # User bulwahn # Date 1302273074 -7200 # Node ID 34366f39d32d6bf784d4e0ad85f4ad9c688084ef # Parent 682b35dc1926d2b16b30a86286b33a5ec8123b31 new compilation for exhaustive quickcheck diff -r 682b35dc1926 -r 34366f39d32d src/HOL/Quickcheck_Exhaustive.thy --- a/src/HOL/Quickcheck_Exhaustive.thy Thu Apr 07 21:49:24 2011 +0200 +++ b/src/HOL/Quickcheck_Exhaustive.thy Fri Apr 08 16:31:14 2011 +0200 @@ -16,22 +16,35 @@ subsection {* exhaustive generator type classes *} class exhaustive = term_of + -fixes exhaustive :: "('a * (unit => term) \ term list option) \ code_numeral \ term list option" + fixes exhaustive :: "('a \ term list option) \ code_numeral \ term list option" + fixes full_exhaustive :: "('a * (unit => term) \ term list option) \ code_numeral \ term list option" instantiation code_numeral :: exhaustive begin -function exhaustive_code_numeral' :: "(code_numeral * (unit => term) => term list option) => code_numeral => code_numeral => term list option" +function full_exhaustive_code_numeral' :: "(code_numeral * (unit => term) => term list option) => code_numeral => code_numeral => term list option" + where "full_exhaustive_code_numeral' f d i = + (if d < i then None + else (f (i, %_. Code_Evaluation.term_of i)) orelse (full_exhaustive_code_numeral' f d (i + 1)))" +by pat_completeness auto + +termination + by (relation "measure (%(_, d, i). Code_Numeral.nat_of (d + 1 - i))") auto + +definition "full_exhaustive f d = full_exhaustive_code_numeral' f d 0" + +function exhaustive_code_numeral' :: "(code_numeral => term list option) => code_numeral => code_numeral => term list option" where "exhaustive_code_numeral' f d i = (if d < i then None - else (f (i, %_. Code_Evaluation.term_of i)) orelse (exhaustive_code_numeral' f d (i + 1)))" + else (f i orelse exhaustive_code_numeral' f d (i + 1)))" by pat_completeness auto -termination +termination by (relation "measure (%(_, d, i). Code_Numeral.nat_of (d + 1 - i))") auto definition "exhaustive f d = exhaustive_code_numeral' f d 0" + instance .. end @@ -39,7 +52,9 @@ instantiation nat :: exhaustive begin -definition "exhaustive f d = exhaustive (%(x, xt). f (Code_Numeral.nat_of x, %_. Code_Evaluation.term_of (Code_Numeral.nat_of x))) d" +definition "exhaustive f d = exhaustive (%x. f (Code_Numeral.nat_of x)) d" + +definition "full_exhaustive f d = full_exhaustive (%(x, xt). f (Code_Numeral.nat_of x, %_. Code_Evaluation.term_of (Code_Numeral.nat_of x))) d" instance .. @@ -48,8 +63,8 @@ instantiation int :: exhaustive begin -function exhaustive' :: "(int * (unit => term) => term list option) => int => int => term list option" - where "exhaustive' f d i = (if d < i then None else (case f (i, %_. Code_Evaluation.term_of i) of Some t => Some t | None => exhaustive' f d (i + 1)))" +function exhaustive' :: "(int => term list option) => int => int => term list option" + where "exhaustive' f d i = (if d < i then None else (f i orelse exhaustive' f d (i + 1)))" by pat_completeness auto termination @@ -57,6 +72,15 @@ definition "exhaustive f d = exhaustive' f (Code_Numeral.int_of d) (- (Code_Numeral.int_of d))" +function full_exhaustive' :: "(int * (unit => term) => term list option) => int => int => term list option" + where "full_exhaustive' f d i = (if d < i then None else (case f (i, %_. Code_Evaluation.term_of i) of Some t => Some t | None => full_exhaustive' f d (i + 1)))" +by pat_completeness auto + +termination + by (relation "measure (%(_, d, i). nat (d + 1 - i))") auto + +definition "full_exhaustive f d = full_exhaustive' f (Code_Numeral.int_of d) (- (Code_Numeral.int_of d))" + instance .. end @@ -65,7 +89,10 @@ begin definition - "exhaustive f d = exhaustive (%(x, t1). exhaustive (%(y, t2). f ((x, y), + "exhaustive f d = exhaustive (%x. exhaustive (%y. f ((x, y))) d) d" + +definition + "full_exhaustive f d = full_exhaustive (%(x, t1). full_exhaustive (%(y, t2). f ((x, y), %u. let T1 = (Typerep.typerep (TYPE('a))); T2 = (Typerep.typerep (TYPE('b))) in Code_Evaluation.App (Code_Evaluation.App ( @@ -80,11 +107,23 @@ instantiation "fun" :: ("{equal, exhaustive}", exhaustive) exhaustive begin -fun exhaustive_fun' :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => code_numeral => term list option" +fun exhaustive_fun' :: "(('a => 'b) => term list option) => code_numeral => code_numeral => term list option" +where + "exhaustive_fun' f i d = (exhaustive (%b. f (%_. b)) d) + orelse (if i > 1 then + exhaustive_fun' (%g. exhaustive (%a. exhaustive (%b. + f (g(a := b))) d) d) (i - 1) d else None)" + +definition exhaustive_fun :: "(('a => 'b) => term list option) => code_numeral => term list option" where - "exhaustive_fun' f i d = (exhaustive (%(b, t). f (%_. b, %_. Code_Evaluation.Abs (STR ''x'') (Typerep.typerep TYPE('a)) (t ()))) d) + "exhaustive_fun f d = exhaustive_fun' f d d" + + +fun full_exhaustive_fun' :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => code_numeral => term list option" +where + "full_exhaustive_fun' f i d = (full_exhaustive (%(b, t). f (%_. b, %_. Code_Evaluation.Abs (STR ''x'') (Typerep.typerep TYPE('a)) (t ()))) d) orelse (if i > 1 then - exhaustive_fun' (%(g, gt). exhaustive (%(a, at). exhaustive (%(b, bt). + full_exhaustive_fun' (%(g, gt). full_exhaustive (%(a, at). full_exhaustive (%(b, bt). f (g(a := b), (%_. let A = (Typerep.typerep (TYPE('a))); B = (Typerep.typerep (TYPE('b))); @@ -94,9 +133,9 @@ (Code_Evaluation.Const (STR ''Fun.fun_upd'') (fun (fun A B) (fun A (fun B (fun A B))))) (gt ())) (at ())) (bt ())))) d) d) (i - 1) d else None)" -definition exhaustive_fun :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => term list option" +definition full_exhaustive_fun :: "(('a => 'b) * (unit => term) => term list option) => code_numeral => term list option" where - "exhaustive_fun f d = exhaustive_fun' f d d" + "full_exhaustive_fun f d = full_exhaustive_fun' f d d" instance .. diff -r 682b35dc1926 -r 34366f39d32d src/HOL/Tools/Quickcheck/exhaustive_generators.ML --- a/src/HOL/Tools/Quickcheck/exhaustive_generators.ML Thu Apr 07 21:49:24 2011 +0200 +++ b/src/HOL/Tools/Quickcheck/exhaustive_generators.ML Fri Apr 08 16:31:14 2011 +0200 @@ -28,6 +28,9 @@ val (smart_quantifier, setup_smart_quantifier) = Attrib.config_bool "quickcheck_smart_quantifier" (K true) +val (full_support, setup_full_support) = + Attrib.config_bool "quickcheck_full_support" (K true) + val (quickcheck_pretty, setup_quickcheck_pretty) = Attrib.config_bool "quickcheck_pretty" (K true) @@ -61,7 +64,9 @@ val size = @{term "i :: code_numeral"} val size_pred = @{term "(i :: code_numeral) - 1"} val size_ge_zero = @{term "(i :: code_numeral) > 0"} -fun test_function T = Free ("f", termifyT T --> @{typ "term list option"}) + +fun test_function T = Free ("f", T --> @{typ "term list option"}) +fun full_test_function T = Free ("f", termifyT T --> @{typ "term list option"}) fun mk_none_continuation (x, y) = let @@ -76,8 +81,12 @@ exception FUNCTION_TYPE; val exhaustiveN = "exhaustive"; +val full_exhaustiveN = "full_exhaustive"; -fun exhaustiveT T = (termifyT T --> @{typ "Code_Evaluation.term list option"}) +fun exhaustiveT T = (T --> @{typ "Code_Evaluation.term list option"}) + --> @{typ code_numeral} --> @{typ "Code_Evaluation.term list option"} + +fun full_exhaustiveT T = (termifyT T --> @{typ "Code_Evaluation.term list option"}) --> @{typ code_numeral} --> @{typ "Code_Evaluation.term list option"} fun check_allT T = (termifyT T --> @{typ "Code_Evaluation.term list option"}) @@ -89,7 +98,45 @@ let val exhaustive = Const (@{const_name "Quickcheck_Exhaustive.exhaustive_class.exhaustive"}, exhaustiveT T) in - (T, (fn t => exhaustive $ + (T, fn t => exhaustive $ absdummy (T, t) $ size_pred) + end + fun mk_aux_call fTs (k, _) (tyco, Ts) = + let + val T = Type (tyco, Ts) + val _ = if not (null fTs) then raise FUNCTION_TYPE else () + in + (T, fn t => nth exhaustives k $ absdummy (T, t) $ size_pred) + end + fun mk_consexpr simpleT (c, xs) = + let + val (Ts, fns) = split_list xs + val constr = Const (c, Ts ---> simpleT) + val bounds = map Bound (((length xs) - 1) downto 0) + val term_bounds = map (fn x => Bound (2 * x)) (((length xs) - 1) downto 0) + val start_term = test_function simpleT $ list_comb (constr, bounds) + in fold_rev (fn f => fn t => f t) fns start_term end + fun mk_rhs exprs = + @{term "If :: bool => term list option => term list option => term list option"} + $ size_ge_zero $ (foldr1 mk_none_continuation exprs) $ @{term "None :: term list option"} + val rhss = + Datatype_Aux.interpret_construction descr vs + { atyp = mk_call, dtyp = mk_aux_call } + |> (map o apfst) Type + |> map (fn (T, cs) => map (mk_consexpr T) cs) + |> map mk_rhs + val lhss = map2 (fn t => fn T => t $ test_function T $ size) exhaustives (Ts @ Us) + val eqs = map (HOLogic.mk_Trueprop o HOLogic.mk_eq) (lhss ~~ rhss) + in + eqs + end + +fun mk_full_equations descr vs tycos full_exhaustives (Ts, Us) = + let + fun mk_call T = + let + val full_exhaustive = Const (@{const_name "Quickcheck_Exhaustive.exhaustive_class.full_exhaustive"}, full_exhaustiveT T) + in + (T, (fn t => full_exhaustive $ (HOLogic.split_const (T, @{typ "unit => Code_Evaluation.term"}, @{typ "Code_Evaluation.term list option"}) $ absdummy (T, absdummy (@{typ "unit => Code_Evaluation.term"}, t))) $ size_pred)) end @@ -98,7 +145,7 @@ val T = Type (tyco, Ts) val _ = if not (null fTs) then raise FUNCTION_TYPE else () in - (T, (fn t => nth exhaustives k $ + (T, (fn t => nth full_exhaustives k $ (HOLogic.split_const (T, @{typ "unit => Code_Evaluation.term"}, @{typ "Code_Evaluation.term list option"}) $ absdummy (T, absdummy (@{typ "unit => Code_Evaluation.term"}, t))) $ size_pred)) end @@ -112,7 +159,7 @@ val Eval_Const = Const ("Code_Evaluation.Const", HOLogic.literalT --> @{typ typerep} --> HOLogic.termT) val term = fold (fn u => fn t => Eval_App $ t $ (u $ @{term "()"})) bounds (Eval_Const $ HOLogic.mk_literal c $ HOLogic.mk_typerep (Ts ---> simpleT)) - val start_term = test_function simpleT $ + val start_term = full_test_function simpleT $ (HOLogic.pair_const simpleT @{typ "unit => Code_Evaluation.term"} $ (list_comb (constr, bounds)) $ absdummy (@{typ unit}, term)) in fold_rev (fn f => fn t => f t) fns start_term end @@ -125,7 +172,7 @@ |> (map o apfst) Type |> map (fn (T, cs) => map (mk_consexpr T) cs) |> map mk_rhs - val lhss = map2 (fn t => fn T => t $ test_function T $ size) exhaustives (Ts @ Us); + val lhss = map2 (fn t => fn T => t $ full_test_function T $ size) full_exhaustives (Ts @ Us); val eqs = map (HOLogic.mk_Trueprop o HOLogic.mk_eq) (lhss ~~ rhss) in eqs @@ -157,13 +204,18 @@ fun instantiate_exhaustive_datatype config descr vs tycos prfx (names, auxnames) (Ts, Us) thy = let val _ = Datatype_Aux.message config "Creating exhaustive generators..."; - val exhaustivesN = map (prefix (exhaustiveN ^ "_")) (names @ auxnames); + val exhaustivesN = map (prefix (exhaustiveN ^ "_")) (names @ auxnames) + val full_exhaustivesN = map (prefix (full_exhaustiveN ^ "_")) (names @ auxnames) in thy |> Class.instantiation (tycos, vs, @{sort exhaustive}) |> Quickcheck_Common.define_functions (fn exhaustives => mk_equations descr vs tycos exhaustives (Ts, Us), SOME termination_tac) prfx ["f", "i"] exhaustivesN (map exhaustiveT (Ts @ Us)) + |> Quickcheck_Common.define_functions + (fn full_exhaustives => mk_full_equations descr vs tycos full_exhaustives (Ts, Us), + SOME termination_tac) + prfx ["f", "i"] full_exhaustivesN (map full_exhaustiveT (Ts @ Us)) |> Class.prove_instantiation_exit (K (Class.intro_classes_tac [])) end handle FUNCTION_TYPE => (Datatype_Aux.message config @@ -244,6 +296,48 @@ val names = Term.add_free_names t [] val frees = map Free (Term.add_frees t []) val ([depth_name], ctxt'') = Variable.variant_fixes ["depth"] ctxt' + val depth = Free (depth_name, @{typ code_numeral}) + val return = @{term "Some :: term list => term list option"} $ + (HOLogic.mk_list @{typ "term"} + (map (fn t => HOLogic.mk_term_of (fastype_of t) t) (frees @ eval_terms))) + fun mk_exhaustive_closure (free as Free (_, T)) t = + Const (@{const_name "Quickcheck_Exhaustive.exhaustive_class.exhaustive"}, exhaustiveT T) + $ lambda free t $ depth + val none_t = @{term "None :: term list option"} + fun mk_safe_if (cond, then_t, else_t) = + @{term "Quickcheck_Exhaustive.catch_match :: term list option => term list option => term list option"} $ + (@{term "If :: bool => term list option => term list option => term list option"} + $ cond $ then_t $ else_t) $ none_t; + fun lookup v = the (AList.lookup (op =) (names ~~ frees) v) + fun mk_naive_test_term t = + fold_rev mk_exhaustive_closure frees (mk_safe_if (t, none_t, return)) + fun mk_smart_test_term' concl bound_vars assms = + let + fun vars_of t = subtract (op =) bound_vars (Term.add_free_names t []) + val (vars, check) = + case assms of [] => (vars_of concl, (concl, none_t, return)) + | assm :: assms => (vars_of assm, (assm, + mk_smart_test_term' concl (union (op =) (vars_of assm) bound_vars) assms, none_t)) + in + fold_rev mk_exhaustive_closure (map lookup vars) (mk_safe_if check) + end + fun mk_smart_test_term t = + let + val (assms, concl) = Quickcheck_Common.strip_imp t + in + mk_smart_test_term' concl [] assms + end + val mk_test_term = + if Config.get ctxt smart_quantifier then mk_smart_test_term else mk_naive_test_term + in lambda depth (mk_test_term t) end + +fun mk_full_generator_expr ctxt (t, eval_terms) = + let + val thy = ProofContext.theory_of ctxt + val ctxt' = Variable.auto_fixes t ctxt + val names = Term.add_free_names t [] + val frees = map Free (Term.add_frees t []) + val ([depth_name], ctxt'') = Variable.variant_fixes ["depth"] ctxt' val (term_names, ctxt''') = Variable.variant_fixes (map (prefix "t_") names) ctxt'' val depth = Free (depth_name, @{typ code_numeral}) val term_vars = map (fn n => Free (n, @{typ "unit => term"})) term_names @@ -288,7 +382,7 @@ if Config.get ctxt smart_quantifier then mk_smart_test_term else mk_naive_test_term in lambda depth (mk_test_term t) end -val mk_parametric_generator_expr = +fun mk_parametric_generator_expr mk_generator_expr = Quickcheck_Common.gen_mk_parametric_generator_expr ((mk_generator_expr, absdummy (@{typ "code_numeral"}, @{term "None :: term list option"})), @{typ "code_numeral => term list option"}) @@ -359,7 +453,9 @@ fun compile_generator_expr ctxt ts = let val thy = ProofContext.theory_of ctxt - val t' = mk_parametric_generator_expr ctxt ts; + val mk_generator_expr = + if Config.get ctxt full_support then mk_full_generator_expr else mk_generator_expr + val t' = mk_parametric_generator_expr mk_generator_expr ctxt ts; val compile = Code_Runtime.dynamic_value_strict (Counterexample.get, put_counterexample, "Exhaustive_Generators.put_counterexample") thy (SOME target) (fn proc => fn g => @@ -402,6 +498,7 @@ #> Datatype.interpretation (Quickcheck_Common.ensure_sort_datatype (((@{sort type}, @{sort type}), @{sort bounded_forall}), instantiate_bounded_forall_datatype)) #> setup_smart_quantifier + #> setup_full_support #> setup_quickcheck_pretty #> Context.theory_map (Quickcheck.add_generator ("exhaustive", compile_generator_expr)) #> Context.theory_map (Quickcheck.add_batch_generator ("exhaustive", compile_generator_exprs))