isabelle: src/FOL/FOL.thy@747db833fbf7 (annotated)

9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	1	(* Title: FOL/FOL.thy
7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	2	Author: Lawrence C Paulson and Markus Wenzel
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	3	*)
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	4
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	5	header {* Classical first-order logic *}
4093 5e8f3d57dee7 added claset thy_data; wenzelm parents: 0 diff changeset	6
18456 8cc35e95450a updated auxiliary facts for induct method; wenzelm parents: 16417 diff changeset	7	theory FOL
15481 fc075ae929e4 the new subst tactic, by Lucas Dixon paulson parents: 15019 diff changeset	8	imports IFOL
46950 d0181abdbdac declare command keywords via theory header, including strict checking outside Pure; wenzelm parents: 45654 diff changeset	9	keywords "print_claset" "print_induct_rules" :: diag
18456 8cc35e95450a updated auxiliary facts for induct method; wenzelm parents: 16417 diff changeset	10	begin
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	11
48891 c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	12	ML_file "~~/src/Provers/classical.ML"
c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	13	ML_file "~~/src/Provers/blast.ML"
c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	14	ML_file "~~/src/Provers/clasimp.ML"
c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	15	ML_file "~~/src/Tools/induct.ML"
c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	16	ML_file "~~/src/Tools/case_product.ML"
c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	17
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	18
7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	19	subsection {* The classical axiom *}
4093 5e8f3d57dee7 added claset thy_data; wenzelm parents: 0 diff changeset	20
41779 a68f503805ed modernized specifications; wenzelm parents: 41310 diff changeset	21	axiomatization where
7355 4c43090659ca proper bootstrap of IFOL/FOL theories and packages; wenzelm parents: 5887 diff changeset	22	classical: "(~P ==> P) ==> P"
4093 5e8f3d57dee7 added claset thy_data; wenzelm parents: 0 diff changeset	23
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	24
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	25	subsection {* Lemmas and proof tools *}
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	26
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	27	lemma ccontr: "(\<not> P \<Longrightarrow> False) \<Longrightarrow> P"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	28	by (erule FalseE [THEN classical])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	29
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	30	(* Classical introduction rules for \| and EX *)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	31
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	32	lemma disjCI: "(~Q ==> P) ==> P\|Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	33	apply (rule classical)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	34	apply (assumption \| erule meta_mp \| rule disjI1 notI)+
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	35	apply (erule notE disjI2)+
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	36	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	37
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	38	(introduction rule involving only EX)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	39	lemma ex_classical:
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	40	assumes r: "~(EX x. P(x)) ==> P(a)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	41	shows "EX x. P(x)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	42	apply (rule classical)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	43	apply (rule exI, erule r)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	44	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	45
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	46	(version of above, simplifying ~EX to ALL~ )
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	47	lemma exCI:
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	48	assumes r: "ALL x. ~P(x) ==> P(a)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	49	shows "EX x. P(x)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	50	apply (rule ex_classical)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	51	apply (rule notI [THEN allI, THEN r])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	52	apply (erule notE)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	53	apply (erule exI)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	54	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	55
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	56	lemma excluded_middle: "~P \| P"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	57	apply (rule disjCI)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	58	apply assumption
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	59	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	60
27115 0dcafa5c9e3f eliminated obsolete case_split_thm -- use case_split; wenzelm parents: 26496 diff changeset	61	lemma case_split [case_names True False]:
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	62	assumes r1: "P ==> Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	63	and r2: "~P ==> Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	64	shows Q
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	65	apply (rule excluded_middle [THEN disjE])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	66	apply (erule r2)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	67	apply (erule r1)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	68	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	69
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	70	ML {*
27239 f2f42f9fa09d pervasive RuleInsts; wenzelm parents: 27211 diff changeset	71	fun case_tac ctxt a = res_inst_tac ctxt [(("P", 0), a)] @{thm case_split}
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	72	*}
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	73
30549 d2d7874648bd simplified method setup; wenzelm parents: 28856 diff changeset	74	method_setup case_tac = {*
d2d7874648bd simplified method setup; wenzelm parents: 28856 diff changeset	75	Args.goal_spec -- Scan.lift Args.name_source >>
42814 5af15f1e2ef6 simplified/unified method_setup/attribute_setup; wenzelm parents: 42802 diff changeset	76	(fn (quant, s) => fn ctxt => SIMPLE_METHOD'' quant (case_tac ctxt s))
30549 d2d7874648bd simplified method setup; wenzelm parents: 28856 diff changeset	77	*} "case_tac emulation (dynamic instantiation!)"
27211 6724f31a1c8e removed unused excluded_middle_tac; wenzelm parents: 27115 diff changeset	78
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	79
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	80	(*** Special elimination rules *)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	81
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	82
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	83	(Classical implies (-->) elimination. )
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	84	lemma impCE:
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	85	assumes major: "P-->Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	86	and r1: "~P ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	87	and r2: "Q ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	88	shows R
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	89	apply (rule excluded_middle [THEN disjE])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	90	apply (erule r1)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	91	apply (rule r2)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	92	apply (erule major [THEN mp])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	93	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	94
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	95	(*This version of --> elimination works on Q before P. It works best for
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	96	those cases in which P holds "almost everywhere". Can't install as
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	97	default: would break old proofs.*)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	98	lemma impCE':
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	99	assumes major: "P-->Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	100	and r1: "Q ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	101	and r2: "~P ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	102	shows R
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	103	apply (rule excluded_middle [THEN disjE])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	104	apply (erule r2)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	105	apply (rule r1)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	106	apply (erule major [THEN mp])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	107	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	108
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	109	(Double negation law)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	110	lemma notnotD: "~~P ==> P"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	111	apply (rule classical)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	112	apply (erule notE)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	113	apply assumption
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	114	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	115
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	116	lemma contrapos2: "[\| Q; ~ P ==> ~ Q \|] ==> P"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	117	apply (rule classical)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	118	apply (drule (1) meta_mp)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	119	apply (erule (1) notE)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	120	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	121
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	122	(* Tactics for implication and contradiction *)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	123
42453 cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	124	(*Classical <-> elimination. Proof substitutes P=Q in
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	125	~P ==> ~Q and P ==> Q *)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	126	lemma iffCE:
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	127	assumes major: "P<->Q"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	128	and r1: "[\| P; Q \|] ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	129	and r2: "[\| ~P; ~Q \|] ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	130	shows R
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	131	apply (rule major [unfolded iff_def, THEN conjE])
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	132	apply (elim impCE)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	133	apply (erule (1) r2)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	134	apply (erule (1) notE)+
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	135	apply (erule (1) r1)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	136	done
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	137
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	138
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	139	(Better for fast_tac: needs no quantifier duplication!)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	140	lemma alt_ex1E:
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	141	assumes major: "EX! x. P(x)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	142	and r: "!!x. [\| P(x); ALL y y'. P(y) & P(y') --> y=y' \|] ==> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	143	shows R
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	144	using major
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	145	proof (rule ex1E)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	146	fix x
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	147	assume * : "\<forall>y. P(y) \<longrightarrow> y = x"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	148	assume "P(x)"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	149	then show R
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	150	proof (rule r)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	151	{ fix y y'
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	152	assume "P(y)" and "P(y')"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	153	with * have "x = y" and "x = y'" by - (tactic "IntPr.fast_tac 1")+
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	154	then have "y = y'" by (rule subst)
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	155	} note r' = this
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	156	show "\<forall>y y'. P(y) \<and> P(y') \<longrightarrow> y = y'" by (intro strip, elim conjE) (rule r')
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	157	qed
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	158	qed
9525 46fb9ccae463 lemmas atomize = all_eq imp_eq; wenzelm parents: 9487 diff changeset	159
26411 cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	160	lemma imp_elim: "P --> Q ==> (~ R ==> P) ==> (Q ==> R) ==> R"
cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	161	by (rule classical) iprover
cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	162
cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	163	lemma swap: "~ P ==> (~ R ==> P) ==> R"
cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	164	by (rule classical) iprover
cd74690f3bfb pass imp_elim, swap to classical prover; wenzelm parents: 26286 diff changeset	165
27849 c74905423895 tuned document; wenzelm parents: 27239 diff changeset	166
c74905423895 tuned document; wenzelm parents: 27239 diff changeset	167	section {* Classical Reasoner *}
c74905423895 tuned document; wenzelm parents: 27239 diff changeset	168
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	169	ML {*
42799 4e33894aec6d modernized functor names; wenzelm parents: 42795 diff changeset	170	structure Cla = Classical
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	171	(
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	172	val imp_elim = @{thm imp_elim}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	173	val not_elim = @{thm notE}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	174	val swap = @{thm swap}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	175	val classical = @{thm classical}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	176	val sizef = size_of_thm
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	177	val hyp_subst_tacs = [hyp_subst_tac]
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	178	);
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	179
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	180	structure Basic_Classical: BASIC_CLASSICAL = Cla;
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	181	open Basic_Classical;
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	182	*}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	183
43560 d1650e3720fd ML antiquotations are managed as theory data, with proper name space and entity markup; wenzelm parents: 42814 diff changeset	184	setup {*
d1650e3720fd ML antiquotations are managed as theory data, with proper name space and entity markup; wenzelm parents: 42814 diff changeset	185	ML_Antiquote.value @{binding claset}
48776 37cd53e69840 faster compilation of ML with antiquotations: static ML_context is bound once in auxiliary structure Isabelle; wenzelm parents: 46950 diff changeset	186	(Scan.succeed "Cla.claset_of ML_context")
43560 d1650e3720fd ML antiquotations are managed as theory data, with proper name space and entity markup; wenzelm parents: 42814 diff changeset	187	*}
d1650e3720fd ML antiquotations are managed as theory data, with proper name space and entity markup; wenzelm parents: 42814 diff changeset	188
10383 a092ae7bb2a6 "atomize" for classical tactics; wenzelm parents: 10130 diff changeset	189	setup Cla.setup
42793 88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	190
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	191	(Propositional rules)
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	192	lemmas [intro!] = refl TrueI conjI disjCI impI notI iffI
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	193	and [elim!] = conjE disjE impCE FalseE iffCE
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	194	ML {* val prop_cs = @{claset} *}
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	195
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	196	(Quantifier rules)
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	197	lemmas [intro!] = allI ex_ex1I
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	198	and [intro] = exI
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	199	and [elim!] = exE alt_ex1E
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	200	and [elim] = allE
88bee9f6eec7 proper Proof.context for classical tactics; wenzelm parents: 42477 diff changeset	201	ML {* val FOL_cs = @{claset} *}
10383 a092ae7bb2a6 "atomize" for classical tactics; wenzelm parents: 10130 diff changeset	202
32176 893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	203	ML {*
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	204	structure Blast = Blast
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	205	(
42477 52fa26b6c524 simplified Blast setup; wenzelm parents: 42459 diff changeset	206	structure Classical = Cla
42802 51d7e74f6899 simplified BLAST_DATA; wenzelm parents: 42799 diff changeset	207	val Trueprop_const = dest_Const @{const Trueprop}
41310 65631ca437c9 proper identifiers for consts and types; wenzelm parents: 36866 diff changeset	208	val equality_name = @{const_name eq}
32176 893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	209	val not_name = @{const_name Not}
32960 69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 32261 diff changeset	210	val notE = @{thm notE}
69916a850301 eliminated hard tabulators, guessing at each author's individual tab-width; wenzelm parents: 32261 diff changeset	211	val ccontr = @{thm ccontr}
32176 893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	212	val hyp_subst_tac = Hypsubst.blast_hyp_subst_tac
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	213	);
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	214	val blast_tac = Blast.blast_tac;
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	215	*}
893614e2c35c renamed functor BlastFun to Blast, require explicit theory; wenzelm parents: 32171 diff changeset	216
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	217	setup Blast.setup
13550 5a176b8dda84 removal of blast.overloaded paulson parents: 12367 diff changeset	218
5a176b8dda84 removal of blast.overloaded paulson parents: 12367 diff changeset	219
5a176b8dda84 removal of blast.overloaded paulson parents: 12367 diff changeset	220	lemma ex1_functional: "[\| EX! z. P(a,z); P(a,b); P(a,c) \|] ==> b = c"
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	221	by blast
20223 89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	222
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	223	(* Elimination of True from asumptions: *)
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	224	lemma True_implies_equals: "(True ==> PROP P) == PROP P"
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	225	proof
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	226	assume "True \<Longrightarrow> PROP P"
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	227	from this and TrueI show "PROP P" .
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	228	next
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	229	assume "PROP P"
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	230	then show "PROP P" .
89d2758ecddf tuned proofs; wenzelm parents: 18816 diff changeset	231	qed
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	232
21539 c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	233	lemma uncurry: "P --> Q --> R ==> P & Q --> R"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	234	by blast
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	235
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	236	lemma iff_allI: "(!!x. P(x) <-> Q(x)) ==> (ALL x. P(x)) <-> (ALL x. Q(x))"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	237	by blast
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	238
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	239	lemma iff_exI: "(!!x. P(x) <-> Q(x)) ==> (EX x. P(x)) <-> (EX x. Q(x))"
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	240	by blast
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	241
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	242	lemma all_comm: "(ALL x y. P(x,y)) <-> (ALL y x. P(x,y))" by blast
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	243
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	244	lemma ex_comm: "(EX x y. P(x,y)) <-> (EX y x. P(x,y))" by blast
c5cf9243ad62 converted legacy ML scripts; wenzelm parents: 20223 diff changeset	245
26286 3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	246
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	247
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	248	(* Classical simplification rules *)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	249
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	250	(*Avoids duplication of subgoals after expand_if, when the true and false
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	251	cases boil down to the same thing.*)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	252	lemma cases_simp: "(P --> Q) & (~P --> Q) <-> Q" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	253
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	254
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	255	(*** Miniscoping: pushing quantifiers in
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	256	We do NOT distribute of ALL over &, or dually that of EX over \|
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	257	Baaz and Leitsch, On Skolemization and Proof Complexity (1994)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	258	show that this step can increase proof length!
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	259	***)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	260
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	261	(existential miniscoping)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	262	lemma int_ex_simps:
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	263	"!!P Q. (EX x. P(x) & Q) <-> (EX x. P(x)) & Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	264	"!!P Q. (EX x. P & Q(x)) <-> P & (EX x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	265	"!!P Q. (EX x. P(x) \| Q) <-> (EX x. P(x)) \| Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	266	"!!P Q. (EX x. P \| Q(x)) <-> P \| (EX x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	267	by iprover+
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	268
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	269	(classical rules)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	270	lemma cla_ex_simps:
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	271	"!!P Q. (EX x. P(x) --> Q) <-> (ALL x. P(x)) --> Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	272	"!!P Q. (EX x. P --> Q(x)) <-> P --> (EX x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	273	by blast+
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	274
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	275	lemmas ex_simps = int_ex_simps cla_ex_simps
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	276
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	277	(universal miniscoping)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	278	lemma int_all_simps:
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	279	"!!P Q. (ALL x. P(x) & Q) <-> (ALL x. P(x)) & Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	280	"!!P Q. (ALL x. P & Q(x)) <-> P & (ALL x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	281	"!!P Q. (ALL x. P(x) --> Q) <-> (EX x. P(x)) --> Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	282	"!!P Q. (ALL x. P --> Q(x)) <-> P --> (ALL x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	283	by iprover+
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	284
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	285	(classical rules)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	286	lemma cla_all_simps:
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	287	"!!P Q. (ALL x. P(x) \| Q) <-> (ALL x. P(x)) \| Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	288	"!!P Q. (ALL x. P \| Q(x)) <-> P \| (ALL x. Q(x))"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	289	by blast+
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	290
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	291	lemmas all_simps = int_all_simps cla_all_simps
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	292
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	293
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	294	(* Named rewrite rules proved for IFOL *)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	295
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	296	lemma imp_disj1: "(P-->Q) \| R <-> (P-->Q \| R)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	297	lemma imp_disj2: "Q \| (P-->R) <-> (P-->Q \| R)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	298
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	299	lemma de_Morgan_conj: "(~(P & Q)) <-> (~P \| ~Q)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	300
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	301	lemma not_imp: "~(P --> Q) <-> (P & ~Q)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	302	lemma not_iff: "~(P <-> Q) <-> (P <-> ~Q)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	303
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	304	lemma not_all: "(~ (ALL x. P(x))) <-> (EX x.~P(x))" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	305	lemma imp_all: "((ALL x. P(x)) --> Q) <-> (EX x. P(x) --> Q)" by blast
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	306
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	307
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	308	lemmas meta_simps =
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	309	triv_forall_equality (* prunes params *)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	310	True_implies_equals (* prune asms `True' *)
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	311
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	312	lemmas IFOL_simps =
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	313	refl [THEN P_iff_T] conj_simps disj_simps not_simps
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	314	imp_simps iff_simps quant_simps
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	315
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	316	lemma notFalseI: "~False" by iprover
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	317
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	318	lemma cla_simps_misc:
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	319	"~(P&Q) <-> ~P \| ~Q"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	320	"P \| ~P"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	321	"~P \| P"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	322	"~ ~ P <-> P"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	323	"(~P --> P) <-> P"
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	324	"(~P <-> ~Q) <-> (P<->Q)" by blast+
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	325
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	326	lemmas cla_simps =
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	327	de_Morgan_conj de_Morgan_disj imp_disj1 imp_disj2
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	328	not_imp not_all not_ex cases_simp cla_simps_misc
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	329
3ff5d257f175 added lemmas from simpdata.ML; wenzelm parents: 24830 diff changeset	330
48891 c0eafbd55de3 prefer ML_file over old uses; wenzelm parents: 48776 diff changeset	331	ML_file "simpdata.ML"
42455 6702c984bf5a modernized Quantifier1 simproc setup; wenzelm parents: 42453 diff changeset	332
42459 38b9f023cc34 misc tuning and simplification; wenzelm parents: 42456 diff changeset	333	simproc_setup defined_Ex ("EX x. P(x)") = {* fn _ => Quantifier1.rearrange_ex *}
38b9f023cc34 misc tuning and simplification; wenzelm parents: 42456 diff changeset	334	simproc_setup defined_All ("ALL x. P(x)") = {* fn _ => Quantifier1.rearrange_all *}
42455 6702c984bf5a modernized Quantifier1 simproc setup; wenzelm parents: 42453 diff changeset	335
42453 cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	336	ML {*
cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	337	(intuitionistic simprules only)
cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	338	val IFOL_ss =
cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	339	FOL_basic_ss
45654 cf10bde35973 more antiquotations; wenzelm parents: 45620 diff changeset	340	addsimps @{thms meta_simps IFOL_simps int_ex_simps int_all_simps}
42455 6702c984bf5a modernized Quantifier1 simproc setup; wenzelm parents: 42453 diff changeset	341	addsimprocs [@{simproc defined_All}, @{simproc defined_Ex}]
45620 f2a587696afb modernized some old-style infix operations, which were left over from the time of ML proof scripts; wenzelm parents: 45594 diff changeset	342	\|> Simplifier.add_cong @{thm imp_cong};
42453 cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	343
cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	344	(classical simprules too)
45654 cf10bde35973 more antiquotations; wenzelm parents: 45620 diff changeset	345	val FOL_ss = IFOL_ss addsimps @{thms cla_simps cla_ex_simps cla_all_simps};
42453 cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	346	*}
cd5005020f4e clarified simpset setup; wenzelm parents: 41827 diff changeset	347
42795 66fcc9882784 clarified map_simpset versus Simplifier.map_simpset_global; wenzelm parents: 42793 diff changeset	348	setup {* Simplifier.map_simpset_global (K FOL_ss) *}
42455 6702c984bf5a modernized Quantifier1 simproc setup; wenzelm parents: 42453 diff changeset	349
9487 7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	350	setup "Simplifier.method_setup Splitter.split_modifiers"
7e377f912629 improved comments; wenzelm parents: 8643 diff changeset	351	setup Splitter.setup
26496 49ae9456eba9 purely functional setup of claset/simpset/clasimpset; wenzelm parents: 26411 diff changeset	352	setup clasimp_setup
18591 04b9f2bf5a48 tuned EqSubst setup; wenzelm parents: 18531 diff changeset	353	setup EqSubst.setup
15481 fc075ae929e4 the new subst tactic, by Lucas Dixon paulson parents: 15019 diff changeset	354
fc075ae929e4 the new subst tactic, by Lucas Dixon paulson parents: 15019 diff changeset	355
14085 8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	356	subsection {* Other simple lemmas *}
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	357
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	358	lemma [simp]: "((P-->R) <-> (Q-->R)) <-> ((P<->Q) \| R)"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	359	by blast
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	360
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	361	lemma [simp]: "((P-->Q) <-> (P-->R)) <-> (P --> (Q<->R))"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	362	by blast
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	363
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	364	lemma not_disj_iff_imp: "~P \| Q <-> (P-->Q)"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	365	by blast
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	366
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	367	( Monotonicity of implications )
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	368
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	369	lemma conj_mono: "[\| P1-->Q1; P2-->Q2 \|] ==> (P1&P2) --> (Q1&Q2)"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	370	by fast (or (IntPr.fast_tac 1))
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	371
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	372	lemma disj_mono: "[\| P1-->Q1; P2-->Q2 \|] ==> (P1\|P2) --> (Q1\|Q2)"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	373	by fast (or (IntPr.fast_tac 1))
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	374
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	375	lemma imp_mono: "[\| Q1-->P1; P2-->Q2 \|] ==> (P1-->P2)-->(Q1-->Q2)"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	376	by fast (or (IntPr.fast_tac 1))
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	377
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	378	lemma imp_refl: "P-->P"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	379	by (rule impI, assumption)
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	380
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	381	(The quantifier monotonicity rules are also intuitionistically valid)
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	382	lemma ex_mono: "(!!x. P(x) --> Q(x)) ==> (EX x. P(x)) --> (EX x. Q(x))"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	383	by blast
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	384
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	385	lemma all_mono: "(!!x. P(x) --> Q(x)) ==> (ALL x. P(x)) --> (ALL x. Q(x))"
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	386	by blast
8dc3e532959a moved some lemmas here from ZF paulson parents: 13550 diff changeset	387
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	388
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	389	subsection {* Proof by cases and induction *}
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	390
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	391	text {* Proper handling of non-atomic rule statements. *}
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	392
36866 426d5781bb25 modernized specifications; wenzelm parents: 36176 diff changeset	393	definition "induct_forall(P) == \<forall>x. P(x)"
426d5781bb25 modernized specifications; wenzelm parents: 36176 diff changeset	394	definition "induct_implies(A, B) == A \<longrightarrow> B"
426d5781bb25 modernized specifications; wenzelm parents: 36176 diff changeset	395	definition "induct_equal(x, y) == x = y"
426d5781bb25 modernized specifications; wenzelm parents: 36176 diff changeset	396	definition "induct_conj(A, B) == A \<and> B"
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	397
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	398	lemma induct_forall_eq: "(!!x. P(x)) == Trueprop(induct_forall(\<lambda>x. P(x)))"
18816 aebd7f315b92 tuned proofs; wenzelm parents: 18595 diff changeset	399	unfolding atomize_all induct_forall_def .
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	400
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	401	lemma induct_implies_eq: "(A ==> B) == Trueprop(induct_implies(A, B))"
18816 aebd7f315b92 tuned proofs; wenzelm parents: 18595 diff changeset	402	unfolding atomize_imp induct_implies_def .
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	403
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	404	lemma induct_equal_eq: "(x == y) == Trueprop(induct_equal(x, y))"
18816 aebd7f315b92 tuned proofs; wenzelm parents: 18595 diff changeset	405	unfolding atomize_eq induct_equal_def .
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	406
28856 5e009a80fe6d Pure syntax: more coherent treatment of aprop, permanent TERM and &&&; wenzelm parents: 28699 diff changeset	407	lemma induct_conj_eq: "(A &&& B) == Trueprop(induct_conj(A, B))"
18816 aebd7f315b92 tuned proofs; wenzelm parents: 18595 diff changeset	408	unfolding atomize_conj induct_conj_def .
11988 8340fb172607 induct_impliesI; wenzelm parents: 11848 diff changeset	409
18456 8cc35e95450a updated auxiliary facts for induct method; wenzelm parents: 16417 diff changeset	410	lemmas induct_atomize = induct_forall_eq induct_implies_eq induct_equal_eq induct_conj_eq
45594 d320f2f9f331 tuned; wenzelm parents: 43560 diff changeset	411	lemmas induct_rulify [symmetric] = induct_atomize
18456 8cc35e95450a updated auxiliary facts for induct method; wenzelm parents: 16417 diff changeset	412	lemmas induct_rulify_fallback =
8cc35e95450a updated auxiliary facts for induct method; wenzelm parents: 16417 diff changeset	413	induct_forall_def induct_implies_def induct_equal_def induct_conj_def
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	414
36176 3fe7e97ccca8 replaced generic 'hide' command by more conventional 'hide_class', 'hide_type', 'hide_const', 'hide_fact' -- frees some popular keywords; wenzelm parents: 34989 diff changeset	415	hide_const induct_forall induct_implies induct_equal induct_conj
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	416
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	417
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	418	text {* Method setup. *}
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	419
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	420	ML {*
32171 220abde9962b renamed functor InductFun to Induct; wenzelm parents: 31974 diff changeset	421	structure Induct = Induct
24830 a7b3ab44d993 moved Pure/Isar/induct_attrib.ML and Provers/induct_method.ML to Tools/induct.ML; wenzelm parents: 24097 diff changeset	422	(
22139 539a63b98f76 tuned ML setup; wenzelm parents: 21539 diff changeset	423	val cases_default = @{thm case_split}
539a63b98f76 tuned ML setup; wenzelm parents: 21539 diff changeset	424	val atomize = @{thms induct_atomize}
539a63b98f76 tuned ML setup; wenzelm parents: 21539 diff changeset	425	val rulify = @{thms induct_rulify}
539a63b98f76 tuned ML setup; wenzelm parents: 21539 diff changeset	426	val rulify_fallback = @{thms induct_rulify_fallback}
34989 b5c6e59e2cd7 Adapted to changes in setup of cases method. berghofe parents: 34914 diff changeset	427	val equal_def = @{thm induct_equal_def}
34914 e391c3de0f6b Adapted to changes in setup of induct method. berghofe parents: 32960 diff changeset	428	fun dest_def _ = NONE
e391c3de0f6b Adapted to changes in setup of induct method. berghofe parents: 32960 diff changeset	429	fun trivial_tac _ = no_tac
24830 a7b3ab44d993 moved Pure/Isar/induct_attrib.ML and Provers/induct_method.ML to Tools/induct.ML; wenzelm parents: 24097 diff changeset	430	);
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	431	*}
6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	432
24830 a7b3ab44d993 moved Pure/Isar/induct_attrib.ML and Provers/induct_method.ML to Tools/induct.ML; wenzelm parents: 24097 diff changeset	433	setup Induct.setup
a7b3ab44d993 moved Pure/Isar/induct_attrib.ML and Provers/induct_method.ML to Tools/induct.ML; wenzelm parents: 24097 diff changeset	434	declare case_split [cases type: o]
11678 6aa3e2d26683 moved atomize stuff to theory IFOL; wenzelm parents: 11096 diff changeset	435
41827 98eda7ffde79 setup case_product attribute in HOL and FOL noschinl parents: 41779 diff changeset	436	setup Case_Product.setup
98eda7ffde79 setup case_product attribute in HOL and FOL noschinl parents: 41779 diff changeset	437
41310 65631ca437c9 proper identifiers for consts and types; wenzelm parents: 36866 diff changeset	438
65631ca437c9 proper identifiers for consts and types; wenzelm parents: 36866 diff changeset	439	hide_const (open) eq
65631ca437c9 proper identifiers for consts and types; wenzelm parents: 36866 diff changeset	440
4854 d1850e0964f2 tuned setup; wenzelm parents: 4793 diff changeset	441	end

author	wenzelm
	Mon, 26 Nov 2012 10:37:05 +0100
changeset 50210	747db833fbf7
parent 48891	c0eafbd55de3
child 51687	3d8720271ebf
permissions	-rw-r--r--