wneuper/isa: src/HOL/Nitpick.thy@ff2bf50505ab (annotated)

blanchet@33192	1	(* Title: HOL/Nitpick.thy
blanchet@33192	2	Author: Jasmin Blanchette, TU Muenchen
blanchet@33192	3	Copyright 2008, 2009
blanchet@33192	4
blanchet@33192	5	Nitpick: Yet another counterexample generator for Isabelle/HOL.
blanchet@33192	6	*)
blanchet@33192	7
blanchet@33192	8	header {* Nitpick: Yet Another Counterexample Generator for Isabelle/HOL *}
blanchet@33192	9
blanchet@33192	10	theory Nitpick
blanchet@35284	11	imports Map Quotient SAT
blanchet@33192	12	uses ("Tools/Nitpick/kodkod.ML")
blanchet@33192	13	("Tools/Nitpick/kodkod_sat.ML")
blanchet@33192	14	("Tools/Nitpick/nitpick_util.ML")
blanchet@33192	15	("Tools/Nitpick/nitpick_hol.ML")
blanchet@35067	16	("Tools/Nitpick/nitpick_preproc.ML")
blanchet@33192	17	("Tools/Nitpick/nitpick_mono.ML")
blanchet@33192	18	("Tools/Nitpick/nitpick_scope.ML")
blanchet@33192	19	("Tools/Nitpick/nitpick_peephole.ML")
blanchet@33192	20	("Tools/Nitpick/nitpick_rep.ML")
blanchet@33192	21	("Tools/Nitpick/nitpick_nut.ML")
blanchet@33192	22	("Tools/Nitpick/nitpick_kodkod.ML")
blanchet@33192	23	("Tools/Nitpick/nitpick_model.ML")
blanchet@33192	24	("Tools/Nitpick/nitpick.ML")
blanchet@33192	25	("Tools/Nitpick/nitpick_isar.ML")
blanchet@33192	26	("Tools/Nitpick/nitpick_tests.ML")
blanchet@33192	27	("Tools/Nitpick/minipick.ML")
blanchet@33192	28	begin
blanchet@33192	29
blanchet@33192	30	typedecl bisim_iterator
blanchet@33192	31
blanchet@33192	32	axiomatization unknown :: 'a
blanchet@34925	33	and is_unknown :: "'a \<Rightarrow> bool"
blanchet@33192	34	and undefined_fast_The :: 'a
blanchet@33192	35	and undefined_fast_Eps :: 'a
blanchet@33192	36	and bisim :: "bisim_iterator \<Rightarrow> 'a \<Rightarrow> 'a \<Rightarrow> bool"
blanchet@33192	37	and bisim_iterator_max :: bisim_iterator
blanchet@34925	38	and Quot :: "'a \<Rightarrow> 'b"
blanchet@33192	39	and Tha :: "('a \<Rightarrow> bool) \<Rightarrow> 'a"
blanchet@33192	40
blanchet@35665	41	datatype ('a, 'b) fin_fun = FinFun "('a \<Rightarrow> 'b)"
blanchet@35665	42	datatype ('a, 'b) fun_box = FunBox "('a \<Rightarrow> 'b)"
blanchet@33192	43	datatype ('a, 'b) pair_box = PairBox 'a 'b
blanchet@34121	44
blanchet@34121	45	typedecl unsigned_bit
blanchet@34121	46	typedecl signed_bit
blanchet@34121	47
blanchet@34121	48	datatype 'a word = Word "('a set)"
blanchet@33192	49
blanchet@33192	50	text {*
blanchet@33192	51	Alternative definitions.
blanchet@33192	52	*}
blanchet@33192	53
blanchet@33192	54	lemma If_def [nitpick_def]:
blanchet@33192	55	"(if P then Q else R) \<equiv> (P \<longrightarrow> Q) \<and> (\<not> P \<longrightarrow> R)"
blanchet@33192	56	by (rule eq_reflection) (rule if_bool_eq_conj)
blanchet@33192	57
blanchet@33192	58	lemma Ex1_def [nitpick_def]:
blanchet@33192	59	"Ex1 P \<equiv> \<exists>x. P = {x}"
blanchet@33192	60	apply (rule eq_reflection)
blanchet@33192	61	apply (simp add: Ex1_def expand_set_eq)
blanchet@33192	62	apply (rule iffI)
blanchet@33192	63	apply (erule exE)
blanchet@33192	64	apply (erule conjE)
blanchet@33192	65	apply (rule_tac x = x in exI)
blanchet@33192	66	apply (rule allI)
blanchet@33192	67	apply (rename_tac y)
blanchet@33192	68	apply (erule_tac x = y in allE)
blanchet@33192	69	by (auto simp: mem_def)
blanchet@33192	70
blanchet@33192	71	lemma rtrancl_def [nitpick_def]: "r\<^sup>* \<equiv> (r\<^sup>+)\<^sup>="
blanchet@33192	72	by simp
blanchet@33192	73
blanchet@33192	74	lemma rtranclp_def [nitpick_def]:
blanchet@33192	75	"rtranclp r a b \<equiv> (a = b \<or> tranclp r a b)"
blanchet@33192	76	by (rule eq_reflection) (auto dest: rtranclpD)
blanchet@33192	77
blanchet@33192	78	lemma tranclp_def [nitpick_def]:
blanchet@33192	79	"tranclp r a b \<equiv> trancl (split r) (a, b)"
blanchet@33192	80	by (simp add: trancl_def Collect_def mem_def)
blanchet@33192	81
blanchet@33192	82	definition refl' :: "('a \<times> 'a \<Rightarrow> bool) \<Rightarrow> bool" where
blanchet@33192	83	"refl' r \<equiv> \<forall>x. (x, x) \<in> r"
blanchet@33192	84
blanchet@33192	85	definition wf' :: "('a \<times> 'a \<Rightarrow> bool) \<Rightarrow> bool" where
blanchet@33192	86	"wf' r \<equiv> acyclic r \<and> (finite r \<or> unknown)"
blanchet@33192	87
blanchet@33192	88	axiomatization wf_wfrec :: "('a \<times> 'a \<Rightarrow> bool) \<Rightarrow> (('a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b"
blanchet@33192	89
blanchet@33192	90	definition wf_wfrec' :: "('a \<times> 'a \<Rightarrow> bool) \<Rightarrow> (('a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b" where
blanchet@33192	91	[nitpick_simp]: "wf_wfrec' R F x = F (Recdef.cut (wf_wfrec R F) R x) x"
blanchet@33192	92
blanchet@33192	93	definition wfrec' :: "('a \<times> 'a \<Rightarrow> bool) \<Rightarrow> (('a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b) \<Rightarrow> 'a \<Rightarrow> 'b" where
blanchet@33192	94	"wfrec' R F x \<equiv> if wf R then wf_wfrec' R F x
blanchet@33192	95	else THE y. wfrec_rel R (%f x. F (Recdef.cut f R x) x) x y"
blanchet@33192	96
blanchet@33192	97	definition card' :: "('a \<Rightarrow> bool) \<Rightarrow> nat" where
blanchet@33192	98	"card' X \<equiv> length (SOME xs. set xs = X \<and> distinct xs)"
blanchet@33192	99
blanchet@33192	100	definition setsum' :: "('a \<Rightarrow> 'b\<Colon>comm_monoid_add) \<Rightarrow> ('a \<Rightarrow> bool) \<Rightarrow> 'b" where
blanchet@33192	101	"setsum' f A \<equiv> if finite A then listsum (map f (SOME xs. set xs = A \<and> distinct xs)) else 0"
blanchet@33192	102
blanchet@33192	103	inductive fold_graph' :: "('a \<Rightarrow> 'b \<Rightarrow> 'b) \<Rightarrow> 'b \<Rightarrow> ('a \<Rightarrow> bool) \<Rightarrow> 'b \<Rightarrow> bool" where
blanchet@33192	104	"fold_graph' f z {} z" \|
blanchet@33192	105	"\<lbrakk>x \<in> A; fold_graph' f z (A - {x}) y\<rbrakk> \<Longrightarrow> fold_graph' f z A (f x y)"
blanchet@33192	106
blanchet@33192	107	text {*
blanchet@33192	108	The following lemmas are not strictly necessary but they help the
blanchet@33192	109	\textit{special\_level} optimization.
blanchet@33192	110	*}
blanchet@33192	111
blanchet@33192	112	lemma The_psimp [nitpick_psimp]:
blanchet@33192	113	"P = {x} \<Longrightarrow> The P = x"
blanchet@33192	114	by (subgoal_tac "{x} = (\<lambda>y. y = x)") (auto simp: mem_def)
blanchet@33192	115
blanchet@33192	116	lemma Eps_psimp [nitpick_psimp]:
blanchet@33192	117	"\<lbrakk>P x; \<not> P y; Eps P = y\<rbrakk> \<Longrightarrow> Eps P = x"
blanchet@33192	118	apply (case_tac "P (Eps P)")
blanchet@33192	119	apply auto
blanchet@33192	120	apply (erule contrapos_np)
blanchet@33192	121	by (rule someI)
blanchet@33192	122
blanchet@33192	123	lemma unit_case_def [nitpick_def]:
blanchet@33192	124	"unit_case x u \<equiv> x"
blanchet@33192	125	apply (subgoal_tac "u = ()")
blanchet@33192	126	apply (simp only: unit.cases)
blanchet@33192	127	by simp
blanchet@33192	128
blanchet@33547	129	declare unit.cases [nitpick_simp del]
blanchet@33547	130
blanchet@33192	131	lemma nat_case_def [nitpick_def]:
blanchet@33192	132	"nat_case x f n \<equiv> if n = 0 then x else f (n - 1)"
blanchet@33192	133	apply (rule eq_reflection)
blanchet@33192	134	by (case_tac n) auto
blanchet@33192	135
blanchet@33547	136	declare nat.cases [nitpick_simp del]
blanchet@33547	137
blanchet@33192	138	lemma list_size_simp [nitpick_simp]:
blanchet@33192	139	"list_size f xs = (if xs = [] then 0
blanchet@33192	140	else Suc (f (hd xs) + list_size f (tl xs)))"
blanchet@33192	141	"size xs = (if xs = [] then 0 else Suc (size (tl xs)))"
blanchet@33192	142	by (case_tac xs) auto
blanchet@33192	143
blanchet@33192	144	text {*
blanchet@33192	145	Auxiliary definitions used to provide an alternative representation for
blanchet@33192	146	@{text rat} and @{text real}.
blanchet@33192	147	*}
blanchet@33192	148
blanchet@33192	149	function nat_gcd :: "nat \<Rightarrow> nat \<Rightarrow> nat" where
blanchet@33192	150	[simp del]: "nat_gcd x y = (if y = 0 then x else nat_gcd y (x mod y))"
blanchet@33192	151	by auto
blanchet@33192	152	termination
blanchet@33192	153	apply (relation "measure (\<lambda>(x, y). x + y + (if y > x then 1 else 0))")
blanchet@33192	154	apply auto
blanchet@33192	155	apply (metis mod_less_divisor xt1(9))
blanchet@33192	156	by (metis mod_mod_trivial mod_self nat_neq_iff xt1(10))
blanchet@33192	157
blanchet@33192	158	definition nat_lcm :: "nat \<Rightarrow> nat \<Rightarrow> nat" where
blanchet@33192	159	"nat_lcm x y = x * y div (nat_gcd x y)"
blanchet@33192	160
blanchet@33192	161	definition int_gcd :: "int \<Rightarrow> int \<Rightarrow> int" where
blanchet@33192	162	"int_gcd x y = int (nat_gcd (nat (abs x)) (nat (abs y)))"
blanchet@33192	163
blanchet@33192	164	definition int_lcm :: "int \<Rightarrow> int \<Rightarrow> int" where
blanchet@33192	165	"int_lcm x y = int (nat_lcm (nat (abs x)) (nat (abs y)))"
blanchet@33192	166
blanchet@33192	167	definition Frac :: "int \<times> int \<Rightarrow> bool" where
blanchet@33192	168	"Frac \<equiv> \<lambda>(a, b). b > 0 \<and> int_gcd a b = 1"
blanchet@33192	169
blanchet@33192	170	axiomatization Abs_Frac :: "int \<times> int \<Rightarrow> 'a"
blanchet@33192	171	and Rep_Frac :: "'a \<Rightarrow> int \<times> int"
blanchet@33192	172
blanchet@33192	173	definition zero_frac :: 'a where
blanchet@33192	174	"zero_frac \<equiv> Abs_Frac (0, 1)"
blanchet@33192	175
blanchet@33192	176	definition one_frac :: 'a where
blanchet@33192	177	"one_frac \<equiv> Abs_Frac (1, 1)"
blanchet@33192	178
blanchet@33192	179	definition num :: "'a \<Rightarrow> int" where
blanchet@33192	180	"num \<equiv> fst o Rep_Frac"
blanchet@33192	181
blanchet@33192	182	definition denom :: "'a \<Rightarrow> int" where
blanchet@33192	183	"denom \<equiv> snd o Rep_Frac"
blanchet@33192	184
blanchet@33192	185	function norm_frac :: "int \<Rightarrow> int \<Rightarrow> int \<times> int" where
blanchet@33192	186	[simp del]: "norm_frac a b = (if b < 0 then norm_frac (- a) (- b)
blanchet@33192	187	else if a = 0 \<or> b = 0 then (0, 1)
blanchet@33192	188	else let c = int_gcd a b in (a div c, b div c))"
blanchet@33192	189	by pat_completeness auto
blanchet@33192	190	termination by (relation "measure (\<lambda>(_, b). if b < 0 then 1 else 0)") auto
blanchet@33192	191
blanchet@33192	192	definition frac :: "int \<Rightarrow> int \<Rightarrow> 'a" where
blanchet@33192	193	"frac a b \<equiv> Abs_Frac (norm_frac a b)"
blanchet@33192	194
blanchet@33192	195	definition plus_frac :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" where
blanchet@33192	196	[nitpick_simp]:
blanchet@33192	197	"plus_frac q r = (let d = int_lcm (denom q) (denom r) in
blanchet@33192	198	frac (num q * (d div denom q) + num r * (d div denom r)) d)"
blanchet@33192	199
blanchet@33192	200	definition times_frac :: "'a \<Rightarrow> 'a \<Rightarrow> 'a" where
blanchet@33192	201	[nitpick_simp]:
blanchet@33192	202	"times_frac q r = frac (num q * num r) (denom q * denom r)"
blanchet@33192	203
blanchet@33192	204	definition uminus_frac :: "'a \<Rightarrow> 'a" where
blanchet@33192	205	"uminus_frac q \<equiv> Abs_Frac (- num q, denom q)"
blanchet@33192	206
blanchet@33192	207	definition number_of_frac :: "int \<Rightarrow> 'a" where
blanchet@33192	208	"number_of_frac n \<equiv> Abs_Frac (n, 1)"
blanchet@33192	209
blanchet@33192	210	definition inverse_frac :: "'a \<Rightarrow> 'a" where
blanchet@33192	211	"inverse_frac q \<equiv> frac (denom q) (num q)"
blanchet@33192	212
blanchet@33192	213	definition less_eq_frac :: "'a \<Rightarrow> 'a \<Rightarrow> bool" where
blanchet@33192	214	[nitpick_simp]:
blanchet@33192	215	"less_eq_frac q r \<longleftrightarrow> num (plus_frac q (uminus_frac r)) \<le> 0"
blanchet@33192	216
blanchet@33192	217	definition of_frac :: "'a \<Rightarrow> 'b\<Colon>{inverse,ring_1}" where
blanchet@33192	218	"of_frac q \<equiv> of_int (num q) / of_int (denom q)"
blanchet@33192	219
blanchet@33192	220	use "Tools/Nitpick/kodkod.ML"
blanchet@33192	221	use "Tools/Nitpick/kodkod_sat.ML"
blanchet@33192	222	use "Tools/Nitpick/nitpick_util.ML"
blanchet@33192	223	use "Tools/Nitpick/nitpick_hol.ML"
blanchet@35665	224	use "Tools/Nitpick/nitpick_mono.ML"
blanchet@35067	225	use "Tools/Nitpick/nitpick_preproc.ML"
blanchet@33192	226	use "Tools/Nitpick/nitpick_scope.ML"
blanchet@33192	227	use "Tools/Nitpick/nitpick_peephole.ML"
blanchet@33192	228	use "Tools/Nitpick/nitpick_rep.ML"
blanchet@33192	229	use "Tools/Nitpick/nitpick_nut.ML"
blanchet@33192	230	use "Tools/Nitpick/nitpick_kodkod.ML"
blanchet@33192	231	use "Tools/Nitpick/nitpick_model.ML"
blanchet@33192	232	use "Tools/Nitpick/nitpick.ML"
blanchet@33192	233	use "Tools/Nitpick/nitpick_isar.ML"
blanchet@33192	234	use "Tools/Nitpick/nitpick_tests.ML"
blanchet@33192	235	use "Tools/Nitpick/minipick.ML"
blanchet@33192	236
blanchet@33552	237	setup {* Nitpick_Isar.setup *}
blanchet@33552	238
blanchet@34925	239	hide (open) const unknown is_unknown undefined_fast_The undefined_fast_Eps bisim
blanchet@35665	240	bisim_iterator_max Quot Tha FinFun FunBox PairBox Word refl' wf' wf_wfrec
blanchet@35665	241	wf_wfrec' wfrec' card' setsum' fold_graph' nat_gcd nat_lcm int_gcd int_lcm
blanchet@35665	242	Frac Abs_Frac Rep_Frac zero_frac one_frac num denom norm_frac frac plus_frac
blanchet@35311	243	times_frac uminus_frac number_of_frac inverse_frac less_eq_frac of_frac
blanchet@35665	244	hide (open) type bisim_iterator fin_fun fun_box pair_box unsigned_bit signed_bit
blanchet@35665	245	word
blanchet@33192	246	hide (open) fact If_def Ex1_def rtrancl_def rtranclp_def tranclp_def refl'_def
blanchet@33192	247	wf'_def wf_wfrec'_def wfrec'_def card'_def setsum'_def fold_graph'_def
blanchet@33547	248	The_psimp Eps_psimp unit_case_def nat_case_def list_size_simp nat_gcd_def
blanchet@33547	249	nat_lcm_def int_gcd_def int_lcm_def Frac_def zero_frac_def one_frac_def
blanchet@33547	250	num_def denom_def norm_frac_def frac_def plus_frac_def times_frac_def
blanchet@33547	251	uminus_frac_def number_of_frac_def inverse_frac_def less_eq_frac_def
blanchet@33547	252	of_frac_def
blanchet@33192	253
blanchet@33192	254	end

author	blanchet
	Tue, 09 Mar 2010 09:25:23 +0100
changeset 35665	ff2bf50505ab
parent 35311	8f9a66fc9f80
child 35666	ed2c3830d881
permissions	-rw-r--r--