isabelle: src/HOL/ex/Meson_Test.thy@c3658c18b7bc (annotated)

24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	2	section \<open>Meson test cases\<close>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	3
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	4	theory Meson_Test
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	5	imports Main
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	6	begin
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	7
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	8	text \<open>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	9	WARNING: there are many potential conflicts between variables used
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	10	below and constants declared in HOL!
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	11	\<close>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	12
45204 5e4a1270c000 hide typedef-generated constants Product_Type.prod and Sum_Type.sum huffman parents: 43965 diff changeset	13	hide_const (open) implies union inter subset quotient
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	14
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	15	text \<open>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	16	Test data for the MESON proof procedure
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	17	(Excludes the equality problems 51, 52, 56, 58)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	18	\<close>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	19
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	20
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	21	subsection \<open>Interactive examples\<close>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	22
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	23	lemma problem_25:
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	24	"(\<exists>x. P x) & (\<forall>x. L x --> ~ (M x & R x)) & (\<forall>x. P x --> (M x & L x)) & ((\<forall>x. P x --> Q x) \| (\<exists>x. P x & R x)) --> (\<exists>x. Q x & P x)"
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	25	apply (rule ccontr)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	26	ML_prf \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	27	val ctxt = @{context};
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	28	val prem25 = Thm.assume @{cprop "\<not> ?thesis"};
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	29	val nnf25 = Meson.make_nnf ctxt prem25;
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	30	val xsko25 = Meson.skolemize ctxt nnf25;
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	31	\<close>
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	32	apply (tactic \<open>cut_tac xsko25 1 THEN REPEAT (eresolve_tac @{context} [exE] 1)\<close>)
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	33	ML_val \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	34	val ctxt = @{context};
60695 757549b4bbe6 Variable.focus etc.: optional bindings provided by user; wenzelm parents: 58963 diff changeset	35	val [_, sko25] = #prems (#1 (Subgoal.focus ctxt 1 NONE (#goal @{Isar.goal})));
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	36	val clauses25 = Meson.make_clauses ctxt [sko25]; (7 clauses)
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	37	val horns25 = Meson.make_horns clauses25; (16 Horn clauses)
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	38	val go25 :: _ = Meson.gocls clauses25;
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	39
60949 ccbf9379e355 added Thm.chyps_of; wenzelm parents: 60754 diff changeset	40	val ctxt' = fold Thm.declare_hyps (maps Thm.chyps_of (go25 :: horns25)) ctxt;
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	41	Goal.prove ctxt' [] [] @{prop False} (fn _ =>
60754 02924903a6fd prefer tactics with explicit context; wenzelm parents: 60695 diff changeset	42	resolve_tac ctxt' [go25] 1 THEN
58963 26bf09b95dda proper context for assume_tac (atac remains as fall-back without context); wenzelm parents: 58889 diff changeset	43	Meson.depth_prolog_tac ctxt' horns25);
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	44	\<close>
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	45	oops
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	46
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	47	lemma problem_26:
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	48	"((\<exists>x. p x) = (\<exists>x. q x)) & (\<forall>x. \<forall>y. p x & q y --> (r x = s y)) --> ((\<forall>x. p x --> r x) = (\<forall>x. q x --> s x))"
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	49	apply (rule ccontr)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	50	ML_prf \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	51	val ctxt = @{context};
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	52	val prem26 = Thm.assume @{cprop "\<not> ?thesis"}
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	53	val nnf26 = Meson.make_nnf ctxt prem26;
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	54	val xsko26 = Meson.skolemize ctxt nnf26;
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	55	\<close>
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	56	apply (tactic \<open>cut_tac xsko26 1 THEN REPEAT (eresolve_tac @{context} [exE] 1)\<close>)
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	57	ML_val \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	58	val ctxt = @{context};
60695 757549b4bbe6 Variable.focus etc.: optional bindings provided by user; wenzelm parents: 58963 diff changeset	59	val [_, sko26] = #prems (#1 (Subgoal.focus ctxt 1 NONE (#goal @{Isar.goal})));
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	60	val clauses26 = Meson.make_clauses ctxt [sko26];
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	61	val _ = @{assert} (length clauses26 = 9);
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	62	val horns26 = Meson.make_horns clauses26;
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	63	val _ = @{assert} (length horns26 = 24);
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	64	val go26 :: _ = Meson.gocls clauses26;
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	65
60949 ccbf9379e355 added Thm.chyps_of; wenzelm parents: 60754 diff changeset	66	val ctxt' = fold Thm.declare_hyps (maps Thm.chyps_of (go26 :: horns26)) ctxt;
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	67	Goal.prove ctxt' [] [] @{prop False} (fn _ =>
60754 02924903a6fd prefer tactics with explicit context; wenzelm parents: 60695 diff changeset	68	resolve_tac ctxt' [go26] 1 THEN
58963 26bf09b95dda proper context for assume_tac (atac remains as fall-back without context); wenzelm parents: 58889 diff changeset	69	Meson.depth_prolog_tac ctxt' horns26); (7 ms)
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	70	(Proof is of length 107!!)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	71	\<close>
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	72	oops
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	73
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	74	lemma problem_43: -- "NOW PROVED AUTOMATICALLY!!" (16 Horn clauses)
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	75	"(\<forall>x. \<forall>y. q x y = (\<forall>z. p z x = (p z y::bool))) --> (\<forall>x. (\<forall>y. q x y = (q y x::bool)))"
22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	76	apply (rule ccontr)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	77	ML_prf \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	78	val ctxt = @{context};
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	79	val prem43 = Thm.assume @{cprop "\<not> ?thesis"};
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	80	val nnf43 = Meson.make_nnf ctxt prem43;
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	81	val xsko43 = Meson.skolemize ctxt nnf43;
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	82	\<close>
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	83	apply (tactic \<open>cut_tac xsko43 1 THEN REPEAT (eresolve_tac @{context} [exE] 1)\<close>)
5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	84	ML_val \<open>
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	85	val ctxt = @{context};
60695 757549b4bbe6 Variable.focus etc.: optional bindings provided by user; wenzelm parents: 58963 diff changeset	86	val [_, sko43] = #prems (#1 (Subgoal.focus ctxt 1 NONE (#goal @{Isar.goal})));
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	87	val clauses43 = Meson.make_clauses ctxt [sko43];
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	88	val _ = @{assert} (length clauses43 = 6);
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	89	val horns43 = Meson.make_horns clauses43;
5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	90	val _ = @{assert} (length horns43 = 16);
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	91	val go43 :: _ = Meson.gocls clauses43;
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	92
60949 ccbf9379e355 added Thm.chyps_of; wenzelm parents: 60754 diff changeset	93	val ctxt' = fold Thm.declare_hyps (maps Thm.chyps_of (go43 :: horns43)) ctxt;
54564 5df6e746ad03 more accurate goal context; wenzelm parents: 46708 diff changeset	94	Goal.prove ctxt' [] [] @{prop False} (fn _ =>
60754 02924903a6fd prefer tactics with explicit context; wenzelm parents: 60695 diff changeset	95	resolve_tac ctxt' [go43] 1 THEN
58963 26bf09b95dda proper context for assume_tac (atac remains as fall-back without context); wenzelm parents: 58889 diff changeset	96	Meson.best_prolog_tac ctxt' Meson.size_of_subgoals horns43); (7ms)
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	97	\<close>
37777 22107b894e5a some modernization of really ancient Meson experiments; wenzelm parents: 37595 diff changeset	98	oops
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	99
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	100	(*
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	101	#1 (q x xa ==> ~ q x xa) ==> q xa x
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	102	#2 (q xa x ==> ~ q xa x) ==> q x xa
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	103	#3 (~ q x xa ==> q x xa) ==> ~ q xa x
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	104	#4 (~ q xa x ==> q xa x) ==> ~ q x xa
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	105	#5 [\| ~ q ?U ?V ==> q ?U ?V; ~ p ?W ?U ==> p ?W ?U \|] ==> p ?W ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	106	#6 [\| ~ p ?W ?U ==> p ?W ?U; p ?W ?V ==> ~ p ?W ?V \|] ==> ~ q ?U ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	107	#7 [\| p ?W ?V ==> ~ p ?W ?V; ~ q ?U ?V ==> q ?U ?V \|] ==> ~ p ?W ?U
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	108	#8 [\| ~ q ?U ?V ==> q ?U ?V; ~ p ?W ?V ==> p ?W ?V \|] ==> p ?W ?U
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	109	#9 [\| ~ p ?W ?V ==> p ?W ?V; p ?W ?U ==> ~ p ?W ?U \|] ==> ~ q ?U ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	110	#10 [\| p ?W ?U ==> ~ p ?W ?U; ~ q ?U ?V ==> q ?U ?V \|] ==> ~ p ?W ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	111	#11 [\| p (xb ?U ?V) ?U ==> ~ p (xb ?U ?V) ?U;
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	112	p (xb ?U ?V) ?V ==> ~ p (xb ?U ?V) ?V \|] ==> q ?U ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	113	#12 [\| p (xb ?U ?V) ?V ==> ~ p (xb ?U ?V) ?V; q ?U ?V ==> ~ q ?U ?V \|] ==>
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	114	p (xb ?U ?V) ?U
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	115	#13 [\| q ?U ?V ==> ~ q ?U ?V; p (xb ?U ?V) ?U ==> ~ p (xb ?U ?V) ?U \|] ==>
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	116	p (xb ?U ?V) ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	117	#14 [\| ~ p (xb ?U ?V) ?U ==> p (xb ?U ?V) ?U;
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	118	~ p (xb ?U ?V) ?V ==> p (xb ?U ?V) ?V \|] ==> q ?U ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	119	#15 [\| ~ p (xb ?U ?V) ?V ==> p (xb ?U ?V) ?V; q ?U ?V ==> ~ q ?U ?V \|] ==>
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	120	~ p (xb ?U ?V) ?U
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	121	#16 [\| q ?U ?V ==> ~ q ?U ?V; ~ p (xb ?U ?V) ?U ==> p (xb ?U ?V) ?U \|] ==>
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	122	~ p (xb ?U ?V) ?V
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	123
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	124	And here is the proof! (Unkn is the start state after use of goal clause)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	125	[Unkn, Res ([Thm "#14"], false, 1), Res ([Thm "#5"], false, 1),
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	126	Res ([Thm "#1"], false, 1), Asm 1, Res ([Thm "#13"], false, 1), Asm 2,
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	127	Asm 1, Res ([Thm "#13"], false, 1), Asm 1, Res ([Thm "#10"], false, 1),
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	128	Res ([Thm "#16"], false, 1), Asm 2, Asm 1, Res ([Thm "#1"], false, 1),
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	129	Asm 1, Res ([Thm "#14"], false, 1), Res ([Thm "#5"], false, 1),
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	130	Res ([Thm "#2"], false, 1), Asm 1, Res ([Thm "#13"], false, 1), Asm 2,
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	131	Asm 1, Res ([Thm "#8"], false, 1), Res ([Thm "#2"], false, 1), Asm 1,
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	132	Res ([Thm "#12"], false, 1), Asm 2, Asm 1] : lderiv list
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	133	*)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	134
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	135
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	136	text \<open>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	137	MORE and MUCH HARDER test data for the MESON proof procedure
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	138	(courtesy John Harrison).
61343 5b5656a63bd6 isabelle update_cartouches; wenzelm parents: 60949 diff changeset	139	\<close>
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	140
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	141	(* ========================================================================= *)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	142	(* 100 problems selected from the TPTP library *)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	143	(* ========================================================================= *)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	144
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	145	(*
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	146	* Original timings for John Harrison's MESON_TAC.
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	147	* Timings below on a 600MHz Pentium III (perch)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	148	* Some timings below refer to griffon, which is a dual 2.5GHz Power Mac G5.
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	149	*
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	150	* A few variable names have been changed to avoid clashing with constants.
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	151	*
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	152	* Changed numeric constants e.g. 0, 1, 2... to num0, num1, num2...
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	153	*
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	154	* Here's a list giving typical CPU times, as well as common names and
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	155	* literature references.
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	156	*
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	157	* BOO003-1 34.6 B2 part 1 [McCharen, et al., 1976]; Lemma proved [Overbeek, et al., 1976]; prob2_part1.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	158	* BOO004-1 36.7 B2 part 2 [McCharen, et al., 1976]; Lemma proved [Overbeek, et al., 1976]; prob2_part2.ver1 [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	159	* BOO005-1 47.4 B3 part 1 [McCharen, et al., 1976]; B5 [McCharen, et al., 1976]; Lemma proved [Overbeek, et al., 1976]; prob3_part1.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	160	* BOO006-1 48.4 B3 part 2 [McCharen, et al., 1976]; B6 [McCharen, et al., 1976]; Lemma proved [Overbeek, et al., 1976]; prob3_part2.ver1 [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	161	* BOO011-1 19.0 B7 [McCharen, et al., 1976]; prob7.ver1 [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	162	* CAT001-3 45.2 C1 [McCharen, et al., 1976]; p1.ver3.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	163	* CAT003-3 10.5 C3 [McCharen, et al., 1976]; p3.ver3.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	164	* CAT005-1 480.1 C5 [McCharen, et al., 1976]; p5.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	165	* CAT007-1 11.9 C7 [McCharen, et al., 1976]; p7.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	166	* CAT018-1 81.3 p18.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	167	* COL001-2 16.0 C1 [Wos & McCune, 1988]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	168	* COL023-1 5.1 [McCune & Wos, 1988]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	169	* COL032-1 15.8 [McCune & Wos, 1988]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	170	* COL052-2 13.2 bird4.ver2.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	171	* COL075-2 116.9 [Jech, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	172	* COM001-1 1.7 shortburst [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	173	* COM002-1 4.4 burstall [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	174	* COM002-2 7.4
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	175	* COM003-2 22.1 [Brushi, 1991]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	176	* COM004-1 45.1
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	177	* GEO003-1 71.7 T3 [McCharen, et al., 1976]; t3.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	178	* GEO017-2 78.8 D4.1 [Quaife, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	179	* GEO027-3 181.5 D10.1 [Quaife, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	180	* GEO058-2 104.0 R4 [Quaife, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	181	* GEO079-1 2.4 GEOMETRY THEOREM [Slagle, 1967]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	182	* GRP001-1 47.8 CADE-11 Competition 1 [Overbeek, 1990]; G1 [McCharen, et al., 1976]; THEOREM 1 [Lusk & McCune, 1993]; wos10 [Wilson & Minker, 1976]; xsquared.ver1.in [ANL]; [Robinson, 1963]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	183	* GRP008-1 50.4 Problem 4 [Wos, 1965]; wos4 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	184	* GRP013-1 40.2 Problem 11 [Wos, 1965]; wos11 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	185	* GRP037-3 43.8 Problem 17 [Wos, 1965]; wos17 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	186	* GRP031-2 3.2 ls23 [Lawrence & Starkey, 1974]; ls23 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	187	* GRP034-4 2.5 ls26 [Lawrence & Starkey, 1974]; ls26 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	188	* GRP047-2 11.7 [Veroff, 1992]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	189	* GRP130-1 170.6 Bennett QG8 [TPTP]; QG8 [Slaney, 1993]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	190	* GRP156-1 48.7 ax_mono1c [Schulz, 1995]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	191	* GRP168-1 159.1 p01a [Schulz, 1995]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	192	* HEN003-3 39.9 HP3 [McCharen, et al., 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	193	* HEN007-2 125.7 H7 [McCharen, et al., 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	194	* HEN008-4 62.0 H8 [McCharen, et al., 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	195	* HEN009-5 136.3 H9 [McCharen, et al., 1976]; hp9.ver3.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	196	* HEN012-3 48.5 new.ver2.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	197	* LCL010-1 370.9 EC-73 [McCune & Wos, 1992]; ec_yq.in [OTTER]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	198	* LCL077-2 51.6 morgan.two.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	199	* LCL082-1 14.6 IC-1.1 [Wos, et al., 1990]; IC-65 [McCune & Wos, 1992]; ls2 [SETHEO]; S1 [Pfenning, 1988]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	200	* LCL111-1 585.6 CADE-11 Competition 6 [Overbeek, 1990]; mv25.in [OTTER]; MV-57 [McCune & Wos, 1992]; mv.in part 2 [OTTER]; ovb6 [SETHEO]; THEOREM 6 [Lusk & McCune, 1993]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	201	* LCL143-1 10.9 Lattice structure theorem 2 [Bonacina, 1991]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	202	* LCL182-1 271.6 Problem 2.16 [Whitehead & Russell, 1927]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	203	* LCL200-1 12.0 Problem 2.46 [Whitehead & Russell, 1927]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	204	* LCL215-1 214.4 Problem 2.62 [Whitehead & Russell, 1927]; Problem 2.63 [Whitehead & Russell, 1927]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	205	* LCL230-2 0.2 Pelletier 5 [Pelletier, 1986]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	206	* LDA003-1 68.5 Problem 3 [Jech, 1993]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	207	* MSC002-1 9.2 DBABHP [Michie, et al., 1972]; DBABHP [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	208	* MSC003-1 3.2 HASPARTS-T1 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	209	* MSC004-1 9.3 HASPARTS-T2 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	210	* MSC005-1 1.8 Problem 5.1 [Plaisted, 1982]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	211	* MSC006-1 39.0 nonob.lop [SETHEO]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	212	* NUM001-1 14.0 Chang-Lee-10a [Chang, 1970]; ls28 [Lawrence & Starkey, 1974]; ls28 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	213	* NUM021-1 52.3 ls65 [Lawrence & Starkey, 1974]; ls65 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	214	* NUM024-1 64.6 ls75 [Lawrence & Starkey, 1974]; ls75 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	215	* NUM180-1 621.2 LIM2.1 [Quaife]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	216	* NUM228-1 575.9 TRECDEF4 cor. [Quaife]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	217	* PLA002-1 37.4 Problem 5.7 [Plaisted, 1982]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	218	* PLA006-1 7.2 [Segre & Elkan, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	219	* PLA017-1 484.8 [Segre & Elkan, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	220	* PLA022-1 19.1 [Segre & Elkan, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	221	* PLA022-2 19.7 [Segre & Elkan, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	222	* PRV001-1 10.3 PV1 [McCharen, et al., 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	223	* PRV003-1 3.9 E2 [McCharen, et al., 1976]; v2.lop [SETHEO]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	224	* PRV005-1 4.3 E4 [McCharen, et al., 1976]; v4.lop [SETHEO]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	225	* PRV006-1 6.0 E5 [McCharen, et al., 1976]; v5.lop [SETHEO]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	226	* PRV009-1 2.2 Hoares FIND [Bledsoe, 1977]; Problem 5.5 [Plaisted, 1982]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	227	* PUZ012-1 3.5 Boxes-of-fruit [Wos, 1988]; Boxes-of-fruit [Wos, et al., 1992]; boxes.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	228	* PUZ020-1 56.6 knightknave.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	229	* PUZ025-1 58.4 Problem 35 [Smullyan, 1978]; tandl35.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	230	* PUZ029-1 5.1 pigs.ver1.in [ANL]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	231	* RNG001-3 82.4 EX6-T? [Wilson & Minker, 1976]; ex6.lop [SETHEO]; Example 6a [Fleisig, et al., 1974]; FEX6T1 [SPRFN]; FEX6T2 [SPRFN]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	232	* RNG001-5 399.8 Problem 21 [Wos, 1965]; wos21 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	233	* RNG011-5 8.4 CADE-11 Competition Eq-10 [Overbeek, 1990]; PROBLEM 10 [Zhang, 1993]; THEOREM EQ-10 [Lusk & McCune, 1993]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	234	* RNG023-6 9.1 [Stevens, 1987]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	235	* RNG028-2 9.3 PROOF III [Anantharaman & Hsiang, 1990]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	236	* RNG038-2 16.2 Problem 27 [Wos, 1965]; wos27 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	237	* RNG040-2 180.5 Problem 29 [Wos, 1965]; wos29 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	238	* RNG041-1 35.8 Problem 30 [Wos, 1965]; wos30 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	239	* ROB010-1 205.0 Lemma 3.3 [Winker, 1990]; RA2 [Lusk & Wos, 1992]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	240	* ROB013-1 23.6 Lemma 3.5 [Winker, 1990]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	241	* ROB016-1 15.2 Corollary 3.7 [Winker, 1990]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	242	* ROB021-1 230.4 [McCune, 1992]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	243	* SET005-1 192.2 ls108 [Lawrence & Starkey, 1974]; ls108 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	244	* SET009-1 10.5 ls116 [Lawrence & Starkey, 1974]; ls116 [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	245	* SET025-4 694.7 Lemma 10 [Boyer, et al, 1986]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	246	* SET046-5 2.3 p42.in [ANL]; Pelletier 42 [Pelletier, 1986]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	247	* SET047-5 3.7 p43.in [ANL]; Pelletier 43 [Pelletier, 1986]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	248	* SYN034-1 2.8 QW [Michie, et al., 1972]; QW [Wilson & Minker, 1976]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	249	* SYN071-1 1.9 Pelletier 48 [Pelletier, 1986]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	250	* SYN349-1 61.7 Ch17N5 [Tammet, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	251	* SYN352-1 5.5 Ch18N4 [Tammet, 1994]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	252	* TOP001-2 61.1 Lemma 1a [Wick & McCune, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	253	* TOP002-2 0.4 Lemma 1b [Wick & McCune, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	254	* TOP004-1 181.6 Lemma 1d [Wick & McCune, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	255	* TOP004-2 9.0 Lemma 1d [Wick & McCune, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	256	* TOP005-2 139.8 Lemma 1e [Wick & McCune, 1989]
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	257	*)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	258
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	259	abbreviation "EQU001_0_ax equal \<equiv> (\<forall>X. equal(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	260	(\<forall>Y X. equal(X::'a,Y) --> equal(Y::'a,X)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	261	(\<forall>Y X Z. equal(X::'a,Y) & equal(Y::'a,Z) --> equal(X::'a,Z))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	262
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	263	abbreviation "BOO002_0_ax equal INVERSE multiplicative_identity
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	264	additive_identity multiply product add sum \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	265	(\<forall>X Y. sum(X::'a,Y,add(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	266	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	267	(\<forall>Y X Z. sum(X::'a,Y,Z) --> sum(Y::'a,X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	268	(\<forall>Y X Z. product(X::'a,Y,Z) --> product(Y::'a,X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	269	(\<forall>X. sum(additive_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	270	(\<forall>X. sum(X::'a,additive_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	271	(\<forall>X. product(multiplicative_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	272	(\<forall>X. product(X::'a,multiplicative_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	273	(\<forall>Y Z X V3 V1 V2 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & product(X::'a,V3,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	274	(\<forall>Y Z V1 V2 X V3 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(X::'a,V3,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	275	(\<forall>Y Z V3 X V1 V2 V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & product(V3::'a,X,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	276	(\<forall>Y Z V1 V2 V3 X V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(V3::'a,X,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	277	(\<forall>Y Z X V3 V1 V2 V4. sum(X::'a,Y,V1) & sum(X::'a,Z,V2) & product(Y::'a,Z,V3) & sum(X::'a,V3,V4) --> product(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	278	(\<forall>Y Z V1 V2 X V3 V4. sum(X::'a,Y,V1) & sum(X::'a,Z,V2) & product(Y::'a,Z,V3) & product(V1::'a,V2,V4) --> sum(X::'a,V3,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	279	(\<forall>Y Z V3 X V1 V2 V4. sum(Y::'a,X,V1) & sum(Z::'a,X,V2) & product(Y::'a,Z,V3) & sum(V3::'a,X,V4) --> product(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	280	(\<forall>Y Z V1 V2 V3 X V4. sum(Y::'a,X,V1) & sum(Z::'a,X,V2) & product(Y::'a,Z,V3) & product(V1::'a,V2,V4) --> sum(V3::'a,X,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	281	(\<forall>X. sum(INVERSE(X),X,multiplicative_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	282	(\<forall>X. sum(X::'a,INVERSE(X),multiplicative_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	283	(\<forall>X. product(INVERSE(X),X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	284	(\<forall>X. product(X::'a,INVERSE(X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	285	(\<forall>X Y U V. sum(X::'a,Y,U) & sum(X::'a,Y,V) --> equal(U::'a,V)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	286	(\<forall>X Y U V. product(X::'a,Y,U) & product(X::'a,Y,V) --> equal(U::'a,V))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	287
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	288	abbreviation "BOO002_0_eq INVERSE multiply add product sum equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	289	(\<forall>X Y W Z. equal(X::'a,Y) & sum(X::'a,W,Z) --> sum(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	290	(\<forall>X W Y Z. equal(X::'a,Y) & sum(W::'a,X,Z) --> sum(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	291	(\<forall>X W Z Y. equal(X::'a,Y) & sum(W::'a,Z,X) --> sum(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	292	(\<forall>X Y W Z. equal(X::'a,Y) & product(X::'a,W,Z) --> product(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	293	(\<forall>X W Y Z. equal(X::'a,Y) & product(W::'a,X,Z) --> product(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	294	(\<forall>X W Z Y. equal(X::'a,Y) & product(W::'a,Z,X) --> product(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	295	(\<forall>X Y W. equal(X::'a,Y) --> equal(add(X::'a,W),add(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	296	(\<forall>X W Y. equal(X::'a,Y) --> equal(add(W::'a,X),add(W::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	297	(\<forall>X Y W. equal(X::'a,Y) --> equal(multiply(X::'a,W),multiply(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	298	(\<forall>X W Y. equal(X::'a,Y) --> equal(multiply(W::'a,X),multiply(W::'a,Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	299	(\<forall>X Y. equal(X::'a,Y) --> equal(INVERSE(X),INVERSE(Y)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	300
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	301	(51194 inferences so far. Searching to depth 13. 232.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	302	lemma BOO003_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	303	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	304	BOO002_0_ax equal INVERSE multiplicative_identity additive_identity multiply product add sum &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	305	BOO002_0_eq INVERSE multiply add product sum equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	306	(~product(x::'a,x,x)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	307	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	308
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	309	(*51194 inferences so far. Searching to depth 13. 204.6 secs
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	310	Strange! The previous problem also has 51194 inferences at depth 13. They
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	311	must be very similar!*)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	312	lemma BOO004_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	313	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	314	BOO002_0_ax equal INVERSE multiplicative_identity additive_identity multiply product add sum &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	315	BOO002_0_eq INVERSE multiply add product sum equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	316	(~sum(x::'a,x,x)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	317	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	318
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	319	(74799 inferences so far. Searching to depth 13. 290.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	320	lemma BOO005_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	321	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	322	BOO002_0_ax equal INVERSE multiplicative_identity additive_identity multiply product add sum &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	323	BOO002_0_eq INVERSE multiply add product sum equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	324	(~sum(x::'a,multiplicative_identity,multiplicative_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	325	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	326
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	327	(74799 inferences so far. Searching to depth 13. 314.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	328	lemma BOO006_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	329	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	330	BOO002_0_ax equal INVERSE multiplicative_identity additive_identity multiply product add sum &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	331	BOO002_0_eq INVERSE multiply add product sum equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	332	(~product(x::'a,additive_identity,additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	333	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	334
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	335	(5 inferences so far. Searching to depth 5. 1.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	336	lemma BOO011_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	337	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	338	BOO002_0_ax equal INVERSE multiplicative_identity additive_identity multiply product add sum &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	339	BOO002_0_eq INVERSE multiply add product sum equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	340	(~equal(INVERSE(additive_identity),multiplicative_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	341	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	342
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	343	abbreviation "CAT003_0_ax f1 compos codomain domain equal there_exists equivalent \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	344	(\<forall>Y X. equivalent(X::'a,Y) --> there_exists(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	345	(\<forall>X Y. equivalent(X::'a,Y) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	346	(\<forall>X Y. there_exists(X) & equal(X::'a,Y) --> equivalent(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	347	(\<forall>X. there_exists(domain(X)) --> there_exists(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	348	(\<forall>X. there_exists(codomain(X)) --> there_exists(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	349	(\<forall>Y X. there_exists(compos(X::'a,Y)) --> there_exists(domain(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	350	(\<forall>X Y. there_exists(compos(X::'a,Y)) --> equal(domain(X),codomain(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	351	(\<forall>X Y. there_exists(domain(X)) & equal(domain(X),codomain(Y)) --> there_exists(compos(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	352	(\<forall>X Y Z. equal(compos(X::'a,compos(Y::'a,Z)),compos(compos(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	353	(\<forall>X. equal(compos(X::'a,domain(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	354	(\<forall>X. equal(compos(codomain(X),X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	355	(\<forall>X Y. equivalent(X::'a,Y) --> there_exists(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	356	(\<forall>X Y. there_exists(X) & there_exists(Y) & equal(X::'a,Y) --> equivalent(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	357	(\<forall>Y X. there_exists(compos(X::'a,Y)) --> there_exists(codomain(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	358	(\<forall>X Y. there_exists(f1(X::'a,Y)) \| equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	359	(\<forall>X Y. equal(X::'a,f1(X::'a,Y)) \| equal(Y::'a,f1(X::'a,Y)) \| equal(X::'a,Y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	360	(\<forall>X Y. equal(X::'a,f1(X::'a,Y)) & equal(Y::'a,f1(X::'a,Y)) --> equal(X::'a,Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	361
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	362	abbreviation "CAT003_0_eq f1 compos codomain domain equivalent there_exists equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	363	(\<forall>X Y. equal(X::'a,Y) & there_exists(X) --> there_exists(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	364	(\<forall>X Y Z. equal(X::'a,Y) & equivalent(X::'a,Z) --> equivalent(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	365	(\<forall>X Z Y. equal(X::'a,Y) & equivalent(Z::'a,X) --> equivalent(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	366	(\<forall>X Y. equal(X::'a,Y) --> equal(domain(X),domain(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	367	(\<forall>X Y. equal(X::'a,Y) --> equal(codomain(X),codomain(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	368	(\<forall>X Y Z. equal(X::'a,Y) --> equal(compos(X::'a,Z),compos(Y::'a,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	369	(\<forall>X Z Y. equal(X::'a,Y) --> equal(compos(Z::'a,X),compos(Z::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	370	(\<forall>A B C. equal(A::'a,B) --> equal(f1(A::'a,C),f1(B::'a,C))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	371	(\<forall>D F' E. equal(D::'a,E) --> equal(f1(F'::'a,D),f1(F'::'a,E)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	372
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	373	(4007 inferences so far. Searching to depth 9. 13 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	374	lemma CAT001_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	375	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	376	CAT003_0_ax f1 compos codomain domain equal there_exists equivalent &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	377	CAT003_0_eq f1 compos codomain domain equivalent there_exists equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	378	(there_exists(compos(a::'a,b))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	379	(\<forall>Y X Z. equal(compos(compos(a::'a,b),X),Y) & equal(compos(compos(a::'a,b),Z),Y) --> equal(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	380	(there_exists(compos(b::'a,h))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	381	(equal(compos(b::'a,h),compos(b::'a,g))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	382	(~equal(h::'a,g)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	383	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	384
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	385	(245 inferences so far. Searching to depth 7. 1.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	386	lemma CAT003_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	387	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	388	CAT003_0_ax f1 compos codomain domain equal there_exists equivalent &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	389	CAT003_0_eq f1 compos codomain domain equivalent there_exists equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	390	(there_exists(compos(a::'a,b))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	391	(\<forall>Y X Z. equal(compos(X::'a,compos(a::'a,b)),Y) & equal(compos(Z::'a,compos(a::'a,b)),Y) --> equal(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	392	(there_exists(h)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	393	(equal(compos(h::'a,a),compos(g::'a,a))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	394	(~equal(g::'a,h)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	395	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	396
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	397	abbreviation "CAT001_0_ax equal codomain domain identity_map compos product defined \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	398	(\<forall>X Y. defined(X::'a,Y) --> product(X::'a,Y,compos(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	399	(\<forall>Z X Y. product(X::'a,Y,Z) --> defined(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	400	(\<forall>X Xy Y Z. product(X::'a,Y,Xy) & defined(Xy::'a,Z) --> defined(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	401	(\<forall>Y Xy Z X Yz. product(X::'a,Y,Xy) & product(Y::'a,Z,Yz) & defined(Xy::'a,Z) --> defined(X::'a,Yz)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	402	(\<forall>Xy Y Z X Yz Xyz. product(X::'a,Y,Xy) & product(Xy::'a,Z,Xyz) & product(Y::'a,Z,Yz) --> product(X::'a,Yz,Xyz)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	403	(\<forall>Z Yz X Y. product(Y::'a,Z,Yz) & defined(X::'a,Yz) --> defined(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	404	(\<forall>Y X Yz Xy Z. product(Y::'a,Z,Yz) & product(X::'a,Y,Xy) & defined(X::'a,Yz) --> defined(Xy::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	405	(\<forall>Yz X Y Xy Z Xyz. product(Y::'a,Z,Yz) & product(X::'a,Yz,Xyz) & product(X::'a,Y,Xy) --> product(Xy::'a,Z,Xyz)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	406	(\<forall>Y X Z. defined(X::'a,Y) & defined(Y::'a,Z) & identity_map(Y) --> defined(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	407	(\<forall>X. identity_map(domain(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	408	(\<forall>X. identity_map(codomain(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	409	(\<forall>X. defined(X::'a,domain(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	410	(\<forall>X. defined(codomain(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	411	(\<forall>X. product(X::'a,domain(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	412	(\<forall>X. product(codomain(X),X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	413	(\<forall>X Y. defined(X::'a,Y) & identity_map(X) --> product(X::'a,Y,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	414	(\<forall>Y X. defined(X::'a,Y) & identity_map(Y) --> product(X::'a,Y,X)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	415	(\<forall>X Y Z W. product(X::'a,Y,Z) & product(X::'a,Y,W) --> equal(Z::'a,W))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	416
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	417	abbreviation "CAT001_0_eq compos defined identity_map codomain domain product equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	418	(\<forall>X Y Z W. equal(X::'a,Y) & product(X::'a,Z,W) --> product(Y::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	419	(\<forall>X Z Y W. equal(X::'a,Y) & product(Z::'a,X,W) --> product(Z::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	420	(\<forall>X Z W Y. equal(X::'a,Y) & product(Z::'a,W,X) --> product(Z::'a,W,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	421	(\<forall>X Y. equal(X::'a,Y) --> equal(domain(X),domain(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	422	(\<forall>X Y. equal(X::'a,Y) --> equal(codomain(X),codomain(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	423	(\<forall>X Y. equal(X::'a,Y) & identity_map(X) --> identity_map(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	424	(\<forall>X Y Z. equal(X::'a,Y) & defined(X::'a,Z) --> defined(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	425	(\<forall>X Z Y. equal(X::'a,Y) & defined(Z::'a,X) --> defined(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	426	(\<forall>X Z Y. equal(X::'a,Y) --> equal(compos(Z::'a,X),compos(Z::'a,Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	427	(\<forall>X Y Z. equal(X::'a,Y) --> equal(compos(X::'a,Z),compos(Y::'a,Z)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	428
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	429	(54288 inferences so far. Searching to depth 14. 118.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	430	lemma CAT005_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	431	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	432	CAT001_0_ax equal codomain domain identity_map compos product defined &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	433	CAT001_0_eq compos defined identity_map codomain domain product equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	434	(defined(a::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	435	(identity_map(d)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	436	(~equal(domain(a),d)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	437	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	438
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	439	(1728 inferences so far. Searching to depth 10. 5.8 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	440	lemma CAT007_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	441	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	442	CAT001_0_ax equal codomain domain identity_map compos product defined &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	443	CAT001_0_eq compos defined identity_map codomain domain product equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	444	(equal(domain(a),codomain(b))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	445	(~defined(a::'a,b)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	446	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	447
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	448	(82895 inferences so far. Searching to depth 13. 355 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	449	lemma CAT018_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	450	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	451	CAT001_0_ax equal codomain domain identity_map compos product defined &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	452	CAT001_0_eq compos defined identity_map codomain domain product equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	453	(defined(a::'a,b)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	454	(defined(b::'a,c)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	455	(~defined(a::'a,compos(b::'a,c))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	456	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	457
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	458	(1118 inferences so far. Searching to depth 8. 2.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	459	lemma COL001_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	460	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	461	(\<forall>X Y Z. equal(apply(apply(apply(s::'a,X),Y),Z),apply(apply(X::'a,Z),apply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	462	(\<forall>Y X. equal(apply(apply(k::'a,X),Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	463	(\<forall>X Y Z. equal(apply(apply(apply(b::'a,X),Y),Z),apply(X::'a,apply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	464	(\<forall>X. equal(apply(i::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	465	(\<forall>A B C. equal(A::'a,B) --> equal(apply(A::'a,C),apply(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	466	(\<forall>D F' E. equal(D::'a,E) --> equal(apply(F'::'a,D),apply(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	467	(\<forall>X. equal(apply(apply(apply(s::'a,apply(b::'a,X)),i),apply(apply(s::'a,apply(b::'a,X)),i)),apply(x::'a,apply(apply(apply(s::'a,apply(b::'a,X)),i),apply(apply(s::'a,apply(b::'a,X)),i))))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	468	(\<forall>Y. ~equal(Y::'a,apply(combinator::'a,Y))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	469	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	470
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	471	(500 inferences so far. Searching to depth 8. 0.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	472	lemma COL023_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	473	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	474	(\<forall>X Y Z. equal(apply(apply(apply(b::'a,X),Y),Z),apply(X::'a,apply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	475	(\<forall>X Y Z. equal(apply(apply(apply(n::'a,X),Y),Z),apply(apply(apply(X::'a,Z),Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	476	(\<forall>A B C. equal(A::'a,B) --> equal(apply(A::'a,C),apply(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	477	(\<forall>D F' E. equal(D::'a,E) --> equal(apply(F'::'a,D),apply(F'::'a,E))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	478	(\<forall>Y. ~equal(Y::'a,apply(combinator::'a,Y))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	479	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	480
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	481	(3018 inferences so far. Searching to depth 10. 4.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	482	lemma COL032_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	483	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	484	(\<forall>X. equal(apply(m::'a,X),apply(X::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	485	(\<forall>Y X Z. equal(apply(apply(apply(q::'a,X),Y),Z),apply(Y::'a,apply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	486	(\<forall>A B C. equal(A::'a,B) --> equal(apply(A::'a,C),apply(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	487	(\<forall>D F' E. equal(D::'a,E) --> equal(apply(F'::'a,D),apply(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	488	(\<forall>G H. equal(G::'a,H) --> equal(f(G),f(H))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	489	(\<forall>Y. ~equal(apply(Y::'a,f(Y)),apply(f(Y),apply(Y::'a,f(Y))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	490	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	491
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	492	(381878 inferences so far. Searching to depth 13. 670.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	493	lemma COL052_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	494	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	495	(\<forall>X Y W. equal(response(compos(X::'a,Y),W),response(X::'a,response(Y::'a,W)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	496	(\<forall>X Y. agreeable(X) --> equal(response(X::'a,common_bird(Y)),response(Y::'a,common_bird(Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	497	(\<forall>Z X. equal(response(X::'a,Z),response(compatible(X),Z)) --> agreeable(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	498	(\<forall>A B. equal(A::'a,B) --> equal(common_bird(A),common_bird(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	499	(\<forall>C D. equal(C::'a,D) --> equal(compatible(C),compatible(D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	500	(\<forall>Q R. equal(Q::'a,R) & agreeable(Q) --> agreeable(R)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	501	(\<forall>A B C. equal(A::'a,B) --> equal(compos(A::'a,C),compos(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	502	(\<forall>D F' E. equal(D::'a,E) --> equal(compos(F'::'a,D),compos(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	503	(\<forall>G H I'. equal(G::'a,H) --> equal(response(G::'a,I'),response(H::'a,I'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	504	(\<forall>J L K'. equal(J::'a,K') --> equal(response(L::'a,J),response(L::'a,K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	505	(agreeable(c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	506	(~agreeable(a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	507	(equal(c::'a,compos(a::'a,b))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	508	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	509
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	510	(13201 inferences so far. Searching to depth 11. 31.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	511	lemma COL075_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	512	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	513	(\<forall>Y X. equal(apply(apply(k::'a,X),Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	514	(\<forall>X Y Z. equal(apply(apply(apply(abstraction::'a,X),Y),Z),apply(apply(X::'a,apply(k::'a,Z)),apply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	515	(\<forall>D E F'. equal(D::'a,E) --> equal(apply(D::'a,F'),apply(E::'a,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	516	(\<forall>G I' H. equal(G::'a,H) --> equal(apply(I'::'a,G),apply(I'::'a,H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	517	(\<forall>A B. equal(A::'a,B) --> equal(b(A),b(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	518	(\<forall>C D. equal(C::'a,D) --> equal(c(C),c(D))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	519	(\<forall>Y. ~equal(apply(apply(Y::'a,b(Y)),c(Y)),apply(b(Y),b(Y)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	520	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	521
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	522	(33 inferences so far. Searching to depth 7. 0.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	523	lemma COM001_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	524	"(\<forall>Goal_state Start_state. follows(Goal_state::'a,Start_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	525	(\<forall>Goal_state Intermediate_state Start_state. succeeds(Goal_state::'a,Intermediate_state) & succeeds(Intermediate_state::'a,Start_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	526	(\<forall>Start_state Label Goal_state. has(Start_state::'a,goto(Label)) & labels(Label::'a,Goal_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	527	(\<forall>Start_state Condition Goal_state. has(Start_state::'a,ifthen(Condition::'a,Goal_state)) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	528	(labels(loop::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	529	(has(p3::'a,ifthen(equal(register_j::'a,n),p4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	530	(has(p4::'a,goto(out))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	531	(follows(p5::'a,p4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	532	(follows(p8::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	533	(has(p8::'a,goto(loop))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	534	(~succeeds(p3::'a,p3)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	535	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	536
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	537	(533 inferences so far. Searching to depth 13. 0.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	538	lemma COM002_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	539	"(\<forall>Goal_state Start_state. follows(Goal_state::'a,Start_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	540	(\<forall>Goal_state Intermediate_state Start_state. succeeds(Goal_state::'a,Intermediate_state) & succeeds(Intermediate_state::'a,Start_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	541	(\<forall>Start_state Label Goal_state. has(Start_state::'a,goto(Label)) & labels(Label::'a,Goal_state) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	542	(\<forall>Start_state Condition Goal_state. has(Start_state::'a,ifthen(Condition::'a,Goal_state)) --> succeeds(Goal_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	543	(has(p1::'a,assign(register_j::'a,num0))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	544	(follows(p2::'a,p1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	545	(has(p2::'a,assign(register_k::'a,num1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	546	(labels(loop::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	547	(follows(p3::'a,p2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	548	(has(p3::'a,ifthen(equal(register_j::'a,n),p4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	549	(has(p4::'a,goto(out))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	550	(follows(p5::'a,p4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	551	(follows(p6::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	552	(has(p6::'a,assign(register_k::'a,mtimes(num2::'a,register_k)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	553	(follows(p7::'a,p6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	554	(has(p7::'a,assign(register_j::'a,mplus(register_j::'a,num1)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	555	(follows(p8::'a,p7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	556	(has(p8::'a,goto(loop))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	557	(~succeeds(p3::'a,p3)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	558	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	559
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	560	(4821 inferences so far. Searching to depth 14. 1.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	561	lemma COM002_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	562	"(\<forall>Goal_state Start_state. ~(fails(Goal_state::'a,Start_state) & follows(Goal_state::'a,Start_state))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	563	(\<forall>Goal_state Intermediate_state Start_state. fails(Goal_state::'a,Start_state) --> fails(Goal_state::'a,Intermediate_state) \| fails(Intermediate_state::'a,Start_state)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	564	(\<forall>Start_state Label Goal_state. ~(fails(Goal_state::'a,Start_state) & has(Start_state::'a,goto(Label)) & labels(Label::'a,Goal_state))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	565	(\<forall>Start_state Condition Goal_state. ~(fails(Goal_state::'a,Start_state) & has(Start_state::'a,ifthen(Condition::'a,Goal_state)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	566	(has(p1::'a,assign(register_j::'a,num0))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	567	(follows(p2::'a,p1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	568	(has(p2::'a,assign(register_k::'a,num1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	569	(labels(loop::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	570	(follows(p3::'a,p2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	571	(has(p3::'a,ifthen(equal(register_j::'a,n),p4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	572	(has(p4::'a,goto(out))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	573	(follows(p5::'a,p4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	574	(follows(p6::'a,p3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	575	(has(p6::'a,assign(register_k::'a,mtimes(num2::'a,register_k)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	576	(follows(p7::'a,p6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	577	(has(p7::'a,assign(register_j::'a,mplus(register_j::'a,num1)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	578	(follows(p8::'a,p7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	579	(has(p8::'a,goto(loop))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	580	(fails(p3::'a,p3)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	581	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	582
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	583	(98 inferences so far. Searching to depth 10. 1.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	584	lemma COM003_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	585	"(\<forall>X Y Z. program_decides(X) & program(Y) --> decides(X::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	586	(\<forall>X. program_decides(X) \| program(f2(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	587	(\<forall>X. decides(X::'a,f2(X),f1(X)) --> program_decides(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	588	(\<forall>X. program_program_decides(X) --> program(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	589	(\<forall>X. program_program_decides(X) --> program_decides(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	590	(\<forall>X. program(X) & program_decides(X) --> program_program_decides(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	591	(\<forall>X. algorithm_program_decides(X) --> algorithm(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	592	(\<forall>X. algorithm_program_decides(X) --> program_decides(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	593	(\<forall>X. algorithm(X) & program_decides(X) --> algorithm_program_decides(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	594	(\<forall>Y X. program_halts2(X::'a,Y) --> program(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	595	(\<forall>X Y. program_halts2(X::'a,Y) --> halts2(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	596	(\<forall>X Y. program(X) & halts2(X::'a,Y) --> program_halts2(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	597	(\<forall>W X Y Z. halts3_outputs(X::'a,Y,Z,W) --> halts3(X::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	598	(\<forall>Y Z X W. halts3_outputs(X::'a,Y,Z,W) --> outputs(X::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	599	(\<forall>Y Z X W. halts3(X::'a,Y,Z) & outputs(X::'a,W) --> halts3_outputs(X::'a,Y,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	600	(\<forall>Y X. program_not_halts2(X::'a,Y) --> program(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	601	(\<forall>X Y. ~(program_not_halts2(X::'a,Y) & halts2(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	602	(\<forall>X Y. program(X) --> program_not_halts2(X::'a,Y) \| halts2(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	603	(\<forall>W X Y. halts2_outputs(X::'a,Y,W) --> halts2(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	604	(\<forall>Y X W. halts2_outputs(X::'a,Y,W) --> outputs(X::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	605	(\<forall>Y X W. halts2(X::'a,Y) & outputs(X::'a,W) --> halts2_outputs(X::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	606	(\<forall>X W Y Z. program_halts2_halts3_outputs(X::'a,Y,Z,W) --> program_halts2(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	607	(\<forall>X Y Z W. program_halts2_halts3_outputs(X::'a,Y,Z,W) --> halts3_outputs(X::'a,Y,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	608	(\<forall>X Y Z W. program_halts2(Y::'a,Z) & halts3_outputs(X::'a,Y,Z,W) --> program_halts2_halts3_outputs(X::'a,Y,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	609	(\<forall>X W Y Z. program_not_halts2_halts3_outputs(X::'a,Y,Z,W) --> program_not_halts2(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	610	(\<forall>X Y Z W. program_not_halts2_halts3_outputs(X::'a,Y,Z,W) --> halts3_outputs(X::'a,Y,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	611	(\<forall>X Y Z W. program_not_halts2(Y::'a,Z) & halts3_outputs(X::'a,Y,Z,W) --> program_not_halts2_halts3_outputs(X::'a,Y,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	612	(\<forall>X W Y. program_halts2_halts2_outputs(X::'a,Y,W) --> program_halts2(Y::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	613	(\<forall>X Y W. program_halts2_halts2_outputs(X::'a,Y,W) --> halts2_outputs(X::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	614	(\<forall>X Y W. program_halts2(Y::'a,Y) & halts2_outputs(X::'a,Y,W) --> program_halts2_halts2_outputs(X::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	615	(\<forall>X W Y. program_not_halts2_halts2_outputs(X::'a,Y,W) --> program_not_halts2(Y::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	616	(\<forall>X Y W. program_not_halts2_halts2_outputs(X::'a,Y,W) --> halts2_outputs(X::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	617	(\<forall>X Y W. program_not_halts2(Y::'a,Y) & halts2_outputs(X::'a,Y,W) --> program_not_halts2_halts2_outputs(X::'a,Y,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	618	(\<forall>X. algorithm_program_decides(X) --> program_program_decides(c1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	619	(\<forall>W Y Z. program_program_decides(W) --> program_halts2_halts3_outputs(W::'a,Y,Z,good)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	620	(\<forall>W Y Z. program_program_decides(W) --> program_not_halts2_halts3_outputs(W::'a,Y,Z,bad)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	621	(\<forall>W. program(W) & program_halts2_halts3_outputs(W::'a,f3(W),f3(W),good) & program_not_halts2_halts3_outputs(W::'a,f3(W),f3(W),bad) --> program(c2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	622	(\<forall>W Y. program(W) & program_halts2_halts3_outputs(W::'a,f3(W),f3(W),good) & program_not_halts2_halts3_outputs(W::'a,f3(W),f3(W),bad) --> program_halts2_halts2_outputs(c2::'a,Y,good)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	623	(\<forall>W Y. program(W) & program_halts2_halts3_outputs(W::'a,f3(W),f3(W),good) & program_not_halts2_halts3_outputs(W::'a,f3(W),f3(W),bad) --> program_not_halts2_halts2_outputs(c2::'a,Y,bad)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	624	(\<forall>V. program(V) & program_halts2_halts2_outputs(V::'a,f4(V),good) & program_not_halts2_halts2_outputs(V::'a,f4(V),bad) --> program(c3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	625	(\<forall>V Y. program(V) & program_halts2_halts2_outputs(V::'a,f4(V),good) & program_not_halts2_halts2_outputs(V::'a,f4(V),bad) & program_halts2(Y::'a,Y) --> halts2(c3::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	626	(\<forall>V Y. program(V) & program_halts2_halts2_outputs(V::'a,f4(V),good) & program_not_halts2_halts2_outputs(V::'a,f4(V),bad) --> program_not_halts2_halts2_outputs(c3::'a,Y,bad)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	627	(algorithm_program_decides(c4)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	628	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	629
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	630	(*2100398 inferences so far. Searching to depth 12.
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	631	1256s (21 mins) on griffon*)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	632	lemma COM004_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	633	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	634	(\<forall>C D P Q X Y. failure_node(X::'a,or(C::'a,P)) & failure_node(Y::'a,or(D::'a,Q)) & contradictory(P::'a,Q) & siblings(X::'a,Y) --> failure_node(parent_of(X::'a,Y),or(C::'a,D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	635	(\<forall>X. contradictory(negate(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	636	(\<forall>X. contradictory(X::'a,negate(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	637	(\<forall>X. siblings(left_child_of(X),right_child_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	638	(\<forall>D E. equal(D::'a,E) --> equal(left_child_of(D),left_child_of(E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	639	(\<forall>F' G. equal(F'::'a,G) --> equal(negate(F'),negate(G))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	640	(\<forall>H I' J. equal(H::'a,I') --> equal(or(H::'a,J),or(I'::'a,J))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	641	(\<forall>K' M L. equal(K'::'a,L) --> equal(or(M::'a,K'),or(M::'a,L))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	642	(\<forall>N O' P. equal(N::'a,O') --> equal(parent_of(N::'a,P),parent_of(O'::'a,P))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	643	(\<forall>Q S' R. equal(Q::'a,R) --> equal(parent_of(S'::'a,Q),parent_of(S'::'a,R))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	644	(\<forall>T' U. equal(T'::'a,U) --> equal(right_child_of(T'),right_child_of(U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	645	(\<forall>V W X. equal(V::'a,W) & contradictory(V::'a,X) --> contradictory(W::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	646	(\<forall>Y A1 Z. equal(Y::'a,Z) & contradictory(A1::'a,Y) --> contradictory(A1::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	647	(\<forall>B1 C1 D1. equal(B1::'a,C1) & failure_node(B1::'a,D1) --> failure_node(C1::'a,D1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	648	(\<forall>E1 G1 F1. equal(E1::'a,F1) & failure_node(G1::'a,E1) --> failure_node(G1::'a,F1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	649	(\<forall>H1 I1 J1. equal(H1::'a,I1) & siblings(H1::'a,J1) --> siblings(I1::'a,J1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	650	(\<forall>K1 M1 L1. equal(K1::'a,L1) & siblings(M1::'a,K1) --> siblings(M1::'a,L1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	651	(failure_node(n_left::'a,or(EMPTY::'a,atom))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	652	(failure_node(n_right::'a,or(EMPTY::'a,negate(atom)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	653	(equal(n_left::'a,left_child_of(n))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	654	(equal(n_right::'a,right_child_of(n))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	655	(\<forall>Z. ~failure_node(Z::'a,or(EMPTY::'a,EMPTY))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	656	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	657
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	658	abbreviation "GEO001_0_ax continuous lower_dimension_point_3 lower_dimension_point_2
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	659	lower_dimension_point_1 extension euclid2 euclid1 outer_pasch equidistant equal between \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	660	(\<forall>X Y. between(X::'a,Y,X) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	661	(\<forall>V X Y Z. between(X::'a,Y,V) & between(Y::'a,Z,V) --> between(X::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	662	(\<forall>Y X V Z. between(X::'a,Y,Z) & between(X::'a,Y,V) --> equal(X::'a,Y) \| between(X::'a,Z,V) \| between(X::'a,V,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	663	(\<forall>Y X. equidistant(X::'a,Y,Y,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	664	(\<forall>Z X Y. equidistant(X::'a,Y,Z,Z) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	665	(\<forall>X Y Z V V2 W. equidistant(X::'a,Y,Z,V) & equidistant(X::'a,Y,V2,W) --> equidistant(Z::'a,V,V2,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	666	(\<forall>W X Z V Y. between(X::'a,W,V) & between(Y::'a,V,Z) --> between(X::'a,outer_pasch(W::'a,X,Y,Z,V),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	667	(\<forall>W X Y Z V. between(X::'a,W,V) & between(Y::'a,V,Z) --> between(Z::'a,W,outer_pasch(W::'a,X,Y,Z,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	668	(\<forall>W X Y Z V. between(X::'a,V,W) & between(Y::'a,V,Z) --> equal(X::'a,V) \| between(X::'a,Z,euclid1(W::'a,X,Y,Z,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	669	(\<forall>W X Y Z V. between(X::'a,V,W) & between(Y::'a,V,Z) --> equal(X::'a,V) \| between(X::'a,Y,euclid2(W::'a,X,Y,Z,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	670	(\<forall>W X Y Z V. between(X::'a,V,W) & between(Y::'a,V,Z) --> equal(X::'a,V) \| between(euclid1(W::'a,X,Y,Z,V),W,euclid2(W::'a,X,Y,Z,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	671	(\<forall>X1 Y1 X Y Z V Z1 V1. equidistant(X::'a,Y,X1,Y1) & equidistant(Y::'a,Z,Y1,Z1) & equidistant(X::'a,V,X1,V1) & equidistant(Y::'a,V,Y1,V1) & between(X::'a,Y,Z) & between(X1::'a,Y1,Z1) --> equal(X::'a,Y) \| equidistant(Z::'a,V,Z1,V1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	672	(\<forall>X Y W V. between(X::'a,Y,extension(X::'a,Y,W,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	673	(\<forall>X Y W V. equidistant(Y::'a,extension(X::'a,Y,W,V),W,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	674	(~between(lower_dimension_point_1::'a,lower_dimension_point_2,lower_dimension_point_3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	675	(~between(lower_dimension_point_2::'a,lower_dimension_point_3,lower_dimension_point_1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	676	(~between(lower_dimension_point_3::'a,lower_dimension_point_1,lower_dimension_point_2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	677	(\<forall>Z X Y W V. equidistant(X::'a,W,X,V) & equidistant(Y::'a,W,Y,V) & equidistant(Z::'a,W,Z,V) --> between(X::'a,Y,Z) \| between(Y::'a,Z,X) \| between(Z::'a,X,Y) \| equal(W::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	678	(\<forall>X Y Z X1 Z1 V. equidistant(V::'a,X,V,X1) & equidistant(V::'a,Z,V,Z1) & between(V::'a,X,Z) & between(X::'a,Y,Z) --> equidistant(V::'a,Y,Z,continuous(X::'a,Y,Z,X1,Z1,V))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	679	(\<forall>X Y Z X1 V Z1. equidistant(V::'a,X,V,X1) & equidistant(V::'a,Z,V,Z1) & between(V::'a,X,Z) & between(X::'a,Y,Z) --> between(X1::'a,continuous(X::'a,Y,Z,X1,Z1,V),Z1))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	680
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	681	abbreviation "GEO001_0_eq continuous extension euclid2 euclid1 outer_pasch equidistant
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	682	between equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	683	(\<forall>X Y W Z. equal(X::'a,Y) & between(X::'a,W,Z) --> between(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	684	(\<forall>X W Y Z. equal(X::'a,Y) & between(W::'a,X,Z) --> between(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	685	(\<forall>X W Z Y. equal(X::'a,Y) & between(W::'a,Z,X) --> between(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	686	(\<forall>X Y V W Z. equal(X::'a,Y) & equidistant(X::'a,V,W,Z) --> equidistant(Y::'a,V,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	687	(\<forall>X V Y W Z. equal(X::'a,Y) & equidistant(V::'a,X,W,Z) --> equidistant(V::'a,Y,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	688	(\<forall>X V W Y Z. equal(X::'a,Y) & equidistant(V::'a,W,X,Z) --> equidistant(V::'a,W,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	689	(\<forall>X V W Z Y. equal(X::'a,Y) & equidistant(V::'a,W,Z,X) --> equidistant(V::'a,W,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	690	(\<forall>X Y V1 V2 V3 V4. equal(X::'a,Y) --> equal(outer_pasch(X::'a,V1,V2,V3,V4),outer_pasch(Y::'a,V1,V2,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	691	(\<forall>X V1 Y V2 V3 V4. equal(X::'a,Y) --> equal(outer_pasch(V1::'a,X,V2,V3,V4),outer_pasch(V1::'a,Y,V2,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	692	(\<forall>X V1 V2 Y V3 V4. equal(X::'a,Y) --> equal(outer_pasch(V1::'a,V2,X,V3,V4),outer_pasch(V1::'a,V2,Y,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	693	(\<forall>X V1 V2 V3 Y V4. equal(X::'a,Y) --> equal(outer_pasch(V1::'a,V2,V3,X,V4),outer_pasch(V1::'a,V2,V3,Y,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	694	(\<forall>X V1 V2 V3 V4 Y. equal(X::'a,Y) --> equal(outer_pasch(V1::'a,V2,V3,V4,X),outer_pasch(V1::'a,V2,V3,V4,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	695	(\<forall>A B C D E F'. equal(A::'a,B) --> equal(euclid1(A::'a,C,D,E,F'),euclid1(B::'a,C,D,E,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	696	(\<forall>G I' H J K' L. equal(G::'a,H) --> equal(euclid1(I'::'a,G,J,K',L),euclid1(I'::'a,H,J,K',L))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	697	(\<forall>M O' P N Q R. equal(M::'a,N) --> equal(euclid1(O'::'a,P,M,Q,R),euclid1(O'::'a,P,N,Q,R))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	698	(\<forall>S' U V W T' X. equal(S'::'a,T') --> equal(euclid1(U::'a,V,W,S',X),euclid1(U::'a,V,W,T',X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	699	(\<forall>Y A1 B1 C1 D1 Z. equal(Y::'a,Z) --> equal(euclid1(A1::'a,B1,C1,D1,Y),euclid1(A1::'a,B1,C1,D1,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	700	(\<forall>E1 F1 G1 H1 I1 J1. equal(E1::'a,F1) --> equal(euclid2(E1::'a,G1,H1,I1,J1),euclid2(F1::'a,G1,H1,I1,J1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	701	(\<forall>K1 M1 L1 N1 O1 P1. equal(K1::'a,L1) --> equal(euclid2(M1::'a,K1,N1,O1,P1),euclid2(M1::'a,L1,N1,O1,P1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	702	(\<forall>Q1 S1 T1 R1 U1 V1. equal(Q1::'a,R1) --> equal(euclid2(S1::'a,T1,Q1,U1,V1),euclid2(S1::'a,T1,R1,U1,V1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	703	(\<forall>W1 Y1 Z1 A2 X1 B2. equal(W1::'a,X1) --> equal(euclid2(Y1::'a,Z1,A2,W1,B2),euclid2(Y1::'a,Z1,A2,X1,B2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	704	(\<forall>C2 E2 F2 G2 H2 D2. equal(C2::'a,D2) --> equal(euclid2(E2::'a,F2,G2,H2,C2),euclid2(E2::'a,F2,G2,H2,D2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	705	(\<forall>X Y V1 V2 V3. equal(X::'a,Y) --> equal(extension(X::'a,V1,V2,V3),extension(Y::'a,V1,V2,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	706	(\<forall>X V1 Y V2 V3. equal(X::'a,Y) --> equal(extension(V1::'a,X,V2,V3),extension(V1::'a,Y,V2,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	707	(\<forall>X V1 V2 Y V3. equal(X::'a,Y) --> equal(extension(V1::'a,V2,X,V3),extension(V1::'a,V2,Y,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	708	(\<forall>X V1 V2 V3 Y. equal(X::'a,Y) --> equal(extension(V1::'a,V2,V3,X),extension(V1::'a,V2,V3,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	709	(\<forall>X Y V1 V2 V3 V4 V5. equal(X::'a,Y) --> equal(continuous(X::'a,V1,V2,V3,V4,V5),continuous(Y::'a,V1,V2,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	710	(\<forall>X V1 Y V2 V3 V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,X,V2,V3,V4,V5),continuous(V1::'a,Y,V2,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	711	(\<forall>X V1 V2 Y V3 V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,X,V3,V4,V5),continuous(V1::'a,V2,Y,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	712	(\<forall>X V1 V2 V3 Y V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,X,V4,V5),continuous(V1::'a,V2,V3,Y,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	713	(\<forall>X V1 V2 V3 V4 Y V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,V4,X,V5),continuous(V1::'a,V2,V3,V4,Y,V5))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	714	(\<forall>X V1 V2 V3 V4 V5 Y. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,V4,V5,X),continuous(V1::'a,V2,V3,V4,V5,Y)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	715
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	716
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	717	(179 inferences so far. Searching to depth 7. 3.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	718	lemma GEO003_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	719	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	720	GEO001_0_ax continuous lower_dimension_point_3 lower_dimension_point_2
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	721	lower_dimension_point_1 extension euclid2 euclid1 outer_pasch equidistant equal between &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	722	GEO001_0_eq continuous extension euclid2 euclid1 outer_pasch equidistant between equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	723	(~between(a::'a,b,b)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	724	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	725
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	726	abbreviation "GEO002_ax_eq continuous euclid2 euclid1 lower_dimension_point_3
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	727	lower_dimension_point_2 lower_dimension_point_1 inner_pasch extension
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	728	between equal equidistant \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	729	(\<forall>Y X. equidistant(X::'a,Y,Y,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	730	(\<forall>X Y Z V V2 W. equidistant(X::'a,Y,Z,V) & equidistant(X::'a,Y,V2,W) --> equidistant(Z::'a,V,V2,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	731	(\<forall>Z X Y. equidistant(X::'a,Y,Z,Z) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	732	(\<forall>X Y W V. between(X::'a,Y,extension(X::'a,Y,W,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	733	(\<forall>X Y W V. equidistant(Y::'a,extension(X::'a,Y,W,V),W,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	734	(\<forall>X1 Y1 X Y Z V Z1 V1. equidistant(X::'a,Y,X1,Y1) & equidistant(Y::'a,Z,Y1,Z1) & equidistant(X::'a,V,X1,V1) & equidistant(Y::'a,V,Y1,V1) & between(X::'a,Y,Z) & between(X1::'a,Y1,Z1) --> equal(X::'a,Y) \| equidistant(Z::'a,V,Z1,V1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	735	(\<forall>X Y. between(X::'a,Y,X) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	736	(\<forall>U V W X Y. between(U::'a,V,W) & between(Y::'a,X,W) --> between(V::'a,inner_pasch(U::'a,V,W,X,Y),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	737	(\<forall>V W X Y U. between(U::'a,V,W) & between(Y::'a,X,W) --> between(X::'a,inner_pasch(U::'a,V,W,X,Y),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	738	(~between(lower_dimension_point_1::'a,lower_dimension_point_2,lower_dimension_point_3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	739	(~between(lower_dimension_point_2::'a,lower_dimension_point_3,lower_dimension_point_1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	740	(~between(lower_dimension_point_3::'a,lower_dimension_point_1,lower_dimension_point_2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	741	(\<forall>Z X Y W V. equidistant(X::'a,W,X,V) & equidistant(Y::'a,W,Y,V) & equidistant(Z::'a,W,Z,V) --> between(X::'a,Y,Z) \| between(Y::'a,Z,X) \| between(Z::'a,X,Y) \| equal(W::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	742	(\<forall>U V W X Y. between(U::'a,W,Y) & between(V::'a,W,X) --> equal(U::'a,W) \| between(U::'a,V,euclid1(U::'a,V,W,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	743	(\<forall>U V W X Y. between(U::'a,W,Y) & between(V::'a,W,X) --> equal(U::'a,W) \| between(U::'a,X,euclid2(U::'a,V,W,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	744	(\<forall>U V W X Y. between(U::'a,W,Y) & between(V::'a,W,X) --> equal(U::'a,W) \| between(euclid1(U::'a,V,W,X,Y),Y,euclid2(U::'a,V,W,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	745	(\<forall>U V V1 W X X1. equidistant(U::'a,V,U,V1) & equidistant(U::'a,X,U,X1) & between(U::'a,V,X) & between(V::'a,W,X) --> between(V1::'a,continuous(U::'a,V,V1,W,X,X1),X1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	746	(\<forall>U V V1 W X X1. equidistant(U::'a,V,U,V1) & equidistant(U::'a,X,U,X1) & between(U::'a,V,X) & between(V::'a,W,X) --> equidistant(U::'a,W,U,continuous(U::'a,V,V1,W,X,X1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	747	(\<forall>X Y W Z. equal(X::'a,Y) & between(X::'a,W,Z) --> between(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	748	(\<forall>X W Y Z. equal(X::'a,Y) & between(W::'a,X,Z) --> between(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	749	(\<forall>X W Z Y. equal(X::'a,Y) & between(W::'a,Z,X) --> between(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	750	(\<forall>X Y V W Z. equal(X::'a,Y) & equidistant(X::'a,V,W,Z) --> equidistant(Y::'a,V,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	751	(\<forall>X V Y W Z. equal(X::'a,Y) & equidistant(V::'a,X,W,Z) --> equidistant(V::'a,Y,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	752	(\<forall>X V W Y Z. equal(X::'a,Y) & equidistant(V::'a,W,X,Z) --> equidistant(V::'a,W,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	753	(\<forall>X V W Z Y. equal(X::'a,Y) & equidistant(V::'a,W,Z,X) --> equidistant(V::'a,W,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	754	(\<forall>X Y V1 V2 V3 V4. equal(X::'a,Y) --> equal(inner_pasch(X::'a,V1,V2,V3,V4),inner_pasch(Y::'a,V1,V2,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	755	(\<forall>X V1 Y V2 V3 V4. equal(X::'a,Y) --> equal(inner_pasch(V1::'a,X,V2,V3,V4),inner_pasch(V1::'a,Y,V2,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	756	(\<forall>X V1 V2 Y V3 V4. equal(X::'a,Y) --> equal(inner_pasch(V1::'a,V2,X,V3,V4),inner_pasch(V1::'a,V2,Y,V3,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	757	(\<forall>X V1 V2 V3 Y V4. equal(X::'a,Y) --> equal(inner_pasch(V1::'a,V2,V3,X,V4),inner_pasch(V1::'a,V2,V3,Y,V4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	758	(\<forall>X V1 V2 V3 V4 Y. equal(X::'a,Y) --> equal(inner_pasch(V1::'a,V2,V3,V4,X),inner_pasch(V1::'a,V2,V3,V4,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	759	(\<forall>A B C D E F'. equal(A::'a,B) --> equal(euclid1(A::'a,C,D,E,F'),euclid1(B::'a,C,D,E,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	760	(\<forall>G I' H J K' L. equal(G::'a,H) --> equal(euclid1(I'::'a,G,J,K',L),euclid1(I'::'a,H,J,K',L))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	761	(\<forall>M O' P N Q R. equal(M::'a,N) --> equal(euclid1(O'::'a,P,M,Q,R),euclid1(O'::'a,P,N,Q,R))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	762	(\<forall>S' U V W T' X. equal(S'::'a,T') --> equal(euclid1(U::'a,V,W,S',X),euclid1(U::'a,V,W,T',X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	763	(\<forall>Y A1 B1 C1 D1 Z. equal(Y::'a,Z) --> equal(euclid1(A1::'a,B1,C1,D1,Y),euclid1(A1::'a,B1,C1,D1,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	764	(\<forall>E1 F1 G1 H1 I1 J1. equal(E1::'a,F1) --> equal(euclid2(E1::'a,G1,H1,I1,J1),euclid2(F1::'a,G1,H1,I1,J1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	765	(\<forall>K1 M1 L1 N1 O1 P1. equal(K1::'a,L1) --> equal(euclid2(M1::'a,K1,N1,O1,P1),euclid2(M1::'a,L1,N1,O1,P1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	766	(\<forall>Q1 S1 T1 R1 U1 V1. equal(Q1::'a,R1) --> equal(euclid2(S1::'a,T1,Q1,U1,V1),euclid2(S1::'a,T1,R1,U1,V1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	767	(\<forall>W1 Y1 Z1 A2 X1 B2. equal(W1::'a,X1) --> equal(euclid2(Y1::'a,Z1,A2,W1,B2),euclid2(Y1::'a,Z1,A2,X1,B2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	768	(\<forall>C2 E2 F2 G2 H2 D2. equal(C2::'a,D2) --> equal(euclid2(E2::'a,F2,G2,H2,C2),euclid2(E2::'a,F2,G2,H2,D2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	769	(\<forall>X Y V1 V2 V3. equal(X::'a,Y) --> equal(extension(X::'a,V1,V2,V3),extension(Y::'a,V1,V2,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	770	(\<forall>X V1 Y V2 V3. equal(X::'a,Y) --> equal(extension(V1::'a,X,V2,V3),extension(V1::'a,Y,V2,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	771	(\<forall>X V1 V2 Y V3. equal(X::'a,Y) --> equal(extension(V1::'a,V2,X,V3),extension(V1::'a,V2,Y,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	772	(\<forall>X V1 V2 V3 Y. equal(X::'a,Y) --> equal(extension(V1::'a,V2,V3,X),extension(V1::'a,V2,V3,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	773	(\<forall>X Y V1 V2 V3 V4 V5. equal(X::'a,Y) --> equal(continuous(X::'a,V1,V2,V3,V4,V5),continuous(Y::'a,V1,V2,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	774	(\<forall>X V1 Y V2 V3 V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,X,V2,V3,V4,V5),continuous(V1::'a,Y,V2,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	775	(\<forall>X V1 V2 Y V3 V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,X,V3,V4,V5),continuous(V1::'a,V2,Y,V3,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	776	(\<forall>X V1 V2 V3 Y V4 V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,X,V4,V5),continuous(V1::'a,V2,V3,Y,V4,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	777	(\<forall>X V1 V2 V3 V4 Y V5. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,V4,X,V5),continuous(V1::'a,V2,V3,V4,Y,V5))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	778	(\<forall>X V1 V2 V3 V4 V5 Y. equal(X::'a,Y) --> equal(continuous(V1::'a,V2,V3,V4,V5,X),continuous(V1::'a,V2,V3,V4,V5,Y)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	779
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	780	(4272 inferences so far. Searching to depth 10. 29.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	781	lemma GEO017_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	782	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	783	GEO002_ax_eq continuous euclid2 euclid1 lower_dimension_point_3
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	784	lower_dimension_point_2 lower_dimension_point_1 inner_pasch extension
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	785	between equal equidistant &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	786	(equidistant(u::'a,v,w,x)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	787	(~equidistant(u::'a,v,x,w)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	788	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	789
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	790	(382903 inferences so far. Searching to depth 9. 1022s (17 mins) on griffon)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	791	lemma GEO027_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	792	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	793	GEO002_ax_eq continuous euclid2 euclid1 lower_dimension_point_3
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	794	lower_dimension_point_2 lower_dimension_point_1 inner_pasch extension
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	795	between equal equidistant &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	796	(\<forall>U V. equal(reflection(U::'a,V),extension(U::'a,V,U,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	797	(\<forall>X Y Z. equal(X::'a,Y) --> equal(reflection(X::'a,Z),reflection(Y::'a,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	798	(\<forall>A1 C1 B1. equal(A1::'a,B1) --> equal(reflection(C1::'a,A1),reflection(C1::'a,B1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	799	(\<forall>U V. equidistant(U::'a,V,U,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	800	(\<forall>W X U V. equidistant(U::'a,V,W,X) --> equidistant(W::'a,X,U,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	801	(\<forall>V U W X. equidistant(U::'a,V,W,X) --> equidistant(V::'a,U,W,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	802	(\<forall>U V X W. equidistant(U::'a,V,W,X) --> equidistant(U::'a,V,X,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	803	(\<forall>V U X W. equidistant(U::'a,V,W,X) --> equidistant(V::'a,U,X,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	804	(\<forall>W X V U. equidistant(U::'a,V,W,X) --> equidistant(W::'a,X,V,U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	805	(\<forall>X W U V. equidistant(U::'a,V,W,X) --> equidistant(X::'a,W,U,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	806	(\<forall>X W V U. equidistant(U::'a,V,W,X) --> equidistant(X::'a,W,V,U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	807	(\<forall>W X U V Y Z. equidistant(U::'a,V,W,X) & equidistant(W::'a,X,Y,Z) --> equidistant(U::'a,V,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	808	(\<forall>U V W. equal(V::'a,extension(U::'a,V,W,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	809	(\<forall>W X U V Y. equal(Y::'a,extension(U::'a,V,W,X)) --> between(U::'a,V,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	810	(\<forall>U V. between(U::'a,V,reflection(U::'a,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	811	(\<forall>U V. equidistant(V::'a,reflection(U::'a,V),U,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	812	(\<forall>U V. equal(U::'a,V) --> equal(V::'a,reflection(U::'a,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	813	(\<forall>U. equal(U::'a,reflection(U::'a,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	814	(\<forall>U V. equal(V::'a,reflection(U::'a,V)) --> equal(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	815	(\<forall>U V. equidistant(U::'a,U,V,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	816	(\<forall>V V1 U W U1 W1. equidistant(U::'a,V,U1,V1) & equidistant(V::'a,W,V1,W1) & between(U::'a,V,W) & between(U1::'a,V1,W1) --> equidistant(U::'a,W,U1,W1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	817	(\<forall>U V W X. between(U::'a,V,W) & between(U::'a,V,X) & equidistant(V::'a,W,V,X) --> equal(U::'a,V) \| equal(W::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	818	(between(u::'a,v,w)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	819	(~equal(u::'a,v)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	820	(~equal(w::'a,extension(u::'a,v,v,w))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	821	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	822
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	823	(313884 inferences so far. Searching to depth 10. 887 secs: 15 mins.)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	824	lemma GEO058_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	825	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	826	GEO002_ax_eq continuous euclid2 euclid1 lower_dimension_point_3
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	827	lower_dimension_point_2 lower_dimension_point_1 inner_pasch extension
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	828	between equal equidistant &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	829	(\<forall>U V. equal(reflection(U::'a,V),extension(U::'a,V,U,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	830	(\<forall>X Y Z. equal(X::'a,Y) --> equal(reflection(X::'a,Z),reflection(Y::'a,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	831	(\<forall>A1 C1 B1. equal(A1::'a,B1) --> equal(reflection(C1::'a,A1),reflection(C1::'a,B1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	832	(equal(v::'a,reflection(u::'a,v))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	833	(~equal(u::'a,v)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	834	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	835
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	836	(0 inferences so far. Searching to depth 0. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	837	lemma GEO079_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	838	"(\<forall>U V W X Y Z. right_angle(U::'a,V,W) & right_angle(X::'a,Y,Z) --> eq(U::'a,V,W,X,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	839	(\<forall>U V W X Y Z. CONGRUENT(U::'a,V,W,X,Y,Z) --> eq(U::'a,V,W,X,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	840	(\<forall>V W U X. trapezoid(U::'a,V,W,X) --> parallel(V::'a,W,U,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	841	(\<forall>U V X Y. parallel(U::'a,V,X,Y) --> eq(X::'a,V,U,V,X,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	842	(trapezoid(a::'a,b,c,d)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	843	(~eq(a::'a,c,b,c,a,d)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	844	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	845
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	846	abbreviation "GRP003_0_ax equal multiply INVERSE identity product \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	847	(\<forall>X. product(identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	848	(\<forall>X. product(X::'a,identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	849	(\<forall>X. product(INVERSE(X),X,identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	850	(\<forall>X. product(X::'a,INVERSE(X),identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	851	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	852	(\<forall>X Y Z W. product(X::'a,Y,Z) & product(X::'a,Y,W) --> equal(Z::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	853	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	854	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	855
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	856	abbreviation "GRP003_0_eq product multiply INVERSE equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	857	(\<forall>X Y. equal(X::'a,Y) --> equal(INVERSE(X),INVERSE(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	858	(\<forall>X Y W. equal(X::'a,Y) --> equal(multiply(X::'a,W),multiply(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	859	(\<forall>X W Y. equal(X::'a,Y) --> equal(multiply(W::'a,X),multiply(W::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	860	(\<forall>X Y W Z. equal(X::'a,Y) & product(X::'a,W,Z) --> product(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	861	(\<forall>X W Y Z. equal(X::'a,Y) & product(W::'a,X,Z) --> product(W::'a,Y,Z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	862	(\<forall>X W Z Y. equal(X::'a,Y) & product(W::'a,Z,X) --> product(W::'a,Z,Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	863
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	864	(2032008 inferences so far. Searching to depth 16. 658s (11 mins) on griffon)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	865	lemma GRP001_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	866	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	867	GRP003_0_ax equal multiply INVERSE identity product &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	868	GRP003_0_eq product multiply INVERSE equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	869	(\<forall>X. product(X::'a,X,identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	870	(product(a::'a,b,c)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	871	(~product(b::'a,a,c)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	872	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	873
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	874	(2386 inferences so far. Searching to depth 11. 8.7 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	875	lemma GRP008_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	876	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	877	GRP003_0_ax equal multiply INVERSE identity product &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	878	GRP003_0_eq product multiply INVERSE equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	879	(\<forall>A B. equal(A::'a,B) --> equal(h(A),h(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	880	(\<forall>C D. equal(C::'a,D) --> equal(j(C),j(D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	881	(\<forall>A B. equal(A::'a,B) & q(A) --> q(B)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	882	(\<forall>B A C. q(A) & product(A::'a,B,C) --> product(B::'a,A,C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	883	(\<forall>A. product(j(A),A,h(A)) \| product(A::'a,j(A),h(A)) \| q(A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	884	(\<forall>A. product(j(A),A,h(A)) & product(A::'a,j(A),h(A)) --> q(A)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	885	(~q(identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	886	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	887
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	888	(8625 inferences so far. Searching to depth 11. 20 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	889	lemma GRP013_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	890	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	891	GRP003_0_ax equal multiply INVERSE identity product &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	892	GRP003_0_eq product multiply INVERSE equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	893	(\<forall>A. product(A::'a,A,identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	894	(product(a::'a,b,c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	895	(product(INVERSE(a),INVERSE(b),d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	896	(\<forall>A C B. product(INVERSE(A),INVERSE(B),C) --> product(A::'a,C,B)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	897	(~product(c::'a,d,identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	898	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	899
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	900	(2448 inferences so far. Searching to depth 10. 7.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	901	lemma GRP037_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	902	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	903	GRP003_0_ax equal multiply INVERSE identity product &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	904	GRP003_0_eq product multiply INVERSE equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	905	(\<forall>A B C. subgroup_member(A) & subgroup_member(B) & product(A::'a,INVERSE(B),C) --> subgroup_member(C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	906	(\<forall>A B. equal(A::'a,B) & subgroup_member(A) --> subgroup_member(B)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	907	(\<forall>A. subgroup_member(A) --> product(Gidentity::'a,A,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	908	(\<forall>A. subgroup_member(A) --> product(A::'a,Gidentity,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	909	(\<forall>A. subgroup_member(A) --> product(A::'a,Ginverse(A),Gidentity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	910	(\<forall>A. subgroup_member(A) --> product(Ginverse(A),A,Gidentity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	911	(\<forall>A. subgroup_member(A) --> subgroup_member(Ginverse(A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	912	(\<forall>A B. equal(A::'a,B) --> equal(Ginverse(A),Ginverse(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	913	(\<forall>A C D B. product(A::'a,B,C) & product(A::'a,D,C) --> equal(D::'a,B)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	914	(\<forall>B C D A. product(A::'a,B,C) & product(D::'a,B,C) --> equal(D::'a,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	915	(subgroup_member(a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	916	(subgroup_member(Gidentity)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	917	(~equal(INVERSE(a),Ginverse(a))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	918	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	919
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	920	(163 inferences so far. Searching to depth 11. 0.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	921	lemma GRP031_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	922	"(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	923	(\<forall>X Y Z W. product(X::'a,Y,Z) & product(X::'a,Y,W) --> equal(Z::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	924	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	925	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	926	(\<forall>A. product(A::'a,INVERSE(A),identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	927	(\<forall>A. product(A::'a,identity,A)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	928	(\<forall>A. ~product(A::'a,a,identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	929	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	930
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	931	(47 inferences so far. Searching to depth 11. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	932	lemma GRP034_4:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	933	"(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	934	(\<forall>X. product(identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	935	(\<forall>X. product(X::'a,identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	936	(\<forall>X. product(X::'a,INVERSE(X),identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	937	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	938	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	939	(\<forall>B A C. subgroup_member(A) & subgroup_member(B) & product(B::'a,INVERSE(A),C) --> subgroup_member(C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	940	(subgroup_member(a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	941	(~subgroup_member(INVERSE(a))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	942	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	943
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	944	(3287 inferences so far. Searching to depth 14. 3.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	945	lemma GRP047_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	946	"(\<forall>X. product(identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	947	(\<forall>X. product(INVERSE(X),X,identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	948	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	949	(\<forall>X Y Z W. product(X::'a,Y,Z) & product(X::'a,Y,W) --> equal(Z::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	950	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	951	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	952	(\<forall>X W Z Y. equal(X::'a,Y) & product(W::'a,Z,X) --> product(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	953	(equal(a::'a,b)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	954	(~equal(multiply(c::'a,a),multiply(c::'a,b))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	955	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	956
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	957	(25559 inferences so far. Searching to depth 19. 16.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	958	lemma GRP130_1_002:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	959	"(group_element(e_1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	960	(group_element(e_2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	961	(~equal(e_1::'a,e_2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	962	(~equal(e_2::'a,e_1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	963	(\<forall>X Y. group_element(X) & group_element(Y) --> product(X::'a,Y,e_1) \| product(X::'a,Y,e_2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	964	(\<forall>X Y W Z. product(X::'a,Y,W) & product(X::'a,Y,Z) --> equal(W::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	965	(\<forall>X Y W Z. product(X::'a,W,Y) & product(X::'a,Z,Y) --> equal(W::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	966	(\<forall>Y X W Z. product(W::'a,Y,X) & product(Z::'a,Y,X) --> equal(W::'a,Z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	967	(\<forall>Z1 Z2 Y X. product(X::'a,Y,Z1) & product(X::'a,Z1,Z2) --> product(Z2::'a,Y,X)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	968	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	969
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	970	abbreviation "GRP004_0_ax INVERSE identity multiply equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	971	(\<forall>X. equal(multiply(identity::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	972	(\<forall>X. equal(multiply(INVERSE(X),X),identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	973	(\<forall>X Y Z. equal(multiply(multiply(X::'a,Y),Z),multiply(X::'a,multiply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	974	(\<forall>A B. equal(A::'a,B) --> equal(INVERSE(A),INVERSE(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	975	(\<forall>C D E. equal(C::'a,D) --> equal(multiply(C::'a,E),multiply(D::'a,E))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	976	(\<forall>F' H G. equal(F'::'a,G) --> equal(multiply(H::'a,F'),multiply(H::'a,G)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	977
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	978	abbreviation "GRP004_2_ax multiply least_upper_bound greatest_lower_bound equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	979	(\<forall>Y X. equal(greatest_lower_bound(X::'a,Y),greatest_lower_bound(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	980	(\<forall>Y X. equal(least_upper_bound(X::'a,Y),least_upper_bound(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	981	(\<forall>X Y Z. equal(greatest_lower_bound(X::'a,greatest_lower_bound(Y::'a,Z)),greatest_lower_bound(greatest_lower_bound(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	982	(\<forall>X Y Z. equal(least_upper_bound(X::'a,least_upper_bound(Y::'a,Z)),least_upper_bound(least_upper_bound(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	983	(\<forall>X. equal(least_upper_bound(X::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	984	(\<forall>X. equal(greatest_lower_bound(X::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	985	(\<forall>Y X. equal(least_upper_bound(X::'a,greatest_lower_bound(X::'a,Y)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	986	(\<forall>Y X. equal(greatest_lower_bound(X::'a,least_upper_bound(X::'a,Y)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	987	(\<forall>Y X Z. equal(multiply(X::'a,least_upper_bound(Y::'a,Z)),least_upper_bound(multiply(X::'a,Y),multiply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	988	(\<forall>Y X Z. equal(multiply(X::'a,greatest_lower_bound(Y::'a,Z)),greatest_lower_bound(multiply(X::'a,Y),multiply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	989	(\<forall>Y Z X. equal(multiply(least_upper_bound(Y::'a,Z),X),least_upper_bound(multiply(Y::'a,X),multiply(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	990	(\<forall>Y Z X. equal(multiply(greatest_lower_bound(Y::'a,Z),X),greatest_lower_bound(multiply(Y::'a,X),multiply(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	991	(\<forall>A B C. equal(A::'a,B) --> equal(greatest_lower_bound(A::'a,C),greatest_lower_bound(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	992	(\<forall>A C B. equal(A::'a,B) --> equal(greatest_lower_bound(C::'a,A),greatest_lower_bound(C::'a,B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	993	(\<forall>A B C. equal(A::'a,B) --> equal(least_upper_bound(A::'a,C),least_upper_bound(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	994	(\<forall>A C B. equal(A::'a,B) --> equal(least_upper_bound(C::'a,A),least_upper_bound(C::'a,B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	995	(\<forall>A B C. equal(A::'a,B) --> equal(multiply(A::'a,C),multiply(B::'a,C))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	996	(\<forall>A C B. equal(A::'a,B) --> equal(multiply(C::'a,A),multiply(C::'a,B)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	997
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	998	(3468 inferences so far. Searching to depth 10. 9.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	999	lemma GRP156_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1000	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1001	GRP004_0_ax INVERSE identity multiply equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1002	GRP004_2_ax multiply least_upper_bound greatest_lower_bound equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1003	(equal(least_upper_bound(a::'a,b),b)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1004	(~equal(greatest_lower_bound(multiply(a::'a,c),multiply(b::'a,c)),multiply(a::'a,c))) --> False"
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1005	by meson
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1006
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1007	(4394 inferences so far. Searching to depth 10. 8.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1008	lemma GRP168_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1009	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1010	GRP004_0_ax INVERSE identity multiply equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1011	GRP004_2_ax multiply least_upper_bound greatest_lower_bound equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1012	(equal(least_upper_bound(a::'a,b),b)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1013	(~equal(least_upper_bound(multiply(INVERSE(c),multiply(a::'a,c)),multiply(INVERSE(c),multiply(b::'a,c))),multiply(INVERSE(c),multiply(b::'a,c)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1014	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1015
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1016	abbreviation "HEN002_0_ax identity Zero Divide equal mless_equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1017	(\<forall>X Y. mless_equal(X::'a,Y) --> equal(Divide(X::'a,Y),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1018	(\<forall>X Y. equal(Divide(X::'a,Y),Zero) --> mless_equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1019	(\<forall>Y X. mless_equal(Divide(X::'a,Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1020	(\<forall>X Y Z. mless_equal(Divide(Divide(X::'a,Z),Divide(Y::'a,Z)),Divide(Divide(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1021	(\<forall>X. mless_equal(Zero::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1022	(\<forall>X Y. mless_equal(X::'a,Y) & mless_equal(Y::'a,X) --> equal(X::'a,Y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1023	(\<forall>X. mless_equal(X::'a,identity))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1024
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1025	abbreviation "HEN002_0_eq mless_equal Divide equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1026	(\<forall>A B C. equal(A::'a,B) --> equal(Divide(A::'a,C),Divide(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1027	(\<forall>D F' E. equal(D::'a,E) --> equal(Divide(F'::'a,D),Divide(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1028	(\<forall>G H I'. equal(G::'a,H) & mless_equal(G::'a,I') --> mless_equal(H::'a,I')) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1029	(\<forall>J L K'. equal(J::'a,K') & mless_equal(L::'a,J) --> mless_equal(L::'a,K'))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1030
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1031	(250258 inferences so far. Searching to depth 16. 406.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1032	lemma HEN003_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1033	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1034	HEN002_0_ax identity Zero Divide equal mless_equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1035	HEN002_0_eq mless_equal Divide equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1036	(~equal(Divide(a::'a,a),Zero)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1037	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1038
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1039	(202177 inferences so far. Searching to depth 14. 451 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1040	lemma HEN007_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1041	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1042	(\<forall>X Y. mless_equal(X::'a,Y) --> quotient(X::'a,Y,Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1043	(\<forall>X Y. quotient(X::'a,Y,Zero) --> mless_equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1044	(\<forall>Y Z X. quotient(X::'a,Y,Z) --> mless_equal(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1045	(\<forall>Y X V3 V2 V1 Z V4 V5. quotient(X::'a,Y,V1) & quotient(Y::'a,Z,V2) & quotient(X::'a,Z,V3) & quotient(V3::'a,V2,V4) & quotient(V1::'a,Z,V5) --> mless_equal(V4::'a,V5)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1046	(\<forall>X. mless_equal(Zero::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1047	(\<forall>X Y. mless_equal(X::'a,Y) & mless_equal(Y::'a,X) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1048	(\<forall>X. mless_equal(X::'a,identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1049	(\<forall>X Y. quotient(X::'a,Y,Divide(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1050	(\<forall>X Y Z W. quotient(X::'a,Y,Z) & quotient(X::'a,Y,W) --> equal(Z::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1051	(\<forall>X Y W Z. equal(X::'a,Y) & quotient(X::'a,W,Z) --> quotient(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1052	(\<forall>X W Y Z. equal(X::'a,Y) & quotient(W::'a,X,Z) --> quotient(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1053	(\<forall>X W Z Y. equal(X::'a,Y) & quotient(W::'a,Z,X) --> quotient(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1054	(\<forall>X Z Y. equal(X::'a,Y) & mless_equal(Z::'a,X) --> mless_equal(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1055	(\<forall>X Y Z. equal(X::'a,Y) & mless_equal(X::'a,Z) --> mless_equal(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1056	(\<forall>X Y W. equal(X::'a,Y) --> equal(Divide(X::'a,W),Divide(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1057	(\<forall>X W Y. equal(X::'a,Y) --> equal(Divide(W::'a,X),Divide(W::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1058	(\<forall>X. quotient(X::'a,identity,Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1059	(\<forall>X. quotient(Zero::'a,X,Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1060	(\<forall>X. quotient(X::'a,X,Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1061	(\<forall>X. quotient(X::'a,Zero,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1062	(\<forall>Y X Z. mless_equal(X::'a,Y) & mless_equal(Y::'a,Z) --> mless_equal(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1063	(\<forall>W1 X Z W2 Y. quotient(X::'a,Y,W1) & mless_equal(W1::'a,Z) & quotient(X::'a,Z,W2) --> mless_equal(W2::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1064	(mless_equal(x::'a,y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1065	(quotient(z::'a,y,zQy)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1066	(quotient(z::'a,x,zQx)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1067	(~mless_equal(zQy::'a,zQx)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1068	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1069
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1070	(60026 inferences so far. Searching to depth 12. 42.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1071	lemma HEN008_4:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1072	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1073	HEN002_0_ax identity Zero Divide equal mless_equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1074	HEN002_0_eq mless_equal Divide equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1075	(\<forall>X. equal(Divide(X::'a,identity),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1076	(\<forall>X. equal(Divide(Zero::'a,X),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1077	(\<forall>X. equal(Divide(X::'a,X),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1078	(equal(Divide(a::'a,Zero),a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1079	(\<forall>Y X Z. mless_equal(X::'a,Y) & mless_equal(Y::'a,Z) --> mless_equal(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1080	(\<forall>X Z Y. mless_equal(Divide(X::'a,Y),Z) --> mless_equal(Divide(X::'a,Z),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1081	(\<forall>Y Z X. mless_equal(X::'a,Y) --> mless_equal(Divide(Z::'a,Y),Divide(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1082	(mless_equal(a::'a,b)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1083	(~mless_equal(Divide(a::'a,c),Divide(b::'a,c))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1084	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1085
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1086	(3160 inferences so far. Searching to depth 11. 3.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1087	lemma HEN009_5:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1088	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1089	(\<forall>Y X. equal(Divide(Divide(X::'a,Y),X),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1090	(\<forall>X Y Z. equal(Divide(Divide(Divide(X::'a,Z),Divide(Y::'a,Z)),Divide(Divide(X::'a,Y),Z)),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1091	(\<forall>X. equal(Divide(Zero::'a,X),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1092	(\<forall>X Y. equal(Divide(X::'a,Y),Zero) & equal(Divide(Y::'a,X),Zero) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1093	(\<forall>X. equal(Divide(X::'a,identity),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1094	(\<forall>A B C. equal(A::'a,B) --> equal(Divide(A::'a,C),Divide(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1095	(\<forall>D F' E. equal(D::'a,E) --> equal(Divide(F'::'a,D),Divide(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1096	(\<forall>Y X Z. equal(Divide(X::'a,Y),Zero) & equal(Divide(Y::'a,Z),Zero) --> equal(Divide(X::'a,Z),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1097	(\<forall>X Z Y. equal(Divide(Divide(X::'a,Y),Z),Zero) --> equal(Divide(Divide(X::'a,Z),Y),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1098	(\<forall>Y Z X. equal(Divide(X::'a,Y),Zero) --> equal(Divide(Divide(Z::'a,Y),Divide(Z::'a,X)),Zero)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1099	(~equal(Divide(identity::'a,a),Divide(identity::'a,Divide(identity::'a,Divide(identity::'a,a))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1100	(equal(Divide(identity::'a,a),b)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1101	(equal(Divide(identity::'a,b),c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1102	(equal(Divide(identity::'a,c),d)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1103	(~equal(b::'a,d)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1104	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1105
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1106	(970373 inferences so far. Searching to depth 17. 890.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1107	lemma HEN012_3:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1108	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1109	HEN002_0_ax identity Zero Divide equal mless_equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1110	HEN002_0_eq mless_equal Divide equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1111	(~mless_equal(a::'a,a)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1112	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1113
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1114
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1115	(1063 inferences so far. Searching to depth 20. 1.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1116	lemma LCL010_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1117	"(\<forall>X Y. is_a_theorem(equivalent(X::'a,Y)) & is_a_theorem(X) --> is_a_theorem(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1118	(\<forall>X Z Y. is_a_theorem(equivalent(equivalent(X::'a,Y),equivalent(equivalent(X::'a,Z),equivalent(Z::'a,Y))))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1119	(~is_a_theorem(equivalent(equivalent(a::'a,b),equivalent(equivalent(c::'a,b),equivalent(a::'a,c))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1120	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1121
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1122	(2549 inferences so far. Searching to depth 12. 1.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1123	lemma LCL077_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1124	"(\<forall>X Y. is_a_theorem(implies(X,Y)) & is_a_theorem(X) --> is_a_theorem(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1125	(\<forall>Y X. is_a_theorem(implies(X,implies(Y,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1126	(\<forall>Y X Z. is_a_theorem(implies(implies(X,implies(Y,Z)),implies(implies(X,Y),implies(X,Z))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1127	(\<forall>Y X. is_a_theorem(implies(implies(not(X),not(Y)),implies(Y,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1128	(\<forall>X2 X1 X3. is_a_theorem(implies(X1,X2)) & is_a_theorem(implies(X2,X3)) --> is_a_theorem(implies(X1,X3))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1129	(~is_a_theorem(implies(not(not(a)),a))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1130	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1131
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1132	(2036 inferences so far. Searching to depth 20. 1.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1133	lemma LCL082_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1134	"(\<forall>X Y. is_a_theorem(implies(X::'a,Y)) & is_a_theorem(X) --> is_a_theorem(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1135	(\<forall>Y Z U X. is_a_theorem(implies(implies(implies(X::'a,Y),Z),implies(implies(Z::'a,X),implies(U::'a,X))))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1136	(~is_a_theorem(implies(a::'a,implies(b::'a,a)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1137	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1138
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1139	(1100 inferences so far. Searching to depth 13. 1.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1140	lemma LCL111_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1141	"(\<forall>X Y. is_a_theorem(implies(X,Y)) & is_a_theorem(X) --> is_a_theorem(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1142	(\<forall>Y X. is_a_theorem(implies(X,implies(Y,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1143	(\<forall>Y X Z. is_a_theorem(implies(implies(X,Y),implies(implies(Y,Z),implies(X,Z))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1144	(\<forall>Y X. is_a_theorem(implies(implies(implies(X,Y),Y),implies(implies(Y,X),X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1145	(\<forall>Y X. is_a_theorem(implies(implies(not(X),not(Y)),implies(Y,X)))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1146	(~is_a_theorem(implies(implies(a,b),implies(implies(c,a),implies(c,b))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1147	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1148
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1149	(667 inferences so far. Searching to depth 9. 1.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1150	lemma LCL143_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1151	"(\<forall>X. equal(X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1152	(\<forall>Y X. equal(X,Y) --> equal(Y,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1153	(\<forall>Y X Z. equal(X,Y) & equal(Y,Z) --> equal(X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1154	(\<forall>X. equal(implies(true,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1155	(\<forall>Y X Z. equal(implies(implies(X,Y),implies(implies(Y,Z),implies(X,Z))),true)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1156	(\<forall>Y X. equal(implies(implies(X,Y),Y),implies(implies(Y,X),X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1157	(\<forall>Y X. equal(implies(implies(not(X),not(Y)),implies(Y,X)),true)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1158	(\<forall>A B C. equal(A,B) --> equal(implies(A,C),implies(B,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1159	(\<forall>D F' E. equal(D,E) --> equal(implies(F',D),implies(F',E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1160	(\<forall>G H. equal(G,H) --> equal(not(G),not(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1161	(\<forall>X Y. equal(big_V(X,Y),implies(implies(X,Y),Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1162	(\<forall>X Y. equal(big_hat(X,Y),not(big_V(not(X),not(Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1163	(\<forall>X Y. ordered(X,Y) --> equal(implies(X,Y),true)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1164	(\<forall>X Y. equal(implies(X,Y),true) --> ordered(X,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1165	(\<forall>A B C. equal(A,B) --> equal(big_V(A,C),big_V(B,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1166	(\<forall>D F' E. equal(D,E) --> equal(big_V(F',D),big_V(F',E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1167	(\<forall>G H I'. equal(G,H) --> equal(big_hat(G,I'),big_hat(H,I'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1168	(\<forall>J L K'. equal(J,K') --> equal(big_hat(L,J),big_hat(L,K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1169	(\<forall>M N O'. equal(M,N) & ordered(M,O') --> ordered(N,O')) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1170	(\<forall>P R Q. equal(P,Q) & ordered(R,P) --> ordered(R,Q)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1171	(ordered(x,y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1172	(~ordered(implies(z,x),implies(z,y))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1173	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1174
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1175	(5245 inferences so far. Searching to depth 12. 4.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1176	lemma LCL182_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1177	"(\<forall>A. axiom(or(not(or(A,A)),A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1178	(\<forall>B A. axiom(or(not(A),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1179	(\<forall>B A. axiom(or(not(or(A,B)),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1180	(\<forall>B A C. axiom(or(not(or(A,or(B,C))),or(B,or(A,C))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1181	(\<forall>A C B. axiom(or(not(or(not(A),B)),or(not(or(C,A)),or(C,B))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1182	(\<forall>X. axiom(X) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1183	(\<forall>X Y. axiom(or(not(Y),X)) & theorem(Y) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1184	(\<forall>X Y Z. axiom(or(not(X),Y)) & theorem(or(not(Y),Z)) --> theorem(or(not(X),Z))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1185	(~theorem(or(not(or(not(p),q)),or(not(not(q)),not(p))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1186	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1187
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1188	(410 inferences so far. Searching to depth 10. 0.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1189	lemma LCL200_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1190	"(\<forall>A. axiom(or(not(or(A,A)),A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1191	(\<forall>B A. axiom(or(not(A),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1192	(\<forall>B A. axiom(or(not(or(A,B)),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1193	(\<forall>B A C. axiom(or(not(or(A,or(B,C))),or(B,or(A,C))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1194	(\<forall>A C B. axiom(or(not(or(not(A),B)),or(not(or(C,A)),or(C,B))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1195	(\<forall>X. axiom(X) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1196	(\<forall>X Y. axiom(or(not(Y),X)) & theorem(Y) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1197	(\<forall>X Y Z. axiom(or(not(X),Y)) & theorem(or(not(Y),Z)) --> theorem(or(not(X),Z))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1198	(~theorem(or(not(not(or(p,q))),not(q)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1199	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1200
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1201	(5849 inferences so far. Searching to depth 12. 5.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1202	lemma LCL215_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1203	"(\<forall>A. axiom(or(not(or(A,A)),A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1204	(\<forall>B A. axiom(or(not(A),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1205	(\<forall>B A. axiom(or(not(or(A,B)),or(B,A)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1206	(\<forall>B A C. axiom(or(not(or(A,or(B,C))),or(B,or(A,C))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1207	(\<forall>A C B. axiom(or(not(or(not(A),B)),or(not(or(C,A)),or(C,B))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1208	(\<forall>X. axiom(X) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1209	(\<forall>X Y. axiom(or(not(Y),X)) & theorem(Y) --> theorem(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1210	(\<forall>X Y Z. axiom(or(not(X),Y)) & theorem(or(not(Y),Z)) --> theorem(or(not(X),Z))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1211	(~theorem(or(not(or(not(p),q)),or(not(or(p,q)),q)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1212	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1213
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1214	(0 secs. Not sure that a search even starts!)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1215	lemma LCL230_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1216	"(q --> p \| r) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1217	(~p) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1218	(q) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1219	(~r) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1220	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1221
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1222	(119585 inferences so far. Searching to depth 14. 262.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1223	lemma LDA003_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1224	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1225	(\<forall>Y X Z. equal(f(X::'a,f(Y::'a,Z)),f(f(X::'a,Y),f(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1226	(\<forall>X Y. left(X::'a,f(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1227	(\<forall>Y X Z. left(X::'a,Y) & left(Y::'a,Z) --> left(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1228	(equal(num2::'a,f(num1::'a,num1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1229	(equal(num3::'a,f(num2::'a,num1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1230	(equal(u::'a,f(num2::'a,num2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1231	(\<forall>A B C. equal(A::'a,B) --> equal(f(A::'a,C),f(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1232	(\<forall>D F' E. equal(D::'a,E) --> equal(f(F'::'a,D),f(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1233	(\<forall>G H I'. equal(G::'a,H) & left(G::'a,I') --> left(H::'a,I')) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1234	(\<forall>J L K'. equal(J::'a,K') & left(L::'a,J) --> left(L::'a,K')) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1235	(~left(num3::'a,u)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1236	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1237
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1238
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1239	(2392 inferences so far. Searching to depth 12. 2.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1240	lemma MSC002_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1241	"(at(something::'a,here,now)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1242	(\<forall>Place Situation. hand_at(Place::'a,Situation) --> hand_at(Place::'a,let_go(Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1243	(\<forall>Place Another_place Situation. hand_at(Place::'a,Situation) --> hand_at(Another_place::'a,go(Another_place::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1244	(\<forall>Thing Situation. ~held(Thing::'a,let_go(Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1245	(\<forall>Situation Thing. at(Thing::'a,here,Situation) --> red(Thing)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1246	(\<forall>Thing Place Situation. at(Thing::'a,Place,Situation) --> at(Thing::'a,Place,let_go(Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1247	(\<forall>Thing Place Situation. at(Thing::'a,Place,Situation) --> at(Thing::'a,Place,pick_up(Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1248	(\<forall>Thing Place Situation. at(Thing::'a,Place,Situation) --> grabbed(Thing::'a,pick_up(go(Place::'a,let_go(Situation))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1249	(\<forall>Thing Situation. red(Thing) & put(Thing::'a,there,Situation) --> answer(Situation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1250	(\<forall>Place Thing Another_place Situation. at(Thing::'a,Place,Situation) & grabbed(Thing::'a,Situation) --> put(Thing::'a,Another_place,go(Another_place::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1251	(\<forall>Thing Place Another_place Situation. at(Thing::'a,Place,Situation) --> held(Thing::'a,Situation) \| at(Thing::'a,Place,go(Another_place::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1252	(\<forall>One_place Thing Place Situation. hand_at(One_place::'a,Situation) & held(Thing::'a,Situation) --> at(Thing::'a,Place,go(Place::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1253	(\<forall>Place Thing Situation. hand_at(Place::'a,Situation) & at(Thing::'a,Place,Situation) --> held(Thing::'a,pick_up(Situation))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1254	(\<forall>Situation. ~answer(Situation)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1255	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1256
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1257	(73 inferences so far. Searching to depth 10. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1258	lemma MSC003_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1259	"(\<forall>Number_of_small_parts Small_part Big_part Number_of_mid_parts Mid_part. has_parts(Big_part::'a,Number_of_mid_parts,Mid_part) --> in'(object_in(Big_part::'a,Mid_part,Small_part,Number_of_mid_parts,Number_of_small_parts),Mid_part) \| has_parts(Big_part::'a,mtimes(Number_of_mid_parts::'a,Number_of_small_parts),Small_part)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1260	(\<forall>Big_part Mid_part Number_of_mid_parts Number_of_small_parts Small_part. has_parts(Big_part::'a,Number_of_mid_parts,Mid_part) & has_parts(object_in(Big_part::'a,Mid_part,Small_part,Number_of_mid_parts,Number_of_small_parts),Number_of_small_parts,Small_part) --> has_parts(Big_part::'a,mtimes(Number_of_mid_parts::'a,Number_of_small_parts),Small_part)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1261	(in'(john::'a,boy)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1262	(\<forall>X. in'(X::'a,boy) --> in'(X::'a,human)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1263	(\<forall>X. in'(X::'a,hand) --> has_parts(X::'a,num5,fingers)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1264	(\<forall>X. in'(X::'a,human) --> has_parts(X::'a,num2,arm)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1265	(\<forall>X. in'(X::'a,arm) --> has_parts(X::'a,num1,hand)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1266	(~has_parts(john::'a,mtimes(num2::'a,num1),hand)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1267	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1268
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1269	(1486 inferences so far. Searching to depth 20. 1.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1270	lemma MSC004_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1271	"(\<forall>Number_of_small_parts Small_part Big_part Number_of_mid_parts Mid_part. has_parts(Big_part::'a,Number_of_mid_parts,Mid_part) --> in'(object_in(Big_part::'a,Mid_part,Small_part,Number_of_mid_parts,Number_of_small_parts),Mid_part) \| has_parts(Big_part::'a,mtimes(Number_of_mid_parts::'a,Number_of_small_parts),Small_part)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1272	(\<forall>Big_part Mid_part Number_of_mid_parts Number_of_small_parts Small_part. has_parts(Big_part::'a,Number_of_mid_parts,Mid_part) & has_parts(object_in(Big_part::'a,Mid_part,Small_part,Number_of_mid_parts,Number_of_small_parts),Number_of_small_parts,Small_part) --> has_parts(Big_part::'a,mtimes(Number_of_mid_parts::'a,Number_of_small_parts),Small_part)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1273	(in'(john::'a,boy)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1274	(\<forall>X. in'(X::'a,boy) --> in'(X::'a,human)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1275	(\<forall>X. in'(X::'a,hand) --> has_parts(X::'a,num5,fingers)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1276	(\<forall>X. in'(X::'a,human) --> has_parts(X::'a,num2,arm)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1277	(\<forall>X. in'(X::'a,arm) --> has_parts(X::'a,num1,hand)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1278	(~has_parts(john::'a,mtimes(mtimes(num2::'a,num1),num5),fingers)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1279	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1280
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1281	(100 inferences so far. Searching to depth 12. 0.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1282	lemma MSC005_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1283	"(value(truth::'a,truth)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1284	(value(falsity::'a,falsity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1285	(\<forall>X Y. value(X::'a,truth) & value(Y::'a,truth) --> value(xor(X::'a,Y),falsity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1286	(\<forall>X Y. value(X::'a,truth) & value(Y::'a,falsity) --> value(xor(X::'a,Y),truth)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1287	(\<forall>X Y. value(X::'a,falsity) & value(Y::'a,truth) --> value(xor(X::'a,Y),truth)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1288	(\<forall>X Y. value(X::'a,falsity) & value(Y::'a,falsity) --> value(xor(X::'a,Y),falsity)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1289	(\<forall>Value. ~value(xor(xor(xor(xor(truth::'a,falsity),falsity),truth),falsity),Value)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1290	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1291
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1292	(19116 inferences so far. Searching to depth 16. 15.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1293	lemma MSC006_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1294	"(\<forall>Y X Z. p(X::'a,Y) & p(Y::'a,Z) --> p(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1295	(\<forall>Y X Z. q(X::'a,Y) & q(Y::'a,Z) --> q(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1296	(\<forall>Y X. q(X::'a,Y) --> q(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1297	(\<forall>X Y. p(X::'a,Y) \| q(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1298	(~p(a::'a,b)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1299	(~q(c::'a,d)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1300	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1301
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1302	(1713 inferences so far. Searching to depth 10. 2.8 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1303	lemma NUM001_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1304	"(\<forall>A. equal(A::'a,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1305	(\<forall>B A C. equal(A::'a,B) & equal(B::'a,C) --> equal(A::'a,C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1306	(\<forall>B A. equal(add(A::'a,B),add(B::'a,A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1307	(\<forall>A B C. equal(add(A::'a,add(B::'a,C)),add(add(A::'a,B),C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1308	(\<forall>B A. equal(subtract(add(A::'a,B),B),A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1309	(\<forall>A B. equal(A::'a,subtract(add(A::'a,B),B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1310	(\<forall>A C B. equal(add(subtract(A::'a,B),C),subtract(add(A::'a,C),B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1311	(\<forall>A C B. equal(subtract(add(A::'a,B),C),add(subtract(A::'a,C),B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1312	(\<forall>A C B D. equal(A::'a,B) & equal(C::'a,add(A::'a,D)) --> equal(C::'a,add(B::'a,D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1313	(\<forall>A C D B. equal(A::'a,B) & equal(C::'a,add(D::'a,A)) --> equal(C::'a,add(D::'a,B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1314	(\<forall>A C B D. equal(A::'a,B) & equal(C::'a,subtract(A::'a,D)) --> equal(C::'a,subtract(B::'a,D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1315	(\<forall>A C D B. equal(A::'a,B) & equal(C::'a,subtract(D::'a,A)) --> equal(C::'a,subtract(D::'a,B))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1316	(~equal(add(add(a::'a,b),c),add(a::'a,add(b::'a,c)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1317	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1318
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1319	abbreviation "NUM001_0_ax multiply successor num0 add equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1320	(\<forall>A. equal(add(A::'a,num0),A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1321	(\<forall>A B. equal(add(A::'a,successor(B)),successor(add(A::'a,B)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1322	(\<forall>A. equal(multiply(A::'a,num0),num0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1323	(\<forall>B A. equal(multiply(A::'a,successor(B)),add(multiply(A::'a,B),A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1324	(\<forall>A B. equal(successor(A),successor(B)) --> equal(A::'a,B)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1325	(\<forall>A B. equal(A::'a,B) --> equal(successor(A),successor(B)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1326
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1327	abbreviation "NUM001_1_ax predecessor_of_1st_minus_2nd successor add equal mless \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1328	(\<forall>A C B. mless(A::'a,B) & mless(C::'a,A) --> mless(C::'a,B)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1329	(\<forall>A B C. equal(add(successor(A),B),C) --> mless(B::'a,C)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1330	(\<forall>A B. mless(A::'a,B) --> equal(add(successor(predecessor_of_1st_minus_2nd(B::'a,A)),A),B))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1331
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1332	abbreviation "NUM001_2_ax equal mless divides \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1333	(\<forall>A B. divides(A::'a,B) --> mless(A::'a,B) \| equal(A::'a,B)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1334	(\<forall>A B. mless(A::'a,B) --> divides(A::'a,B)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1335	(\<forall>A B. equal(A::'a,B) --> divides(A::'a,B))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1336
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1337	(20717 inferences so far. Searching to depth 11. 13.7 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1338	lemma NUM021_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1339	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1340	NUM001_0_ax multiply successor num0 add equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1341	NUM001_1_ax predecessor_of_1st_minus_2nd successor add equal mless &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1342	NUM001_2_ax equal mless divides &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1343	(mless(b::'a,c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1344	(~mless(b::'a,a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1345	(divides(c::'a,a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1346	(\<forall>A. ~equal(successor(A),num0)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1347	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1348
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1349	(26320 inferences so far. Searching to depth 10. 26.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1350	lemma NUM024_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1351	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1352	NUM001_0_ax multiply successor num0 add equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1353	NUM001_1_ax predecessor_of_1st_minus_2nd successor add equal mless &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1354	(\<forall>B A. equal(add(A::'a,B),add(B::'a,A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1355	(\<forall>B A C. equal(add(A::'a,B),add(C::'a,B)) --> equal(A::'a,C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1356	(mless(a::'a,a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1357	(\<forall>A. ~equal(successor(A),num0)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1358	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1359
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1360	abbreviation "SET004_0_ax not_homomorphism2 not_homomorphism1
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1361	homomorphism compatible operation cantor diagonalise subset_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1362	one_to_one choice apply regular function identity_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1363	single_valued_class compos powerClass sum_class omega inductive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1364	successor_relation successor image' rng domain range_of INVERSE flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1365	rot domain_of null_class restrct difference union complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1366	intersection element_relation second first cross_product ordered_pair
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1367	singleton unordered_pair equal universal_class not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1368	member subclass \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1369	(\<forall>X U Y. subclass(X::'a,Y) & member(U::'a,X) --> member(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1370	(\<forall>X Y. member(not_subclass_element(X::'a,Y),X) \| subclass(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1371	(\<forall>X Y. member(not_subclass_element(X::'a,Y),Y) --> subclass(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1372	(\<forall>X. subclass(X::'a,universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1373	(\<forall>X Y. equal(X::'a,Y) --> subclass(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1374	(\<forall>Y X. equal(X::'a,Y) --> subclass(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1375	(\<forall>X Y. subclass(X::'a,Y) & subclass(Y::'a,X) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1376	(\<forall>X U Y. member(U::'a,unordered_pair(X::'a,Y)) --> equal(U::'a,X) \| equal(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1377	(\<forall>X Y. member(X::'a,universal_class) --> member(X::'a,unordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1378	(\<forall>X Y. member(Y::'a,universal_class) --> member(Y::'a,unordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1379	(\<forall>X Y. member(unordered_pair(X::'a,Y),universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1380	(\<forall>X. equal(unordered_pair(X::'a,X),singleton(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1381	(\<forall>X Y. equal(unordered_pair(singleton(X),unordered_pair(X::'a,singleton(Y))),ordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1382	(\<forall>V Y U X. member(ordered_pair(U::'a,V),cross_product(X::'a,Y)) --> member(U::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1383	(\<forall>U X V Y. member(ordered_pair(U::'a,V),cross_product(X::'a,Y)) --> member(V::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1384	(\<forall>U V X Y. member(U::'a,X) & member(V::'a,Y) --> member(ordered_pair(U::'a,V),cross_product(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1385	(\<forall>X Y Z. member(Z::'a,cross_product(X::'a,Y)) --> equal(ordered_pair(first(Z),second(Z)),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1386	(subclass(element_relation::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1387	(\<forall>X Y. member(ordered_pair(X::'a,Y),element_relation) --> member(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1388	(\<forall>X Y. member(ordered_pair(X::'a,Y),cross_product(universal_class::'a,universal_class)) & member(X::'a,Y) --> member(ordered_pair(X::'a,Y),element_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1389	(\<forall>Y Z X. member(Z::'a,intersection(X::'a,Y)) --> member(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1390	(\<forall>X Z Y. member(Z::'a,intersection(X::'a,Y)) --> member(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1391	(\<forall>Z X Y. member(Z::'a,X) & member(Z::'a,Y) --> member(Z::'a,intersection(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1392	(\<forall>Z X. ~(member(Z::'a,complement(X)) & member(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1393	(\<forall>Z X. member(Z::'a,universal_class) --> member(Z::'a,complement(X)) \| member(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1394	(\<forall>X Y. equal(complement(intersection(complement(X),complement(Y))),union(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1395	(\<forall>X Y. equal(intersection(complement(intersection(X::'a,Y)),complement(intersection(complement(X),complement(Y)))),difference(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1396	(\<forall>Xr X Y. equal(intersection(Xr::'a,cross_product(X::'a,Y)),restrct(Xr::'a,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1397	(\<forall>Xr X Y. equal(intersection(cross_product(X::'a,Y),Xr),restrct(Xr::'a,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1398	(\<forall>Z X. ~(equal(restrct(X::'a,singleton(Z),universal_class),null_class) & member(Z::'a,domain_of(X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1399	(\<forall>Z X. member(Z::'a,universal_class) --> equal(restrct(X::'a,singleton(Z),universal_class),null_class) \| member(Z::'a,domain_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1400	(\<forall>X. subclass(rot(X),cross_product(cross_product(universal_class::'a,universal_class),universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1401	(\<forall>V W U X. member(ordered_pair(ordered_pair(U::'a,V),W),rot(X)) --> member(ordered_pair(ordered_pair(V::'a,W),U),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1402	(\<forall>U V W X. member(ordered_pair(ordered_pair(V::'a,W),U),X) & member(ordered_pair(ordered_pair(U::'a,V),W),cross_product(cross_product(universal_class::'a,universal_class),universal_class)) --> member(ordered_pair(ordered_pair(U::'a,V),W),rot(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1403	(\<forall>X. subclass(flip(X),cross_product(cross_product(universal_class::'a,universal_class),universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1404	(\<forall>V U W X. member(ordered_pair(ordered_pair(U::'a,V),W),flip(X)) --> member(ordered_pair(ordered_pair(V::'a,U),W),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1405	(\<forall>U V W X. member(ordered_pair(ordered_pair(V::'a,U),W),X) & member(ordered_pair(ordered_pair(U::'a,V),W),cross_product(cross_product(universal_class::'a,universal_class),universal_class)) --> member(ordered_pair(ordered_pair(U::'a,V),W),flip(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1406	(\<forall>Y. equal(domain_of(flip(cross_product(Y::'a,universal_class))),INVERSE(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1407	(\<forall>Z. equal(domain_of(INVERSE(Z)),range_of(Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1408	(\<forall>Z X Y. equal(first(not_subclass_element(restrct(Z::'a,X,singleton(Y)),null_class)),domain(Z::'a,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1409	(\<forall>Z X Y. equal(second(not_subclass_element(restrct(Z::'a,singleton(X),Y),null_class)),rng(Z::'a,X,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1410	(\<forall>Xr X. equal(range_of(restrct(Xr::'a,X,universal_class)),image'(Xr::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1411	(\<forall>X. equal(union(X::'a,singleton(X)),successor(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1412	(subclass(successor_relation::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1413	(\<forall>X Y. member(ordered_pair(X::'a,Y),successor_relation) --> equal(successor(X),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1414	(\<forall>X Y. equal(successor(X),Y) & member(ordered_pair(X::'a,Y),cross_product(universal_class::'a,universal_class)) --> member(ordered_pair(X::'a,Y),successor_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1415	(\<forall>X. inductive(X) --> member(null_class::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1416	(\<forall>X. inductive(X) --> subclass(image'(successor_relation::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1417	(\<forall>X. member(null_class::'a,X) & subclass(image'(successor_relation::'a,X),X) --> inductive(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1418	(inductive(omega)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1419	(\<forall>Y. inductive(Y) --> subclass(omega::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1420	(member(omega::'a,universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1421	(\<forall>X. equal(domain_of(restrct(element_relation::'a,universal_class,X)),sum_class(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1422	(\<forall>X. member(X::'a,universal_class) --> member(sum_class(X),universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1423	(\<forall>X. equal(complement(image'(element_relation::'a,complement(X))),powerClass(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1424	(\<forall>U. member(U::'a,universal_class) --> member(powerClass(U),universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1425	(\<forall>Yr Xr. subclass(compos(Yr::'a,Xr),cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1426	(\<forall>Z Yr Xr Y. member(ordered_pair(Y::'a,Z),compos(Yr::'a,Xr)) --> member(Z::'a,image'(Yr::'a,image'(Xr::'a,singleton(Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1427	(\<forall>Y Z Yr Xr. member(Z::'a,image'(Yr::'a,image'(Xr::'a,singleton(Y)))) & member(ordered_pair(Y::'a,Z),cross_product(universal_class::'a,universal_class)) --> member(ordered_pair(Y::'a,Z),compos(Yr::'a,Xr))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1428	(\<forall>X. single_valued_class(X) --> subclass(compos(X::'a,INVERSE(X)),identity_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1429	(\<forall>X. subclass(compos(X::'a,INVERSE(X)),identity_relation) --> single_valued_class(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1430	(\<forall>Xf. function(Xf) --> subclass(Xf::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1431	(\<forall>Xf. function(Xf) --> subclass(compos(Xf::'a,INVERSE(Xf)),identity_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1432	(\<forall>Xf. subclass(Xf::'a,cross_product(universal_class::'a,universal_class)) & subclass(compos(Xf::'a,INVERSE(Xf)),identity_relation) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1433	(\<forall>Xf X. function(Xf) & member(X::'a,universal_class) --> member(image'(Xf::'a,X),universal_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1434	(\<forall>X. equal(X::'a,null_class) \| member(regular(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1435	(\<forall>X. equal(X::'a,null_class) \| equal(intersection(X::'a,regular(X)),null_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1436	(\<forall>Xf Y. equal(sum_class(image'(Xf::'a,singleton(Y))),apply(Xf::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1437	(function(choice)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1438	(\<forall>Y. member(Y::'a,universal_class) --> equal(Y::'a,null_class) \| member(apply(choice::'a,Y),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1439	(\<forall>Xf. one_to_one(Xf) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1440	(\<forall>Xf. one_to_one(Xf) --> function(INVERSE(Xf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1441	(\<forall>Xf. function(INVERSE(Xf)) & function(Xf) --> one_to_one(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1442	(equal(intersection(cross_product(universal_class::'a,universal_class),intersection(cross_product(universal_class::'a,universal_class),complement(compos(complement(element_relation),INVERSE(element_relation))))),subset_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1443	(equal(intersection(INVERSE(subset_relation),subset_relation),identity_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1444	(\<forall>Xr. equal(complement(domain_of(intersection(Xr::'a,identity_relation))),diagonalise(Xr))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1445	(\<forall>X. equal(intersection(domain_of(X),diagonalise(compos(INVERSE(element_relation),X))),cantor(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1446	(\<forall>Xf. operation(Xf) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1447	(\<forall>Xf. operation(Xf) --> equal(cross_product(domain_of(domain_of(Xf)),domain_of(domain_of(Xf))),domain_of(Xf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1448	(\<forall>Xf. operation(Xf) --> subclass(range_of(Xf),domain_of(domain_of(Xf)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1449	(\<forall>Xf. function(Xf) & equal(cross_product(domain_of(domain_of(Xf)),domain_of(domain_of(Xf))),domain_of(Xf)) & subclass(range_of(Xf),domain_of(domain_of(Xf))) --> operation(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1450	(\<forall>Xf1 Xf2 Xh. compatible(Xh::'a,Xf1,Xf2) --> function(Xh)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1451	(\<forall>Xf2 Xf1 Xh. compatible(Xh::'a,Xf1,Xf2) --> equal(domain_of(domain_of(Xf1)),domain_of(Xh))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1452	(\<forall>Xf1 Xh Xf2. compatible(Xh::'a,Xf1,Xf2) --> subclass(range_of(Xh),domain_of(domain_of(Xf2)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1453	(\<forall>Xh Xh1 Xf1 Xf2. function(Xh) & equal(domain_of(domain_of(Xf1)),domain_of(Xh)) & subclass(range_of(Xh),domain_of(domain_of(Xf2))) --> compatible(Xh1::'a,Xf1,Xf2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1454	(\<forall>Xh Xf2 Xf1. homomorphism(Xh::'a,Xf1,Xf2) --> operation(Xf1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1455	(\<forall>Xh Xf1 Xf2. homomorphism(Xh::'a,Xf1,Xf2) --> operation(Xf2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1456	(\<forall>Xh Xf1 Xf2. homomorphism(Xh::'a,Xf1,Xf2) --> compatible(Xh::'a,Xf1,Xf2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1457	(\<forall>Xf2 Xh Xf1 X Y. homomorphism(Xh::'a,Xf1,Xf2) & member(ordered_pair(X::'a,Y),domain_of(Xf1)) --> equal(apply(Xf2::'a,ordered_pair(apply(Xh::'a,X),apply(Xh::'a,Y))),apply(Xh::'a,apply(Xf1::'a,ordered_pair(X::'a,Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1458	(\<forall>Xh Xf1 Xf2. operation(Xf1) & operation(Xf2) & compatible(Xh::'a,Xf1,Xf2) --> member(ordered_pair(not_homomorphism1(Xh::'a,Xf1,Xf2),not_homomorphism2(Xh::'a,Xf1,Xf2)),domain_of(Xf1)) \| homomorphism(Xh::'a,Xf1,Xf2)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1459	(\<forall>Xh Xf1 Xf2. operation(Xf1) & operation(Xf2) & compatible(Xh::'a,Xf1,Xf2) & equal(apply(Xf2::'a,ordered_pair(apply(Xh::'a,not_homomorphism1(Xh::'a,Xf1,Xf2)),apply(Xh::'a,not_homomorphism2(Xh::'a,Xf1,Xf2)))),apply(Xh::'a,apply(Xf1::'a,ordered_pair(not_homomorphism1(Xh::'a,Xf1,Xf2),not_homomorphism2(Xh::'a,Xf1,Xf2))))) --> homomorphism(Xh::'a,Xf1,Xf2))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1460
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1461	abbreviation "SET004_0_eq subclass single_valued_class operation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1462	one_to_one member inductive homomorphism function compatible
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1463	unordered_pair union sum_class successor singleton second rot restrct
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1464	regular range_of rng powerClass ordered_pair not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1465	not_homomorphism2 not_homomorphism1 INVERSE intersection image' flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1466	first domain_of domain difference diagonalise cross_product compos
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1467	complement cantor apply equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1468	(\<forall>D E F'. equal(D::'a,E) --> equal(apply(D::'a,F'),apply(E::'a,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1469	(\<forall>G I' H. equal(G::'a,H) --> equal(apply(I'::'a,G),apply(I'::'a,H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1470	(\<forall>J K'. equal(J::'a,K') --> equal(cantor(J),cantor(K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1471	(\<forall>L M. equal(L::'a,M) --> equal(complement(L),complement(M))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1472	(\<forall>N O' P. equal(N::'a,O') --> equal(compos(N::'a,P),compos(O'::'a,P))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1473	(\<forall>Q S' R. equal(Q::'a,R) --> equal(compos(S'::'a,Q),compos(S'::'a,R))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1474	(\<forall>T' U V. equal(T'::'a,U) --> equal(cross_product(T'::'a,V),cross_product(U::'a,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1475	(\<forall>W Y X. equal(W::'a,X) --> equal(cross_product(Y::'a,W),cross_product(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1476	(\<forall>Z A1. equal(Z::'a,A1) --> equal(diagonalise(Z),diagonalise(A1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1477	(\<forall>B1 C1 D1. equal(B1::'a,C1) --> equal(difference(B1::'a,D1),difference(C1::'a,D1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1478	(\<forall>E1 G1 F1. equal(E1::'a,F1) --> equal(difference(G1::'a,E1),difference(G1::'a,F1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1479	(\<forall>H1 I1 J1 K1. equal(H1::'a,I1) --> equal(domain(H1::'a,J1,K1),domain(I1::'a,J1,K1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1480	(\<forall>L1 N1 M1 O1. equal(L1::'a,M1) --> equal(domain(N1::'a,L1,O1),domain(N1::'a,M1,O1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1481	(\<forall>P1 R1 S1 Q1. equal(P1::'a,Q1) --> equal(domain(R1::'a,S1,P1),domain(R1::'a,S1,Q1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1482	(\<forall>T1 U1. equal(T1::'a,U1) --> equal(domain_of(T1),domain_of(U1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1483	(\<forall>V1 W1. equal(V1::'a,W1) --> equal(first(V1),first(W1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1484	(\<forall>X1 Y1. equal(X1::'a,Y1) --> equal(flip(X1),flip(Y1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1485	(\<forall>Z1 A2 B2. equal(Z1::'a,A2) --> equal(image'(Z1::'a,B2),image'(A2::'a,B2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1486	(\<forall>C2 E2 D2. equal(C2::'a,D2) --> equal(image'(E2::'a,C2),image'(E2::'a,D2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1487	(\<forall>F2 G2 H2. equal(F2::'a,G2) --> equal(intersection(F2::'a,H2),intersection(G2::'a,H2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1488	(\<forall>I2 K2 J2. equal(I2::'a,J2) --> equal(intersection(K2::'a,I2),intersection(K2::'a,J2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1489	(\<forall>L2 M2. equal(L2::'a,M2) --> equal(INVERSE(L2),INVERSE(M2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1490	(\<forall>N2 O2 P2 Q2. equal(N2::'a,O2) --> equal(not_homomorphism1(N2::'a,P2,Q2),not_homomorphism1(O2::'a,P2,Q2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1491	(\<forall>R2 T2 S2 U2. equal(R2::'a,S2) --> equal(not_homomorphism1(T2::'a,R2,U2),not_homomorphism1(T2::'a,S2,U2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1492	(\<forall>V2 X2 Y2 W2. equal(V2::'a,W2) --> equal(not_homomorphism1(X2::'a,Y2,V2),not_homomorphism1(X2::'a,Y2,W2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1493	(\<forall>Z2 A3 B3 C3. equal(Z2::'a,A3) --> equal(not_homomorphism2(Z2::'a,B3,C3),not_homomorphism2(A3::'a,B3,C3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1494	(\<forall>D3 F3 E3 G3. equal(D3::'a,E3) --> equal(not_homomorphism2(F3::'a,D3,G3),not_homomorphism2(F3::'a,E3,G3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1495	(\<forall>H3 J3 K3 I3. equal(H3::'a,I3) --> equal(not_homomorphism2(J3::'a,K3,H3),not_homomorphism2(J3::'a,K3,I3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1496	(\<forall>L3 M3 N3. equal(L3::'a,M3) --> equal(not_subclass_element(L3::'a,N3),not_subclass_element(M3::'a,N3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1497	(\<forall>O3 Q3 P3. equal(O3::'a,P3) --> equal(not_subclass_element(Q3::'a,O3),not_subclass_element(Q3::'a,P3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1498	(\<forall>R3 S3 T3. equal(R3::'a,S3) --> equal(ordered_pair(R3::'a,T3),ordered_pair(S3::'a,T3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1499	(\<forall>U3 W3 V3. equal(U3::'a,V3) --> equal(ordered_pair(W3::'a,U3),ordered_pair(W3::'a,V3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1500	(\<forall>X3 Y3. equal(X3::'a,Y3) --> equal(powerClass(X3),powerClass(Y3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1501	(\<forall>Z3 A4 B4 C4. equal(Z3::'a,A4) --> equal(rng(Z3::'a,B4,C4),rng(A4::'a,B4,C4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1502	(\<forall>D4 F4 E4 G4. equal(D4::'a,E4) --> equal(rng(F4::'a,D4,G4),rng(F4::'a,E4,G4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1503	(\<forall>H4 J4 K4 I4. equal(H4::'a,I4) --> equal(rng(J4::'a,K4,H4),rng(J4::'a,K4,I4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1504	(\<forall>L4 M4. equal(L4::'a,M4) --> equal(range_of(L4),range_of(M4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1505	(\<forall>N4 O4. equal(N4::'a,O4) --> equal(regular(N4),regular(O4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1506	(\<forall>P4 Q4 R4 S4. equal(P4::'a,Q4) --> equal(restrct(P4::'a,R4,S4),restrct(Q4::'a,R4,S4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1507	(\<forall>T4 V4 U4 W4. equal(T4::'a,U4) --> equal(restrct(V4::'a,T4,W4),restrct(V4::'a,U4,W4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1508	(\<forall>X4 Z4 A5 Y4. equal(X4::'a,Y4) --> equal(restrct(Z4::'a,A5,X4),restrct(Z4::'a,A5,Y4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1509	(\<forall>B5 C5. equal(B5::'a,C5) --> equal(rot(B5),rot(C5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1510	(\<forall>D5 E5. equal(D5::'a,E5) --> equal(second(D5),second(E5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1511	(\<forall>F5 G5. equal(F5::'a,G5) --> equal(singleton(F5),singleton(G5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1512	(\<forall>H5 I5. equal(H5::'a,I5) --> equal(successor(H5),successor(I5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1513	(\<forall>J5 K5. equal(J5::'a,K5) --> equal(sum_class(J5),sum_class(K5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1514	(\<forall>L5 M5 N5. equal(L5::'a,M5) --> equal(union(L5::'a,N5),union(M5::'a,N5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1515	(\<forall>O5 Q5 P5. equal(O5::'a,P5) --> equal(union(Q5::'a,O5),union(Q5::'a,P5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1516	(\<forall>R5 S5 T5. equal(R5::'a,S5) --> equal(unordered_pair(R5::'a,T5),unordered_pair(S5::'a,T5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1517	(\<forall>U5 W5 V5. equal(U5::'a,V5) --> equal(unordered_pair(W5::'a,U5),unordered_pair(W5::'a,V5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1518	(\<forall>X5 Y5 Z5 A6. equal(X5::'a,Y5) & compatible(X5::'a,Z5,A6) --> compatible(Y5::'a,Z5,A6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1519	(\<forall>B6 D6 C6 E6. equal(B6::'a,C6) & compatible(D6::'a,B6,E6) --> compatible(D6::'a,C6,E6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1520	(\<forall>F6 H6 I6 G6. equal(F6::'a,G6) & compatible(H6::'a,I6,F6) --> compatible(H6::'a,I6,G6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1521	(\<forall>J6 K6. equal(J6::'a,K6) & function(J6) --> function(K6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1522	(\<forall>L6 M6 N6 O6. equal(L6::'a,M6) & homomorphism(L6::'a,N6,O6) --> homomorphism(M6::'a,N6,O6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1523	(\<forall>P6 R6 Q6 S6. equal(P6::'a,Q6) & homomorphism(R6::'a,P6,S6) --> homomorphism(R6::'a,Q6,S6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1524	(\<forall>T6 V6 W6 U6. equal(T6::'a,U6) & homomorphism(V6::'a,W6,T6) --> homomorphism(V6::'a,W6,U6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1525	(\<forall>X6 Y6. equal(X6::'a,Y6) & inductive(X6) --> inductive(Y6)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1526	(\<forall>Z6 A7 B7. equal(Z6::'a,A7) & member(Z6::'a,B7) --> member(A7::'a,B7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1527	(\<forall>C7 E7 D7. equal(C7::'a,D7) & member(E7::'a,C7) --> member(E7::'a,D7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1528	(\<forall>F7 G7. equal(F7::'a,G7) & one_to_one(F7) --> one_to_one(G7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1529	(\<forall>H7 I7. equal(H7::'a,I7) & operation(H7) --> operation(I7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1530	(\<forall>J7 K7. equal(J7::'a,K7) & single_valued_class(J7) --> single_valued_class(K7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1531	(\<forall>L7 M7 N7. equal(L7::'a,M7) & subclass(L7::'a,N7) --> subclass(M7::'a,N7)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1532	(\<forall>O7 Q7 P7. equal(O7::'a,P7) & subclass(Q7::'a,O7) --> subclass(Q7::'a,P7))"
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1533
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1534	abbreviation "SET004_1_ax range_of function maps apply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1535	application_function singleton_relation element_relation complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1536	intersection single_valued3 singleton image' domain single_valued2
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1537	second single_valued1 identity_relation INVERSE not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1538	first domain_of domain_relation composition_function compos equal
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1539	ordered_pair member universal_class cross_product compose_class
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1540	subclass \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1541	(\<forall>X. subclass(compose_class(X),cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1542	(\<forall>X Y Z. member(ordered_pair(Y::'a,Z),compose_class(X)) --> equal(compos(X::'a,Y),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1543	(\<forall>Y Z X. member(ordered_pair(Y::'a,Z),cross_product(universal_class::'a,universal_class)) & equal(compos(X::'a,Y),Z) --> member(ordered_pair(Y::'a,Z),compose_class(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1544	(subclass(composition_function::'a,cross_product(universal_class::'a,cross_product(universal_class::'a,universal_class)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1545	(\<forall>X Y Z. member(ordered_pair(X::'a,ordered_pair(Y::'a,Z)),composition_function) --> equal(compos(X::'a,Y),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1546	(\<forall>X Y. member(ordered_pair(X::'a,Y),cross_product(universal_class::'a,universal_class)) --> member(ordered_pair(X::'a,ordered_pair(Y::'a,compos(X::'a,Y))),composition_function)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1547	(subclass(domain_relation::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1548	(\<forall>X Y. member(ordered_pair(X::'a,Y),domain_relation) --> equal(domain_of(X),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1549	(\<forall>X. member(X::'a,universal_class) --> member(ordered_pair(X::'a,domain_of(X)),domain_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1550	(\<forall>X. equal(first(not_subclass_element(compos(X::'a,INVERSE(X)),identity_relation)),single_valued1(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1551	(\<forall>X. equal(second(not_subclass_element(compos(X::'a,INVERSE(X)),identity_relation)),single_valued2(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1552	(\<forall>X. equal(domain(X::'a,image'(INVERSE(X),singleton(single_valued1(X))),single_valued2(X)),single_valued3(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1553	(equal(intersection(complement(compos(element_relation::'a,complement(identity_relation))),element_relation),singleton_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1554	(subclass(application_function::'a,cross_product(universal_class::'a,cross_product(universal_class::'a,universal_class)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1555	(\<forall>Z Y X. member(ordered_pair(X::'a,ordered_pair(Y::'a,Z)),application_function) --> member(Y::'a,domain_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1556	(\<forall>X Y Z. member(ordered_pair(X::'a,ordered_pair(Y::'a,Z)),application_function) --> equal(apply(X::'a,Y),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1557	(\<forall>Z X Y. member(ordered_pair(X::'a,ordered_pair(Y::'a,Z)),cross_product(universal_class::'a,cross_product(universal_class::'a,universal_class))) & member(Y::'a,domain_of(X)) --> member(ordered_pair(X::'a,ordered_pair(Y::'a,apply(X::'a,Y))),application_function)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1558	(\<forall>X Y Xf. maps(Xf::'a,X,Y) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1559	(\<forall>Y Xf X. maps(Xf::'a,X,Y) --> equal(domain_of(Xf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1560	(\<forall>X Xf Y. maps(Xf::'a,X,Y) --> subclass(range_of(Xf),Y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1561	(\<forall>Xf Y. function(Xf) & subclass(range_of(Xf),Y) --> maps(Xf::'a,domain_of(Xf),Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1562
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1563	abbreviation "SET004_1_eq maps single_valued3 single_valued2 single_valued1 compose_class equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1564	(\<forall>L M. equal(L::'a,M) --> equal(compose_class(L),compose_class(M))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1565	(\<forall>N2 O2. equal(N2::'a,O2) --> equal(single_valued1(N2),single_valued1(O2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1566	(\<forall>P2 Q2. equal(P2::'a,Q2) --> equal(single_valued2(P2),single_valued2(Q2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1567	(\<forall>R2 S2. equal(R2::'a,S2) --> equal(single_valued3(R2),single_valued3(S2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1568	(\<forall>X2 Y2 Z2 A3. equal(X2::'a,Y2) & maps(X2::'a,Z2,A3) --> maps(Y2::'a,Z2,A3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1569	(\<forall>B3 D3 C3 E3. equal(B3::'a,C3) & maps(D3::'a,B3,E3) --> maps(D3::'a,C3,E3)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1570	(\<forall>F3 H3 I3 G3. equal(F3::'a,G3) & maps(H3::'a,I3,F3) --> maps(H3::'a,I3,G3))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1571
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1572	abbreviation "NUM004_0_ax integer_of omega ordinal_multiply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1573	add_relation ordinal_add recursion apply range_of union_of_range_map
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1574	function recursion_equation_functions rest_relation rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1575	limit_ordinals kind_1_ordinals successor_relation image'
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1576	universal_class sum_class element_relation ordinal_numbers section
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1577	not_well_ordering ordered_pair least member well_ordering singleton
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1578	domain_of segment null_class intersection asymmetric compos transitive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1579	cross_product connected identity_relation complement restrct subclass
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1580	irreflexive symmetrization_of INVERSE union equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1581	(\<forall>X. equal(union(X::'a,INVERSE(X)),symmetrization_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1582	(\<forall>X Y. irreflexive(X::'a,Y) --> subclass(restrct(X::'a,Y,Y),complement(identity_relation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1583	(\<forall>X Y. subclass(restrct(X::'a,Y,Y),complement(identity_relation)) --> irreflexive(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1584	(\<forall>Y X. connected(X::'a,Y) --> subclass(cross_product(Y::'a,Y),union(identity_relation::'a,symmetrization_of(X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1585	(\<forall>X Y. subclass(cross_product(Y::'a,Y),union(identity_relation::'a,symmetrization_of(X))) --> connected(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1586	(\<forall>Xr Y. transitive(Xr::'a,Y) --> subclass(compos(restrct(Xr::'a,Y,Y),restrct(Xr::'a,Y,Y)),restrct(Xr::'a,Y,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1587	(\<forall>Xr Y. subclass(compos(restrct(Xr::'a,Y,Y),restrct(Xr::'a,Y,Y)),restrct(Xr::'a,Y,Y)) --> transitive(Xr::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1588	(\<forall>Xr Y. asymmetric(Xr::'a,Y) --> equal(restrct(intersection(Xr::'a,INVERSE(Xr)),Y,Y),null_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1589	(\<forall>Xr Y. equal(restrct(intersection(Xr::'a,INVERSE(Xr)),Y,Y),null_class) --> asymmetric(Xr::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1590	(\<forall>Xr Y Z. equal(segment(Xr::'a,Y,Z),domain_of(restrct(Xr::'a,Y,singleton(Z))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1591	(\<forall>X Y. well_ordering(X::'a,Y) --> connected(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1592	(\<forall>Y Xr U. well_ordering(Xr::'a,Y) & subclass(U::'a,Y) --> equal(U::'a,null_class) \| member(least(Xr::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1593	(\<forall>Y V Xr U. well_ordering(Xr::'a,Y) & subclass(U::'a,Y) & member(V::'a,U) --> member(least(Xr::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1594	(\<forall>Y Xr U. well_ordering(Xr::'a,Y) & subclass(U::'a,Y) --> equal(segment(Xr::'a,U,least(Xr::'a,U)),null_class)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1595	(\<forall>Y V U Xr. ~(well_ordering(Xr::'a,Y) & subclass(U::'a,Y) & member(V::'a,U) & member(ordered_pair(V::'a,least(Xr::'a,U)),Xr))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1596	(\<forall>Xr Y. connected(Xr::'a,Y) & equal(not_well_ordering(Xr::'a,Y),null_class) --> well_ordering(Xr::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1597	(\<forall>Xr Y. connected(Xr::'a,Y) --> subclass(not_well_ordering(Xr::'a,Y),Y) \| well_ordering(Xr::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1598	(\<forall>V Xr Y. member(V::'a,not_well_ordering(Xr::'a,Y)) & equal(segment(Xr::'a,not_well_ordering(Xr::'a,Y),V),null_class) & connected(Xr::'a,Y) --> well_ordering(Xr::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1599	(\<forall>Xr Y Z. section(Xr::'a,Y,Z) --> subclass(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1600	(\<forall>Xr Z Y. section(Xr::'a,Y,Z) --> subclass(domain_of(restrct(Xr::'a,Z,Y)),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1601	(\<forall>Xr Y Z. subclass(Y::'a,Z) & subclass(domain_of(restrct(Xr::'a,Z,Y)),Y) --> section(Xr::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1602	(\<forall>X. member(X::'a,ordinal_numbers) --> well_ordering(element_relation::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1603	(\<forall>X. member(X::'a,ordinal_numbers) --> subclass(sum_class(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1604	(\<forall>X. well_ordering(element_relation::'a,X) & subclass(sum_class(X),X) & member(X::'a,universal_class) --> member(X::'a,ordinal_numbers)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1605	(\<forall>X. well_ordering(element_relation::'a,X) & subclass(sum_class(X),X) --> member(X::'a,ordinal_numbers) \| equal(X::'a,ordinal_numbers)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1606	(equal(union(singleton(null_class),image'(successor_relation::'a,ordinal_numbers)),kind_1_ordinals)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1607	(equal(intersection(complement(kind_1_ordinals),ordinal_numbers),limit_ordinals)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1608	(\<forall>X. subclass(rest_of(X),cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1609	(\<forall>V U X. member(ordered_pair(U::'a,V),rest_of(X)) --> member(U::'a,domain_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1610	(\<forall>X U V. member(ordered_pair(U::'a,V),rest_of(X)) --> equal(restrct(X::'a,U,universal_class),V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1611	(\<forall>U V X. member(U::'a,domain_of(X)) & equal(restrct(X::'a,U,universal_class),V) --> member(ordered_pair(U::'a,V),rest_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1612	(subclass(rest_relation::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1613	(\<forall>X Y. member(ordered_pair(X::'a,Y),rest_relation) --> equal(rest_of(X),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1614	(\<forall>X. member(X::'a,universal_class) --> member(ordered_pair(X::'a,rest_of(X)),rest_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1615	(\<forall>X Z. member(X::'a,recursion_equation_functions(Z)) --> function(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1616	(\<forall>Z X. member(X::'a,recursion_equation_functions(Z)) --> function(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1617	(\<forall>Z X. member(X::'a,recursion_equation_functions(Z)) --> member(domain_of(X),ordinal_numbers)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1618	(\<forall>Z X. member(X::'a,recursion_equation_functions(Z)) --> equal(compos(Z::'a,rest_of(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1619	(\<forall>X Z. function(Z) & function(X) & member(domain_of(X),ordinal_numbers) & equal(compos(Z::'a,rest_of(X)),X) --> member(X::'a,recursion_equation_functions(Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1620	(subclass(union_of_range_map::'a,cross_product(universal_class::'a,universal_class))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1621	(\<forall>X Y. member(ordered_pair(X::'a,Y),union_of_range_map) --> equal(sum_class(range_of(X)),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1622	(\<forall>X Y. member(ordered_pair(X::'a,Y),cross_product(universal_class::'a,universal_class)) & equal(sum_class(range_of(X)),Y) --> member(ordered_pair(X::'a,Y),union_of_range_map)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1623	(\<forall>X Y. equal(apply(recursion(X::'a,successor_relation,union_of_range_map),Y),ordinal_add(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1624	(\<forall>X Y. equal(recursion(null_class::'a,apply(add_relation::'a,X),union_of_range_map),ordinal_multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1625	(\<forall>X. member(X::'a,omega) --> equal(integer_of(X),X)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1626	(\<forall>X. member(X::'a,omega) \| equal(integer_of(X),null_class))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1627
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1628	abbreviation "NUM004_0_eq well_ordering transitive section irreflexive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1629	connected asymmetric symmetrization_of segment rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1630	recursion_equation_functions recursion ordinal_multiply ordinal_add
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1631	not_well_ordering least integer_of equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1632	(\<forall>D E. equal(D::'a,E) --> equal(integer_of(D),integer_of(E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1633	(\<forall>F' G H. equal(F'::'a,G) --> equal(least(F'::'a,H),least(G::'a,H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1634	(\<forall>I' K' J. equal(I'::'a,J) --> equal(least(K'::'a,I'),least(K'::'a,J))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1635	(\<forall>L M N. equal(L::'a,M) --> equal(not_well_ordering(L::'a,N),not_well_ordering(M::'a,N))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1636	(\<forall>O' Q P. equal(O'::'a,P) --> equal(not_well_ordering(Q::'a,O'),not_well_ordering(Q::'a,P))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1637	(\<forall>R S' T'. equal(R::'a,S') --> equal(ordinal_add(R::'a,T'),ordinal_add(S'::'a,T'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1638	(\<forall>U W V. equal(U::'a,V) --> equal(ordinal_add(W::'a,U),ordinal_add(W::'a,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1639	(\<forall>X Y Z. equal(X::'a,Y) --> equal(ordinal_multiply(X::'a,Z),ordinal_multiply(Y::'a,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1640	(\<forall>A1 C1 B1. equal(A1::'a,B1) --> equal(ordinal_multiply(C1::'a,A1),ordinal_multiply(C1::'a,B1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1641	(\<forall>F1 G1 H1 I1. equal(F1::'a,G1) --> equal(recursion(F1::'a,H1,I1),recursion(G1::'a,H1,I1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1642	(\<forall>J1 L1 K1 M1. equal(J1::'a,K1) --> equal(recursion(L1::'a,J1,M1),recursion(L1::'a,K1,M1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1643	(\<forall>N1 P1 Q1 O1. equal(N1::'a,O1) --> equal(recursion(P1::'a,Q1,N1),recursion(P1::'a,Q1,O1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1644	(\<forall>R1 S1. equal(R1::'a,S1) --> equal(recursion_equation_functions(R1),recursion_equation_functions(S1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1645	(\<forall>T1 U1. equal(T1::'a,U1) --> equal(rest_of(T1),rest_of(U1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1646	(\<forall>V1 W1 X1 Y1. equal(V1::'a,W1) --> equal(segment(V1::'a,X1,Y1),segment(W1::'a,X1,Y1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1647	(\<forall>Z1 B2 A2 C2. equal(Z1::'a,A2) --> equal(segment(B2::'a,Z1,C2),segment(B2::'a,A2,C2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1648	(\<forall>D2 F2 G2 E2. equal(D2::'a,E2) --> equal(segment(F2::'a,G2,D2),segment(F2::'a,G2,E2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1649	(\<forall>H2 I2. equal(H2::'a,I2) --> equal(symmetrization_of(H2),symmetrization_of(I2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1650	(\<forall>J2 K2 L2. equal(J2::'a,K2) & asymmetric(J2::'a,L2) --> asymmetric(K2::'a,L2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1651	(\<forall>M2 O2 N2. equal(M2::'a,N2) & asymmetric(O2::'a,M2) --> asymmetric(O2::'a,N2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1652	(\<forall>P2 Q2 R2. equal(P2::'a,Q2) & connected(P2::'a,R2) --> connected(Q2::'a,R2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1653	(\<forall>S2 U2 T2. equal(S2::'a,T2) & connected(U2::'a,S2) --> connected(U2::'a,T2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1654	(\<forall>V2 W2 X2. equal(V2::'a,W2) & irreflexive(V2::'a,X2) --> irreflexive(W2::'a,X2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1655	(\<forall>Y2 A3 Z2. equal(Y2::'a,Z2) & irreflexive(A3::'a,Y2) --> irreflexive(A3::'a,Z2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1656	(\<forall>B3 C3 D3 E3. equal(B3::'a,C3) & section(B3::'a,D3,E3) --> section(C3::'a,D3,E3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1657	(\<forall>F3 H3 G3 I3. equal(F3::'a,G3) & section(H3::'a,F3,I3) --> section(H3::'a,G3,I3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1658	(\<forall>J3 L3 M3 K3. equal(J3::'a,K3) & section(L3::'a,M3,J3) --> section(L3::'a,M3,K3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1659	(\<forall>N3 O3 P3. equal(N3::'a,O3) & transitive(N3::'a,P3) --> transitive(O3::'a,P3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1660	(\<forall>Q3 S3 R3. equal(Q3::'a,R3) & transitive(S3::'a,Q3) --> transitive(S3::'a,R3)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1661	(\<forall>T3 U3 V3. equal(T3::'a,U3) & well_ordering(T3::'a,V3) --> well_ordering(U3::'a,V3)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1662	(\<forall>W3 Y3 X3. equal(W3::'a,X3) & well_ordering(Y3::'a,W3) --> well_ordering(Y3::'a,X3))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1663
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1664	(1345 inferences so far. Searching to depth 7. 23.3 secs. BIG)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1665	lemma NUM180_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1666	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1667	SET004_0_ax not_homomorphism2 not_homomorphism1
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1668	homomorphism compatible operation cantor diagonalise subset_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1669	one_to_one choice apply regular function identity_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1670	single_valued_class compos powerClass sum_class omega inductive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1671	successor_relation successor image' rng domain range_of INVERSE flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1672	rot domain_of null_class restrct difference union complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1673	intersection element_relation second first cross_product ordered_pair
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1674	singleton unordered_pair equal universal_class not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1675	member subclass &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1676	SET004_0_eq subclass single_valued_class operation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1677	one_to_one member inductive homomorphism function compatible
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1678	unordered_pair union sum_class successor singleton second rot restrct
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1679	regular range_of rng powerClass ordered_pair not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1680	not_homomorphism2 not_homomorphism1 INVERSE intersection image' flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1681	first domain_of domain difference diagonalise cross_product compos
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1682	complement cantor apply equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1683	SET004_1_ax range_of function maps apply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1684	application_function singleton_relation element_relation complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1685	intersection single_valued3 singleton image' domain single_valued2
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1686	second single_valued1 identity_relation INVERSE not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1687	first domain_of domain_relation composition_function compos equal
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1688	ordered_pair member universal_class cross_product compose_class
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1689	subclass &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1690	SET004_1_eq maps single_valued3 single_valued2 single_valued1 compose_class equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1691	NUM004_0_ax integer_of omega ordinal_multiply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1692	add_relation ordinal_add recursion apply range_of union_of_range_map
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1693	function recursion_equation_functions rest_relation rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1694	limit_ordinals kind_1_ordinals successor_relation image'
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1695	universal_class sum_class element_relation ordinal_numbers section
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1696	not_well_ordering ordered_pair least member well_ordering singleton
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1697	domain_of segment null_class intersection asymmetric compos transitive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1698	cross_product connected identity_relation complement restrct subclass
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1699	irreflexive symmetrization_of INVERSE union equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1700	NUM004_0_eq well_ordering transitive section irreflexive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1701	connected asymmetric symmetrization_of segment rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1702	recursion_equation_functions recursion ordinal_multiply ordinal_add
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1703	not_well_ordering least integer_of equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1704	(~subclass(limit_ordinals::'a,ordinal_numbers)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1705	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1706
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1707
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1708	(0 inferences so far. Searching to depth 0. 16.8 secs. BIG)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1709	lemma NUM228_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1710	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1711	SET004_0_ax not_homomorphism2 not_homomorphism1
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1712	homomorphism compatible operation cantor diagonalise subset_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1713	one_to_one choice apply regular function identity_relation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1714	single_valued_class compos powerClass sum_class omega inductive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1715	successor_relation successor image' rng domain range_of INVERSE flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1716	rot domain_of null_class restrct difference union complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1717	intersection element_relation second first cross_product ordered_pair
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1718	singleton unordered_pair equal universal_class not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1719	member subclass &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1720	SET004_0_eq subclass single_valued_class operation
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1721	one_to_one member inductive homomorphism function compatible
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1722	unordered_pair union sum_class successor singleton second rot restrct
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1723	regular range_of rng powerClass ordered_pair not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1724	not_homomorphism2 not_homomorphism1 INVERSE intersection image' flip
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1725	first domain_of domain difference diagonalise cross_product compos
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1726	complement cantor apply equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1727	SET004_1_ax range_of function maps apply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1728	application_function singleton_relation element_relation complement
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1729	intersection single_valued3 singleton image' domain single_valued2
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1730	second single_valued1 identity_relation INVERSE not_subclass_element
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1731	first domain_of domain_relation composition_function compos equal
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1732	ordered_pair member universal_class cross_product compose_class
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1733	subclass &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1734	SET004_1_eq maps single_valued3 single_valued2 single_valued1 compose_class equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1735	NUM004_0_ax integer_of omega ordinal_multiply
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1736	add_relation ordinal_add recursion apply range_of union_of_range_map
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1737	function recursion_equation_functions rest_relation rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1738	limit_ordinals kind_1_ordinals successor_relation image'
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1739	universal_class sum_class element_relation ordinal_numbers section
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1740	not_well_ordering ordered_pair least member well_ordering singleton
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1741	domain_of segment null_class intersection asymmetric compos transitive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1742	cross_product connected identity_relation complement restrct subclass
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1743	irreflexive symmetrization_of INVERSE union equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1744	NUM004_0_eq well_ordering transitive section irreflexive
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1745	connected asymmetric symmetrization_of segment rest_of
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1746	recursion_equation_functions recursion ordinal_multiply ordinal_add
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1747	not_well_ordering least integer_of equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1748	(~function(z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1749	(~equal(recursion_equation_functions(z),null_class)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1750	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1751
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1752
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1753	(4868 inferences so far. Searching to depth 12. 4.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1754	lemma PLA002_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1755	"(\<forall>Situation1 Situation2. warm(Situation1) \| cold(Situation2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1756	(\<forall>Situation. at(a::'a,Situation) --> at(b::'a,walk(b::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1757	(\<forall>Situation. at(a::'a,Situation) --> at(b::'a,drive(b::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1758	(\<forall>Situation. at(b::'a,Situation) --> at(a::'a,walk(a::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1759	(\<forall>Situation. at(b::'a,Situation) --> at(a::'a,drive(a::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1760	(\<forall>Situation. cold(Situation) & at(b::'a,Situation) --> at(c::'a,skate(c::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1761	(\<forall>Situation. cold(Situation) & at(c::'a,Situation) --> at(b::'a,skate(b::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1762	(\<forall>Situation. warm(Situation) & at(b::'a,Situation) --> at(d::'a,climb(d::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1763	(\<forall>Situation. warm(Situation) & at(d::'a,Situation) --> at(b::'a,climb(b::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1764	(\<forall>Situation. at(c::'a,Situation) --> at(d::'a,go(d::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1765	(\<forall>Situation. at(d::'a,Situation) --> at(c::'a,go(c::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1766	(\<forall>Situation. at(c::'a,Situation) --> at(e::'a,go(e::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1767	(\<forall>Situation. at(e::'a,Situation) --> at(c::'a,go(c::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1768	(\<forall>Situation. at(d::'a,Situation) --> at(f::'a,go(f::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1769	(\<forall>Situation. at(f::'a,Situation) --> at(d::'a,go(d::'a,Situation))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1770	(at(f::'a,s0)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1771	(\<forall>S'. ~at(a::'a,S')) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1772	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1773
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1774	abbreviation "PLA001_0_ax putdown on pickup do holding table differ clear EMPTY and' holds \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1775	(\<forall>X Y State. holds(X::'a,State) & holds(Y::'a,State) --> holds(and'(X::'a,Y),State)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1776	(\<forall>State X. holds(EMPTY::'a,State) & holds(clear(X),State) & differ(X::'a,table) --> holds(holding(X),do(pickup(X),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1777	(\<forall>Y X State. holds(on(X::'a,Y),State) & holds(clear(X),State) & holds(EMPTY::'a,State) --> holds(clear(Y),do(pickup(X),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1778	(\<forall>Y State X Z. holds(on(X::'a,Y),State) & differ(X::'a,Z) --> holds(on(X::'a,Y),do(pickup(Z),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1779	(\<forall>State X Z. holds(clear(X),State) & differ(X::'a,Z) --> holds(clear(X),do(pickup(Z),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1780	(\<forall>X Y State. holds(holding(X),State) & holds(clear(Y),State) --> holds(EMPTY::'a,do(putdown(X::'a,Y),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1781	(\<forall>X Y State. holds(holding(X),State) & holds(clear(Y),State) --> holds(on(X::'a,Y),do(putdown(X::'a,Y),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1782	(\<forall>X Y State. holds(holding(X),State) & holds(clear(Y),State) --> holds(clear(X),do(putdown(X::'a,Y),State))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1783	(\<forall>Z W X Y State. holds(on(X::'a,Y),State) --> holds(on(X::'a,Y),do(putdown(Z::'a,W),State))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1784	(\<forall>X State Z Y. holds(clear(Z),State) & differ(Z::'a,Y) --> holds(clear(Z),do(putdown(X::'a,Y),State)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1785
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1786	abbreviation "PLA001_1_ax EMPTY clear s0 on holds table d c b a differ \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1787	(\<forall>Y X. differ(Y::'a,X) --> differ(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1788	(differ(a::'a,b)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1789	(differ(a::'a,c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1790	(differ(a::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1791	(differ(a::'a,table)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1792	(differ(b::'a,c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1793	(differ(b::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1794	(differ(b::'a,table)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1795	(differ(c::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1796	(differ(c::'a,table)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1797	(differ(d::'a,table)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1798	(holds(on(a::'a,table),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1799	(holds(on(b::'a,table),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1800	(holds(on(c::'a,d),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1801	(holds(on(d::'a,table),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1802	(holds(clear(a),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1803	(holds(clear(b),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1804	(holds(clear(c),s0)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1805	(holds(EMPTY::'a,s0)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1806	(\<forall>State. holds(clear(table),State))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1807
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1808	(190 inferences so far. Searching to depth 10. 0.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1809	lemma PLA006_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1810	"PLA001_0_ax putdown on pickup do holding table differ clear EMPTY and' holds &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1811	PLA001_1_ax EMPTY clear s0 on holds table d c b a differ &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1812	(\<forall>State. ~holds(on(c::'a,table),State)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1813	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1814
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1815	(190 inferences so far. Searching to depth 10. 0.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1816	lemma PLA017_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1817	"PLA001_0_ax putdown on pickup do holding table differ clear EMPTY and' holds &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1818	PLA001_1_ax EMPTY clear s0 on holds table d c b a differ &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1819	(\<forall>State. ~holds(on(a::'a,c),State)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1820	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1821
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1822	(13732 inferences so far. Searching to depth 16. 9.8 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1823	lemma PLA022_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1824	"PLA001_0_ax putdown on pickup do holding table differ clear EMPTY and' holds &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1825	PLA001_1_ax EMPTY clear s0 on holds table d c b a differ &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1826	(\<forall>State. ~holds(and'(on(c::'a,d),on(a::'a,c)),State)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1827	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1828
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1829	(217 inferences so far. Searching to depth 13. 0.7 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1830	lemma PLA022_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1831	"PLA001_0_ax putdown on pickup do holding table differ clear EMPTY and' holds &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1832	PLA001_1_ax EMPTY clear s0 on holds table d c b a differ &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1833	(\<forall>State. ~holds(and'(on(a::'a,c),on(c::'a,d)),State)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1834	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1835
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1836	(948 inferences so far. Searching to depth 18. 1.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1837	lemma PRV001_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1838	"(\<forall>X Y Z. q1(X::'a,Y,Z) & mless_or_equal(X::'a,Y) --> q2(X::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1839	(\<forall>X Y Z. q1(X::'a,Y,Z) --> mless_or_equal(X::'a,Y) \| q3(X::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1840	(\<forall>Z X Y. q2(X::'a,Y,Z) --> q4(X::'a,Y,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1841	(\<forall>Z Y X. q3(X::'a,Y,Z) --> q4(X::'a,Y,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1842	(\<forall>X. mless_or_equal(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1843	(\<forall>X Y. mless_or_equal(X::'a,Y) & mless_or_equal(Y::'a,X) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1844	(\<forall>Y X Z. mless_or_equal(X::'a,Y) & mless_or_equal(Y::'a,Z) --> mless_or_equal(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1845	(\<forall>Y X. mless_or_equal(X::'a,Y) \| mless_or_equal(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1846	(\<forall>X Y. equal(X::'a,Y) --> mless_or_equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1847	(\<forall>X Y Z. equal(X::'a,Y) & mless_or_equal(X::'a,Z) --> mless_or_equal(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1848	(\<forall>X Z Y. equal(X::'a,Y) & mless_or_equal(Z::'a,X) --> mless_or_equal(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1849	(q1(a::'a,b,c)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1850	(\<forall>W. ~(q4(a::'a,b,W) & mless_or_equal(a::'a,W) & mless_or_equal(b::'a,W) & mless_or_equal(W::'a,a))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1851	(\<forall>W. ~(q4(a::'a,b,W) & mless_or_equal(a::'a,W) & mless_or_equal(b::'a,W) & mless_or_equal(W::'a,b))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1852	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1853
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1854	(PRV is now called SWV (software verification) )
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1855	abbreviation "SWV001_1_ax mless_THAN successor predecessor equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1856	(\<forall>X. equal(predecessor(successor(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1857	(\<forall>X. equal(successor(predecessor(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1858	(\<forall>X Y. equal(predecessor(X),predecessor(Y)) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1859	(\<forall>X Y. equal(successor(X),successor(Y)) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1860	(\<forall>X. mless_THAN(predecessor(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1861	(\<forall>X. mless_THAN(X::'a,successor(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1862	(\<forall>X Y Z. mless_THAN(X::'a,Y) & mless_THAN(Y::'a,Z) --> mless_THAN(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1863	(\<forall>X Y. mless_THAN(X::'a,Y) \| mless_THAN(Y::'a,X) \| equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1864	(\<forall>X. ~mless_THAN(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1865	(\<forall>Y X. ~(mless_THAN(X::'a,Y) & mless_THAN(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1866	(\<forall>Y X Z. equal(X::'a,Y) & mless_THAN(X::'a,Z) --> mless_THAN(Y::'a,Z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1867	(\<forall>Y Z X. equal(X::'a,Y) & mless_THAN(Z::'a,X) --> mless_THAN(Z::'a,Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1868
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1869	abbreviation "SWV001_0_eq a successor predecessor equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1870	(\<forall>X Y. equal(X::'a,Y) --> equal(predecessor(X),predecessor(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1871	(\<forall>X Y. equal(X::'a,Y) --> equal(successor(X),successor(Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1872	(\<forall>X Y. equal(X::'a,Y) --> equal(a(X),a(Y)))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1873
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1874	(21 inferences so far. Searching to depth 5. 0.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1875	lemma PRV003_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1876	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1877	SWV001_1_ax mless_THAN successor predecessor equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1878	SWV001_0_eq a successor predecessor equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1879	(~mless_THAN(n::'a,j)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1880	(mless_THAN(k::'a,j)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1881	(~mless_THAN(k::'a,i)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1882	(mless_THAN(i::'a,n)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1883	(mless_THAN(a(j),a(k))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1884	(\<forall>X. mless_THAN(X::'a,j) & mless_THAN(a(X),a(k)) --> mless_THAN(X::'a,i)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1885	(\<forall>X. mless_THAN(One::'a,i) & mless_THAN(a(X),a(predecessor(i))) --> mless_THAN(X::'a,i) \| mless_THAN(n::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1886	(\<forall>X. ~(mless_THAN(One::'a,X) & mless_THAN(X::'a,i) & mless_THAN(a(X),a(predecessor(X))))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1887	(mless_THAN(j::'a,i)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1888	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1889
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1890	(584 inferences so far. Searching to depth 7. 1.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1891	lemma PRV005_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1892	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1893	SWV001_1_ax mless_THAN successor predecessor equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1894	SWV001_0_eq a successor predecessor equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1895	(~mless_THAN(n::'a,k)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1896	(~mless_THAN(k::'a,l)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1897	(~mless_THAN(k::'a,i)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1898	(mless_THAN(l::'a,n)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1899	(mless_THAN(One::'a,l)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1900	(mless_THAN(a(k),a(predecessor(l)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1901	(\<forall>X. mless_THAN(X::'a,successor(n)) & mless_THAN(a(X),a(k)) --> mless_THAN(X::'a,l)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1902	(\<forall>X. mless_THAN(One::'a,l) & mless_THAN(a(X),a(predecessor(l))) --> mless_THAN(X::'a,l) \| mless_THAN(n::'a,X)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1903	(\<forall>X. ~(mless_THAN(One::'a,X) & mless_THAN(X::'a,l) & mless_THAN(a(X),a(predecessor(X))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1904	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1905
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1906	(2343 inferences so far. Searching to depth 8. 3.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1907	lemma PRV006_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1908	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1909	SWV001_1_ax mless_THAN successor predecessor equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1910	SWV001_0_eq a successor predecessor equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1911	(~mless_THAN(n::'a,m)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1912	(mless_THAN(i::'a,m)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1913	(mless_THAN(i::'a,n)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1914	(~mless_THAN(i::'a,One)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1915	(mless_THAN(a(i),a(m))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1916	(\<forall>X. mless_THAN(X::'a,successor(n)) & mless_THAN(a(X),a(m)) --> mless_THAN(X::'a,i)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1917	(\<forall>X. mless_THAN(One::'a,i) & mless_THAN(a(X),a(predecessor(i))) --> mless_THAN(X::'a,i) \| mless_THAN(n::'a,X)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1918	(\<forall>X. ~(mless_THAN(One::'a,X) & mless_THAN(X::'a,i) & mless_THAN(a(X),a(predecessor(X))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1919	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1920
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1921	(86 inferences so far. Searching to depth 14. 0.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1922	lemma PRV009_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1923	"(\<forall>Y X. mless_or_equal(X::'a,Y) \| mless(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1924	(mless(j::'a,i)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1925	(mless_or_equal(m::'a,p)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1926	(mless_or_equal(p::'a,q)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1927	(mless_or_equal(q::'a,n)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1928	(\<forall>X Y. mless_or_equal(m::'a,X) & mless(X::'a,i) & mless(j::'a,Y) & mless_or_equal(Y::'a,n) --> mless_or_equal(a(X),a(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1929	(\<forall>X Y. mless_or_equal(m::'a,X) & mless_or_equal(X::'a,Y) & mless_or_equal(Y::'a,j) --> mless_or_equal(a(X),a(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1930	(\<forall>X Y. mless_or_equal(i::'a,X) & mless_or_equal(X::'a,Y) & mless_or_equal(Y::'a,n) --> mless_or_equal(a(X),a(Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1931	(~mless_or_equal(a(p),a(q))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1932	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1933
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1934	(222 inferences so far. Searching to depth 8. 0.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1935	lemma PUZ012_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1936	"(\<forall>X. equal_fruits(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1937	(\<forall>X. equal_boxes(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1938	(\<forall>X Y. ~(label(X::'a,Y) & contains(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1939	(\<forall>X. contains(boxa::'a,X) \| contains(boxb::'a,X) \| contains(boxc::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1940	(\<forall>X. contains(X::'a,apples) \| contains(X::'a,bananas) \| contains(X::'a,oranges)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1941	(\<forall>X Y Z. contains(X::'a,Y) & contains(X::'a,Z) --> equal_fruits(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1942	(\<forall>Y X Z. contains(X::'a,Y) & contains(Z::'a,Y) --> equal_boxes(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1943	(~equal_boxes(boxa::'a,boxb)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1944	(~equal_boxes(boxb::'a,boxc)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1945	(~equal_boxes(boxa::'a,boxc)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1946	(~equal_fruits(apples::'a,bananas)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1947	(~equal_fruits(bananas::'a,oranges)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1948	(~equal_fruits(apples::'a,oranges)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1949	(label(boxa::'a,apples)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1950	(label(boxb::'a,oranges)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1951	(label(boxc::'a,bananas)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1952	(contains(boxb::'a,apples)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1953	(~(contains(boxa::'a,bananas) & contains(boxc::'a,oranges))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1954	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1955
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1956	(35 inferences so far. Searching to depth 5. 3.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1957	lemma PUZ020_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1958	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1959	(\<forall>A B. equal(A::'a,B) --> equal(statement_by(A),statement_by(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1960	(\<forall>X. person(X) --> knight(X) \| knave(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1961	(\<forall>X. ~(person(X) & knight(X) & knave(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1962	(\<forall>X Y. says(X::'a,Y) & a_truth(Y) --> a_truth(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1963	(\<forall>X Y. ~(says(X::'a,Y) & equal(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1964	(\<forall>Y X. says(X::'a,Y) --> equal(Y::'a,statement_by(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1965	(\<forall>X Y. ~(person(X) & equal(X::'a,statement_by(Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1966	(\<forall>X. person(X) & a_truth(statement_by(X)) --> knight(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1967	(\<forall>X. person(X) --> a_truth(statement_by(X)) \| knave(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1968	(\<forall>X Y. equal(X::'a,Y) & knight(X) --> knight(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1969	(\<forall>X Y. equal(X::'a,Y) & knave(X) --> knave(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1970	(\<forall>X Y. equal(X::'a,Y) & person(X) --> person(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1971	(\<forall>X Y Z. equal(X::'a,Y) & says(X::'a,Z) --> says(Y::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1972	(\<forall>X Z Y. equal(X::'a,Y) & says(Z::'a,X) --> says(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1973	(\<forall>X Y. equal(X::'a,Y) & a_truth(X) --> a_truth(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1974	(\<forall>X Y. knight(X) & says(X::'a,Y) --> a_truth(Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1975	(\<forall>X Y. ~(knave(X) & says(X::'a,Y) & a_truth(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1976	(person(husband)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1977	(person(wife)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1978	(~equal(husband::'a,wife)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1979	(says(husband::'a,statement_by(husband))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1980	(a_truth(statement_by(husband)) & knight(husband) --> knight(wife)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1981	(knight(husband) --> a_truth(statement_by(husband))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1982	(a_truth(statement_by(husband)) \| knight(wife)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1983	(knight(wife) --> a_truth(statement_by(husband))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1984	(~knight(husband)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1985	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1986
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1987	(121806 inferences so far. Searching to depth 17. 63.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	1988	lemma PUZ025_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1989	"(\<forall>X. a_truth(truthteller(X)) \| a_truth(liar(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1990	(\<forall>X. ~(a_truth(truthteller(X)) & a_truth(liar(X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1991	(\<forall>Truthteller Statement. a_truth(truthteller(Truthteller)) & a_truth(says(Truthteller::'a,Statement)) --> a_truth(Statement)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1992	(\<forall>Liar Statement. ~(a_truth(liar(Liar)) & a_truth(says(Liar::'a,Statement)) & a_truth(Statement))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1993	(\<forall>Statement Truthteller. a_truth(Statement) & a_truth(says(Truthteller::'a,Statement)) --> a_truth(truthteller(Truthteller))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1994	(\<forall>Statement Liar. a_truth(says(Liar::'a,Statement)) --> a_truth(Statement) \| a_truth(liar(Liar))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1995	(\<forall>Z X Y. people(X::'a,Y,Z) & a_truth(liar(X)) & a_truth(liar(Y)) --> a_truth(equal_type(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1996	(\<forall>Z X Y. people(X::'a,Y,Z) & a_truth(truthteller(X)) & a_truth(truthteller(Y)) --> a_truth(equal_type(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1997	(\<forall>X Y. a_truth(equal_type(X::'a,Y)) & a_truth(truthteller(X)) --> a_truth(truthteller(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1998	(\<forall>X Y. a_truth(equal_type(X::'a,Y)) & a_truth(liar(X)) --> a_truth(liar(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	1999	(\<forall>X Y. a_truth(truthteller(X)) --> a_truth(equal_type(X::'a,Y)) \| a_truth(liar(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2000	(\<forall>X Y. a_truth(liar(X)) --> a_truth(equal_type(X::'a,Y)) \| a_truth(truthteller(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2001	(\<forall>Y X. a_truth(equal_type(X::'a,Y)) --> a_truth(equal_type(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2002	(\<forall>X Y. ask_1_if_2(X::'a,Y) & a_truth(truthteller(X)) & a_truth(Y) --> answer(yes)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2003	(\<forall>X Y. ask_1_if_2(X::'a,Y) & a_truth(truthteller(X)) --> a_truth(Y) \| answer(no)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2004	(\<forall>X Y. ask_1_if_2(X::'a,Y) & a_truth(liar(X)) & a_truth(Y) --> answer(no)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2005	(\<forall>X Y. ask_1_if_2(X::'a,Y) & a_truth(liar(X)) --> a_truth(Y) \| answer(yes)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2006	(people(b::'a,c,a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2007	(people(a::'a,b,a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2008	(people(a::'a,c,b)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2009	(people(c::'a,b,a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2010	(a_truth(says(a::'a,equal_type(b::'a,c)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2011	(ask_1_if_2(c::'a,equal_type(a::'a,b))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2012	(\<forall>Answer. ~answer(Answer)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2013	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2014
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2015
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2016	(621 inferences so far. Searching to depth 18. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2017	lemma PUZ029_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2018	"(\<forall>X. dances_on_tightropes(X) \| eats_pennybuns(X) \| old(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2019	(\<forall>X. pig(X) & liable_to_giddiness(X) --> treated_with_respect(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2020	(\<forall>X. wise(X) & balloonist(X) --> has_umbrella(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2021	(\<forall>X. ~(looks_ridiculous(X) & eats_pennybuns(X) & eats_lunch_in_public(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2022	(\<forall>X. balloonist(X) & young(X) --> liable_to_giddiness(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2023	(\<forall>X. fat(X) & looks_ridiculous(X) --> dances_on_tightropes(X) \| eats_lunch_in_public(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2024	(\<forall>X. ~(liable_to_giddiness(X) & wise(X) & dances_on_tightropes(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2025	(\<forall>X. pig(X) & has_umbrella(X) --> looks_ridiculous(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2026	(\<forall>X. treated_with_respect(X) --> dances_on_tightropes(X) \| fat(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2027	(\<forall>X. young(X) \| old(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2028	(\<forall>X. ~(young(X) & old(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2029	(wise(piggy)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2030	(young(piggy)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2031	(pig(piggy)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2032	(balloonist(piggy)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2033	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2034
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2035	abbreviation "RNG001_0_ax equal additive_inverse add multiply product additive_identity sum \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2036	(\<forall>X. sum(additive_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2037	(\<forall>X. sum(X::'a,additive_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2038	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2039	(\<forall>X Y. sum(X::'a,Y,add(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2040	(\<forall>X. sum(additive_inverse(X),X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2041	(\<forall>X. sum(X::'a,additive_inverse(X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2042	(\<forall>Y U Z X V W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(U::'a,Z,W) --> sum(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2043	(\<forall>Y X V U Z W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(X::'a,V,W) --> sum(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2044	(\<forall>Y X Z. sum(X::'a,Y,Z) --> sum(Y::'a,X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2045	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2046	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2047	(\<forall>Y Z X V3 V1 V2 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & product(X::'a,V3,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2048	(\<forall>Y Z V1 V2 X V3 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(X::'a,V3,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2049	(\<forall>Y Z V3 X V1 V2 V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & product(V3::'a,X,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2050	(\<forall>Y Z V1 V2 V3 X V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(V3::'a,X,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2051	(\<forall>X Y U V. sum(X::'a,Y,U) & sum(X::'a,Y,V) --> equal(U::'a,V)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2052	(\<forall>X Y U V. product(X::'a,Y,U) & product(X::'a,Y,V) --> equal(U::'a,V))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2053
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2054	abbreviation "RNG001_0_eq product multiply sum add additive_inverse equal \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2055	(\<forall>X Y. equal(X::'a,Y) --> equal(additive_inverse(X),additive_inverse(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2056	(\<forall>X Y W. equal(X::'a,Y) --> equal(add(X::'a,W),add(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2057	(\<forall>X W Y. equal(X::'a,Y) --> equal(add(W::'a,X),add(W::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2058	(\<forall>X Y W Z. equal(X::'a,Y) & sum(X::'a,W,Z) --> sum(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2059	(\<forall>X W Y Z. equal(X::'a,Y) & sum(W::'a,X,Z) --> sum(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2060	(\<forall>X W Z Y. equal(X::'a,Y) & sum(W::'a,Z,X) --> sum(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2061	(\<forall>X Y W. equal(X::'a,Y) --> equal(multiply(X::'a,W),multiply(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2062	(\<forall>X W Y. equal(X::'a,Y) --> equal(multiply(W::'a,X),multiply(W::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2063	(\<forall>X Y W Z. equal(X::'a,Y) & product(X::'a,W,Z) --> product(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2064	(\<forall>X W Y Z. equal(X::'a,Y) & product(W::'a,X,Z) --> product(W::'a,Y,Z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2065	(\<forall>X W Z Y. equal(X::'a,Y) & product(W::'a,Z,X) --> product(W::'a,Z,Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2066
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2067	(93620 inferences so far. Searching to depth 24. 65.9 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2068	lemma RNG001_3:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2069	"(\<forall>X. sum(additive_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2070	(\<forall>X. sum(additive_inverse(X),X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2071	(\<forall>Y U Z X V W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(U::'a,Z,W) --> sum(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2072	(\<forall>Y X V U Z W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(X::'a,V,W) --> sum(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2073	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2074	(\<forall>Y Z X V3 V1 V2 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & product(X::'a,V3,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2075	(\<forall>Y Z V1 V2 X V3 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(X::'a,V3,V4)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2076	(~product(a::'a,additive_identity,additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2077	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2078
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2079	abbreviation "RNG_other_ax multiply add equal product additive_identity additive_inverse sum \<equiv>
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2080	(\<forall>X. sum(X::'a,additive_inverse(X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2081	(\<forall>Y U Z X V W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(U::'a,Z,W) --> sum(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2082	(\<forall>Y X V U Z W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(X::'a,V,W) --> sum(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2083	(\<forall>Y X Z. sum(X::'a,Y,Z) --> sum(Y::'a,X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2084	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2085	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2086	(\<forall>Y Z X V3 V1 V2 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & product(X::'a,V3,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2087	(\<forall>Y Z V1 V2 X V3 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(X::'a,V3,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2088	(\<forall>Y Z V3 X V1 V2 V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & product(V3::'a,X,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2089	(\<forall>Y Z V1 V2 V3 X V4. product(Y::'a,X,V1) & product(Z::'a,X,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(V3::'a,X,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2090	(\<forall>X Y U V. sum(X::'a,Y,U) & sum(X::'a,Y,V) --> equal(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2091	(\<forall>X Y U V. product(X::'a,Y,U) & product(X::'a,Y,V) --> equal(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2092	(\<forall>X Y. equal(X::'a,Y) --> equal(additive_inverse(X),additive_inverse(Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2093	(\<forall>X Y W. equal(X::'a,Y) --> equal(add(X::'a,W),add(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2094	(\<forall>X Y W Z. equal(X::'a,Y) & sum(X::'a,W,Z) --> sum(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2095	(\<forall>X W Y Z. equal(X::'a,Y) & sum(W::'a,X,Z) --> sum(W::'a,Y,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2096	(\<forall>X W Z Y. equal(X::'a,Y) & sum(W::'a,Z,X) --> sum(W::'a,Z,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2097	(\<forall>X Y W. equal(X::'a,Y) --> equal(multiply(X::'a,W),multiply(Y::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2098	(\<forall>X Y W Z. equal(X::'a,Y) & product(X::'a,W,Z) --> product(Y::'a,W,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2099	(\<forall>X W Y Z. equal(X::'a,Y) & product(W::'a,X,Z) --> product(W::'a,Y,Z)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2100	(\<forall>X W Z Y. equal(X::'a,Y) & product(W::'a,Z,X) --> product(W::'a,Z,Y))"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2101
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2102
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2103	(****************SLOW
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2104	76385914 inferences so far. Searching to depth 18
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2105	No proof after 5 1/2 hours! (griffon)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2106	****************)
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2107	lemma RNG001_5:
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2108	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2109	(\<forall>X. sum(additive_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2110	(\<forall>X. sum(X::'a,additive_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2111	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2112	(\<forall>X Y. sum(X::'a,Y,add(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2113	(\<forall>X. sum(additive_inverse(X),X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2114	RNG_other_ax multiply add equal product additive_identity additive_inverse sum &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2115	(~product(a::'a,additive_identity,additive_identity)) --> False"
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2116	oops
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2117
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2118	(0 inferences so far. Searching to depth 0. 0.5 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2119	lemma RNG011_5:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2120	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2121	(\<forall>A B C. equal(A::'a,B) --> equal(add(A::'a,C),add(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2122	(\<forall>D F' E. equal(D::'a,E) --> equal(add(F'::'a,D),add(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2123	(\<forall>G H. equal(G::'a,H) --> equal(additive_inverse(G),additive_inverse(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2124	(\<forall>I' J K'. equal(I'::'a,J) --> equal(multiply(I'::'a,K'),multiply(J::'a,K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2125	(\<forall>L N M. equal(L::'a,M) --> equal(multiply(N::'a,L),multiply(N::'a,M))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2126	(\<forall>A B C D. equal(A::'a,B) --> equal(associator(A::'a,C,D),associator(B::'a,C,D))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2127	(\<forall>E G F' H. equal(E::'a,F') --> equal(associator(G::'a,E,H),associator(G::'a,F',H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2128	(\<forall>I' K' L J. equal(I'::'a,J) --> equal(associator(K'::'a,L,I'),associator(K'::'a,L,J))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2129	(\<forall>M N O'. equal(M::'a,N) --> equal(commutator(M::'a,O'),commutator(N::'a,O'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2130	(\<forall>P R Q. equal(P::'a,Q) --> equal(commutator(R::'a,P),commutator(R::'a,Q))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2131	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2132	(\<forall>X Y Z. equal(add(add(X::'a,Y),Z),add(X::'a,add(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2133	(\<forall>X. equal(add(X::'a,additive_identity),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2134	(\<forall>X. equal(add(additive_identity::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2135	(\<forall>X. equal(add(X::'a,additive_inverse(X)),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2136	(\<forall>X. equal(add(additive_inverse(X),X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2137	(equal(additive_inverse(additive_identity),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2138	(\<forall>X Y. equal(add(X::'a,add(additive_inverse(X),Y)),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2139	(\<forall>X Y. equal(additive_inverse(add(X::'a,Y)),add(additive_inverse(X),additive_inverse(Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2140	(\<forall>X. equal(additive_inverse(additive_inverse(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2141	(\<forall>X. equal(multiply(X::'a,additive_identity),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2142	(\<forall>X. equal(multiply(additive_identity::'a,X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2143	(\<forall>X Y. equal(multiply(additive_inverse(X),additive_inverse(Y)),multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2144	(\<forall>X Y. equal(multiply(X::'a,additive_inverse(Y)),additive_inverse(multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2145	(\<forall>X Y. equal(multiply(additive_inverse(X),Y),additive_inverse(multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2146	(\<forall>Y X Z. equal(multiply(X::'a,add(Y::'a,Z)),add(multiply(X::'a,Y),multiply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2147	(\<forall>X Y Z. equal(multiply(add(X::'a,Y),Z),add(multiply(X::'a,Z),multiply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2148	(\<forall>X Y. equal(multiply(multiply(X::'a,Y),Y),multiply(X::'a,multiply(Y::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2149	(\<forall>X Y Z. equal(associator(X::'a,Y,Z),add(multiply(multiply(X::'a,Y),Z),additive_inverse(multiply(X::'a,multiply(Y::'a,Z)))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2150	(\<forall>X Y. equal(commutator(X::'a,Y),add(multiply(Y::'a,X),additive_inverse(multiply(X::'a,Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2151	(\<forall>X Y. equal(multiply(multiply(associator(X::'a,X,Y),X),associator(X::'a,X,Y)),additive_identity)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2152	(~equal(multiply(multiply(associator(a::'a,a,b),a),associator(a::'a,a,b)),additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2153	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2154
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2155	(202 inferences so far. Searching to depth 8. 0.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2156	lemma RNG023_6:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2157	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2158	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2159	(\<forall>X Y Z. equal(add(X::'a,add(Y::'a,Z)),add(add(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2160	(\<forall>X. equal(add(additive_identity::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2161	(\<forall>X. equal(add(X::'a,additive_identity),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2162	(\<forall>X. equal(multiply(additive_identity::'a,X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2163	(\<forall>X. equal(multiply(X::'a,additive_identity),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2164	(\<forall>X. equal(add(additive_inverse(X),X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2165	(\<forall>X. equal(add(X::'a,additive_inverse(X)),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2166	(\<forall>Y X Z. equal(multiply(X::'a,add(Y::'a,Z)),add(multiply(X::'a,Y),multiply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2167	(\<forall>X Y Z. equal(multiply(add(X::'a,Y),Z),add(multiply(X::'a,Z),multiply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2168	(\<forall>X. equal(additive_inverse(additive_inverse(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2169	(\<forall>X Y. equal(multiply(multiply(X::'a,Y),Y),multiply(X::'a,multiply(Y::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2170	(\<forall>X Y. equal(multiply(multiply(X::'a,X),Y),multiply(X::'a,multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2171	(\<forall>X Y Z. equal(associator(X::'a,Y,Z),add(multiply(multiply(X::'a,Y),Z),additive_inverse(multiply(X::'a,multiply(Y::'a,Z)))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2172	(\<forall>X Y. equal(commutator(X::'a,Y),add(multiply(Y::'a,X),additive_inverse(multiply(X::'a,Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2173	(\<forall>D E F'. equal(D::'a,E) --> equal(add(D::'a,F'),add(E::'a,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2174	(\<forall>G I' H. equal(G::'a,H) --> equal(add(I'::'a,G),add(I'::'a,H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2175	(\<forall>J K'. equal(J::'a,K') --> equal(additive_inverse(J),additive_inverse(K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2176	(\<forall>L M N O'. equal(L::'a,M) --> equal(associator(L::'a,N,O'),associator(M::'a,N,O'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2177	(\<forall>P R Q S'. equal(P::'a,Q) --> equal(associator(R::'a,P,S'),associator(R::'a,Q,S'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2178	(\<forall>T' V W U. equal(T'::'a,U) --> equal(associator(V::'a,W,T'),associator(V::'a,W,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2179	(\<forall>X Y Z. equal(X::'a,Y) --> equal(commutator(X::'a,Z),commutator(Y::'a,Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2180	(\<forall>A1 C1 B1. equal(A1::'a,B1) --> equal(commutator(C1::'a,A1),commutator(C1::'a,B1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2181	(\<forall>D1 E1 F1. equal(D1::'a,E1) --> equal(multiply(D1::'a,F1),multiply(E1::'a,F1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2182	(\<forall>G1 I1 H1. equal(G1::'a,H1) --> equal(multiply(I1::'a,G1),multiply(I1::'a,H1))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2183	(~equal(associator(x::'a,x,y),additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2184	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2185
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2186	(0 inferences so far. Searching to depth 0. 0.6 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2187	lemma RNG028_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2188	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2189	(\<forall>X. equal(add(additive_identity::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2190	(\<forall>X. equal(multiply(additive_identity::'a,X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2191	(\<forall>X. equal(multiply(X::'a,additive_identity),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2192	(\<forall>X. equal(add(additive_inverse(X),X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2193	(\<forall>X Y. equal(additive_inverse(add(X::'a,Y)),add(additive_inverse(X),additive_inverse(Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2194	(\<forall>X. equal(additive_inverse(additive_inverse(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2195	(\<forall>Y X Z. equal(multiply(X::'a,add(Y::'a,Z)),add(multiply(X::'a,Y),multiply(X::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2196	(\<forall>X Y Z. equal(multiply(add(X::'a,Y),Z),add(multiply(X::'a,Z),multiply(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2197	(\<forall>X Y. equal(multiply(multiply(X::'a,Y),Y),multiply(X::'a,multiply(Y::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2198	(\<forall>X Y. equal(multiply(multiply(X::'a,X),Y),multiply(X::'a,multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2199	(\<forall>X Y. equal(multiply(additive_inverse(X),Y),additive_inverse(multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2200	(\<forall>X Y. equal(multiply(X::'a,additive_inverse(Y)),additive_inverse(multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2201	(equal(additive_inverse(additive_identity),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2202	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2203	(\<forall>X Y Z. equal(add(X::'a,add(Y::'a,Z)),add(add(X::'a,Y),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2204	(\<forall>Z X Y. equal(add(X::'a,Z),add(Y::'a,Z)) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2205	(\<forall>Z X Y. equal(add(Z::'a,X),add(Z::'a,Y)) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2206	(\<forall>D E F'. equal(D::'a,E) --> equal(add(D::'a,F'),add(E::'a,F'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2207	(\<forall>G I' H. equal(G::'a,H) --> equal(add(I'::'a,G),add(I'::'a,H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2208	(\<forall>J K'. equal(J::'a,K') --> equal(additive_inverse(J),additive_inverse(K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2209	(\<forall>D1 E1 F1. equal(D1::'a,E1) --> equal(multiply(D1::'a,F1),multiply(E1::'a,F1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2210	(\<forall>G1 I1 H1. equal(G1::'a,H1) --> equal(multiply(I1::'a,G1),multiply(I1::'a,H1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2211	(\<forall>X Y Z. equal(associator(X::'a,Y,Z),add(multiply(multiply(X::'a,Y),Z),additive_inverse(multiply(X::'a,multiply(Y::'a,Z)))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2212	(\<forall>L M N O'. equal(L::'a,M) --> equal(associator(L::'a,N,O'),associator(M::'a,N,O'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2213	(\<forall>P R Q S'. equal(P::'a,Q) --> equal(associator(R::'a,P,S'),associator(R::'a,Q,S'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2214	(\<forall>T' V W U. equal(T'::'a,U) --> equal(associator(V::'a,W,T'),associator(V::'a,W,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2215	(\<forall>X Y. ~equal(multiply(multiply(Y::'a,X),Y),multiply(Y::'a,multiply(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2216	(\<forall>X Y Z. ~equal(associator(Y::'a,X,Z),additive_inverse(associator(X::'a,Y,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2217	(\<forall>X Y Z. ~equal(associator(Z::'a,Y,X),additive_inverse(associator(X::'a,Y,Z)))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2218	(~equal(multiply(multiply(cx::'a,multiply(cy::'a,cx)),cz),multiply(cx::'a,multiply(cy::'a,multiply(cx::'a,cz))))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2219	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2220
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2221	(209 inferences so far. Searching to depth 9. 1.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2222	lemma RNG038_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2223	"(\<forall>X. sum(X::'a,additive_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2224	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2225	(\<forall>X Y. sum(X::'a,Y,add(X::'a,Y))) &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2226	RNG_other_ax multiply add equal product additive_identity additive_inverse sum &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2227	(\<forall>X. product(additive_identity::'a,X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2228	(\<forall>X. product(X::'a,additive_identity,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2229	(\<forall>X Y. equal(X::'a,additive_identity) --> product(X::'a,h(X::'a,Y),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2230	(product(a::'a,b,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2231	(~equal(a::'a,additive_identity)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2232	(~equal(b::'a,additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2233	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2234
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2235	(2660 inferences so far. Searching to depth 10. 7.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2236	lemma RNG040_2:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2237	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2238	RNG001_0_eq product multiply sum add additive_inverse equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2239	(\<forall>X. sum(additive_identity::'a,X,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2240	(\<forall>X. sum(X::'a,additive_identity,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2241	(\<forall>X Y. product(X::'a,Y,multiply(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2242	(\<forall>X Y. sum(X::'a,Y,add(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2243	(\<forall>X. sum(additive_inverse(X),X,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2244	(\<forall>X. sum(X::'a,additive_inverse(X),additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2245	(\<forall>Y U Z X V W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(U::'a,Z,W) --> sum(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2246	(\<forall>Y X V U Z W. sum(X::'a,Y,U) & sum(Y::'a,Z,V) & sum(X::'a,V,W) --> sum(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2247	(\<forall>Y X Z. sum(X::'a,Y,Z) --> sum(Y::'a,X,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2248	(\<forall>Y U Z X V W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(U::'a,Z,W) --> product(X::'a,V,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2249	(\<forall>Y X V U Z W. product(X::'a,Y,U) & product(Y::'a,Z,V) & product(X::'a,V,W) --> product(U::'a,Z,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2250	(\<forall>Y Z X V3 V1 V2 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & product(X::'a,V3,V4) --> sum(V1::'a,V2,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2251	(\<forall>Y Z V1 V2 X V3 V4. product(X::'a,Y,V1) & product(X::'a,Z,V2) & sum(Y::'a,Z,V3) & sum(V1::'a,V2,V4) --> product(X::'a,V3,V4)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2252	(\<forall>X Y U V. sum(X::'a,Y,U) & sum(X::'a,Y,V) --> equal(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2253	(\<forall>X Y U V. product(X::'a,Y,U) & product(X::'a,Y,V) --> equal(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2254	(\<forall>A. product(A::'a,multiplicative_identity,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2255	(\<forall>A. product(multiplicative_identity::'a,A,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2256	(\<forall>A. product(A::'a,h(A),multiplicative_identity) \| equal(A::'a,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2257	(\<forall>A. product(h(A),A,multiplicative_identity) \| equal(A::'a,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2258	(\<forall>B A C. product(A::'a,B,C) --> product(B::'a,A,C)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2259	(\<forall>A B. equal(A::'a,B) --> equal(h(A),h(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2260	(sum(b::'a,c,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2261	(product(d::'a,a,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2262	(product(b::'a,a,l)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2263	(product(c::'a,a,n)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2264	(~sum(l::'a,n,additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2265	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2266
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2267	(8991 inferences so far. Searching to depth 9. 22.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2268	lemma RNG041_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2269	"EQU001_0_ax equal &
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2270	RNG001_0_ax equal additive_inverse add multiply product additive_identity sum &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2271	RNG001_0_eq product multiply sum add additive_inverse equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2272	(\<forall>A B. equal(A::'a,B) --> equal(h(A),h(B))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2273	(\<forall>A. product(additive_identity::'a,A,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2274	(\<forall>A. product(A::'a,additive_identity,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2275	(\<forall>A. product(A::'a,multiplicative_identity,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2276	(\<forall>A. product(multiplicative_identity::'a,A,A)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2277	(\<forall>A. product(A::'a,h(A),multiplicative_identity) \| equal(A::'a,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2278	(\<forall>A. product(h(A),A,multiplicative_identity) \| equal(A::'a,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2279	(product(a::'a,b,additive_identity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2280	(~equal(a::'a,additive_identity)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2281	(~equal(b::'a,additive_identity)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2282	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2283
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2284	(101319 inferences so far. Searching to depth 14. 76.0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2285	lemma ROB010_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2286	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2287	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2288	(\<forall>X Y Z. equal(add(add(X::'a,Y),Z),add(X::'a,add(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2289	(\<forall>Y X. equal(negate(add(negate(add(X::'a,Y)),negate(add(X::'a,negate(Y))))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2290	(\<forall>A B C. equal(A::'a,B) --> equal(add(A::'a,C),add(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2291	(\<forall>D F' E. equal(D::'a,E) --> equal(add(F'::'a,D),add(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2292	(\<forall>G H. equal(G::'a,H) --> equal(negate(G),negate(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2293	(equal(negate(add(a::'a,negate(b))),c)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2294	(~equal(negate(add(c::'a,negate(add(b::'a,a)))),a)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2295	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2296
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2297
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2298	(6933 inferences so far. Searching to depth 12. 5.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2299	lemma ROB013_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2300	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2301	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2302	(\<forall>X Y Z. equal(add(add(X::'a,Y),Z),add(X::'a,add(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2303	(\<forall>Y X. equal(negate(add(negate(add(X::'a,Y)),negate(add(X::'a,negate(Y))))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2304	(\<forall>A B C. equal(A::'a,B) --> equal(add(A::'a,C),add(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2305	(\<forall>D F' E. equal(D::'a,E) --> equal(add(F'::'a,D),add(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2306	(\<forall>G H. equal(G::'a,H) --> equal(negate(G),negate(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2307	(equal(negate(add(a::'a,b)),c)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2308	(~equal(negate(add(c::'a,negate(add(negate(b),a)))),a)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2309	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2310
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2311	(6614 inferences so far. Searching to depth 11. 20.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2312	lemma ROB016_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2313	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2314	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2315	(\<forall>X Y Z. equal(add(add(X::'a,Y),Z),add(X::'a,add(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2316	(\<forall>Y X. equal(negate(add(negate(add(X::'a,Y)),negate(add(X::'a,negate(Y))))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2317	(\<forall>A B C. equal(A::'a,B) --> equal(add(A::'a,C),add(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2318	(\<forall>D F' E. equal(D::'a,E) --> equal(add(F'::'a,D),add(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2319	(\<forall>G H. equal(G::'a,H) --> equal(negate(G),negate(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2320	(\<forall>J K' L. equal(J::'a,K') --> equal(multiply(J::'a,L),multiply(K'::'a,L))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2321	(\<forall>M O' N. equal(M::'a,N) --> equal(multiply(O'::'a,M),multiply(O'::'a,N))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2322	(\<forall>P Q. equal(P::'a,Q) --> equal(successor(P),successor(Q))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2323	(\<forall>R S'. equal(R::'a,S') & positive_integer(R) --> positive_integer(S')) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2324	(\<forall>X. equal(multiply(One::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2325	(\<forall>V X. positive_integer(X) --> equal(multiply(successor(V),X),add(X::'a,multiply(V::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2326	(positive_integer(One)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2327	(\<forall>X. positive_integer(X) --> positive_integer(successor(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2328	(equal(negate(add(d::'a,e)),negate(e))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2329	(positive_integer(k)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2330	(\<forall>Vk X Y. equal(negate(add(negate(Y),negate(add(X::'a,negate(Y))))),X) & positive_integer(Vk) --> equal(negate(add(Y::'a,multiply(Vk::'a,add(X::'a,negate(add(X::'a,negate(Y))))))),negate(Y))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2331	(~equal(negate(add(e::'a,multiply(k::'a,add(d::'a,negate(add(d::'a,negate(e))))))),negate(e))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2332	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2333
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2334	(14077 inferences so far. Searching to depth 11. 32.8 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2335	lemma ROB021_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2336	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2337	(\<forall>Y X. equal(add(X::'a,Y),add(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2338	(\<forall>X Y Z. equal(add(add(X::'a,Y),Z),add(X::'a,add(Y::'a,Z)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2339	(\<forall>Y X. equal(negate(add(negate(add(X::'a,Y)),negate(add(X::'a,negate(Y))))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2340	(\<forall>A B C. equal(A::'a,B) --> equal(add(A::'a,C),add(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2341	(\<forall>D F' E. equal(D::'a,E) --> equal(add(F'::'a,D),add(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2342	(\<forall>G H. equal(G::'a,H) --> equal(negate(G),negate(H))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2343	(\<forall>X Y. equal(negate(X),negate(Y)) --> equal(X::'a,Y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2344	(~equal(add(negate(add(a::'a,negate(b))),negate(add(negate(a),negate(b)))),b)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2345	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2346
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2347	(35532 inferences so far. Searching to depth 19. 54.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2348	lemma SET005_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2349	"(\<forall>Subset Element Superset. member(Element::'a,Subset) & subset(Subset::'a,Superset) --> member(Element::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2350	(\<forall>Superset Subset. subset(Subset::'a,Superset) \| member(member_of_1_not_of_2(Subset::'a,Superset),Subset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2351	(\<forall>Subset Superset. member(member_of_1_not_of_2(Subset::'a,Superset),Superset) --> subset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2352	(\<forall>Subset Superset. equal_sets(Subset::'a,Superset) --> subset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2353	(\<forall>Subset Superset. equal_sets(Superset::'a,Subset) --> subset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2354	(\<forall>Set2 Set1. subset(Set1::'a,Set2) & subset(Set2::'a,Set1) --> equal_sets(Set2::'a,Set1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2355	(\<forall>Set2 Intersection Element Set1. intersection(Set1::'a,Set2,Intersection) & member(Element::'a,Intersection) --> member(Element::'a,Set1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2356	(\<forall>Set1 Intersection Element Set2. intersection(Set1::'a,Set2,Intersection) & member(Element::'a,Intersection) --> member(Element::'a,Set2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2357	(\<forall>Set2 Set1 Element Intersection. intersection(Set1::'a,Set2,Intersection) & member(Element::'a,Set2) & member(Element::'a,Set1) --> member(Element::'a,Intersection)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2358	(\<forall>Set2 Intersection Set1. member(h(Set1::'a,Set2,Intersection),Intersection) \| intersection(Set1::'a,Set2,Intersection) \| member(h(Set1::'a,Set2,Intersection),Set1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2359	(\<forall>Set1 Intersection Set2. member(h(Set1::'a,Set2,Intersection),Intersection) \| intersection(Set1::'a,Set2,Intersection) \| member(h(Set1::'a,Set2,Intersection),Set2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2360	(\<forall>Set1 Set2 Intersection. member(h(Set1::'a,Set2,Intersection),Intersection) & member(h(Set1::'a,Set2,Intersection),Set2) & member(h(Set1::'a,Set2,Intersection),Set1) --> intersection(Set1::'a,Set2,Intersection)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2361	(intersection(a::'a,b,aIb)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2362	(intersection(b::'a,c,bIc)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2363	(intersection(a::'a,bIc,aIbIc)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2364	(~intersection(aIb::'a,c,aIbIc)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2365	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2366
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2367
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2368	(6450 inferences so far. Searching to depth 14. 4.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2369	lemma SET009_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2370	"(\<forall>Subset Element Superset. member(Element::'a,Subset) & ssubset(Subset::'a,Superset) --> member(Element::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2371	(\<forall>Superset Subset. ssubset(Subset::'a,Superset) \| member(member_of_1_not_of_2(Subset::'a,Superset),Subset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2372	(\<forall>Subset Superset. member(member_of_1_not_of_2(Subset::'a,Superset),Superset) --> ssubset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2373	(\<forall>Subset Superset. equal_sets(Subset::'a,Superset) --> ssubset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2374	(\<forall>Subset Superset. equal_sets(Superset::'a,Subset) --> ssubset(Subset::'a,Superset)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2375	(\<forall>Set2 Set1. ssubset(Set1::'a,Set2) & ssubset(Set2::'a,Set1) --> equal_sets(Set2::'a,Set1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2376	(\<forall>Set2 Difference Element Set1. difference(Set1::'a,Set2,Difference) & member(Element::'a,Difference) --> member(Element::'a,Set1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2377	(\<forall>Element A_set Set1 Set2. ~(member(Element::'a,Set1) & member(Element::'a,Set2) & difference(A_set::'a,Set1,Set2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2378	(\<forall>Set1 Difference Element Set2. member(Element::'a,Set1) & difference(Set1::'a,Set2,Difference) --> member(Element::'a,Difference) \| member(Element::'a,Set2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2379	(\<forall>Set1 Set2 Difference. difference(Set1::'a,Set2,Difference) \| member(k(Set1::'a,Set2,Difference),Set1) \| member(k(Set1::'a,Set2,Difference),Difference)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2380	(\<forall>Set1 Set2 Difference. member(k(Set1::'a,Set2,Difference),Set2) --> member(k(Set1::'a,Set2,Difference),Difference) \| difference(Set1::'a,Set2,Difference)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2381	(\<forall>Set1 Set2 Difference. member(k(Set1::'a,Set2,Difference),Difference) & member(k(Set1::'a,Set2,Difference),Set1) --> member(k(Set1::'a,Set2,Difference),Set2) \| difference(Set1::'a,Set2,Difference)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2382	(ssubset(d::'a,a)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2383	(difference(b::'a,a,bDa)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2384	(difference(b::'a,d,bDd)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2385	(~ssubset(bDa::'a,bDd)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2386	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2387
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2388	(34726 inferences so far. Searching to depth 6. 2420 secs: 40 mins! BIG)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2389	lemma SET025_4:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2390	"EQU001_0_ax equal &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2391	(\<forall>Y X. member(X::'a,Y) --> little_set(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2392	(\<forall>X Y. little_set(f1(X::'a,Y)) \| equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2393	(\<forall>X Y. member(f1(X::'a,Y),X) \| member(f1(X::'a,Y),Y) \| equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2394	(\<forall>X Y. member(f1(X::'a,Y),X) & member(f1(X::'a,Y),Y) --> equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2395	(\<forall>X U Y. member(U::'a,non_ordered_pair(X::'a,Y)) --> equal(U::'a,X) \| equal(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2396	(\<forall>Y U X. little_set(U) & equal(U::'a,X) --> member(U::'a,non_ordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2397	(\<forall>X U Y. little_set(U) & equal(U::'a,Y) --> member(U::'a,non_ordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2398	(\<forall>X Y. little_set(non_ordered_pair(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2399	(\<forall>X. equal(singleton_set(X),non_ordered_pair(X::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2400	(\<forall>X Y. equal(ordered_pair(X::'a,Y),non_ordered_pair(singleton_set(X),non_ordered_pair(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2401	(\<forall>X. ordered_pair_predicate(X) --> little_set(f2(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2402	(\<forall>X. ordered_pair_predicate(X) --> little_set(f3(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2403	(\<forall>X. ordered_pair_predicate(X) --> equal(X::'a,ordered_pair(f2(X),f3(X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2404	(\<forall>X Y Z. little_set(Y) & little_set(Z) & equal(X::'a,ordered_pair(Y::'a,Z)) --> ordered_pair_predicate(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2405	(\<forall>Z X. member(Z::'a,first(X)) --> little_set(f4(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2406	(\<forall>Z X. member(Z::'a,first(X)) --> little_set(f5(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2407	(\<forall>Z X. member(Z::'a,first(X)) --> equal(X::'a,ordered_pair(f4(Z::'a,X),f5(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2408	(\<forall>Z X. member(Z::'a,first(X)) --> member(Z::'a,f4(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2409	(\<forall>X V Z U. little_set(U) & little_set(V) & equal(X::'a,ordered_pair(U::'a,V)) & member(Z::'a,U) --> member(Z::'a,first(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2410	(\<forall>Z X. member(Z::'a,second(X)) --> little_set(f6(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2411	(\<forall>Z X. member(Z::'a,second(X)) --> little_set(f7(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2412	(\<forall>Z X. member(Z::'a,second(X)) --> equal(X::'a,ordered_pair(f6(Z::'a,X),f7(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2413	(\<forall>Z X. member(Z::'a,second(X)) --> member(Z::'a,f7(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2414	(\<forall>X U Z V. little_set(U) & little_set(V) & equal(X::'a,ordered_pair(U::'a,V)) & member(Z::'a,V) --> member(Z::'a,second(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2415	(\<forall>Z. member(Z::'a,estin) --> ordered_pair_predicate(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2416	(\<forall>Z. member(Z::'a,estin) --> member(first(Z),second(Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2417	(\<forall>Z. little_set(Z) & ordered_pair_predicate(Z) & member(first(Z),second(Z)) --> member(Z::'a,estin)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2418	(\<forall>Y Z X. member(Z::'a,intersection(X::'a,Y)) --> member(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2419	(\<forall>X Z Y. member(Z::'a,intersection(X::'a,Y)) --> member(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2420	(\<forall>X Z Y. member(Z::'a,X) & member(Z::'a,Y) --> member(Z::'a,intersection(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2421	(\<forall>Z X. ~(member(Z::'a,complement(X)) & member(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2422	(\<forall>Z X. little_set(Z) --> member(Z::'a,complement(X)) \| member(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2423	(\<forall>X Y. equal(union(X::'a,Y),complement(intersection(complement(X),complement(Y))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2424	(\<forall>Z X. member(Z::'a,domain_of(X)) --> ordered_pair_predicate(f8(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2425	(\<forall>Z X. member(Z::'a,domain_of(X)) --> member(f8(Z::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2426	(\<forall>Z X. member(Z::'a,domain_of(X)) --> equal(Z::'a,first(f8(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2427	(\<forall>X Z Xp. little_set(Z) & ordered_pair_predicate(Xp) & member(Xp::'a,X) & equal(Z::'a,first(Xp)) --> member(Z::'a,domain_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2428	(\<forall>X Y Z. member(Z::'a,cross_product(X::'a,Y)) --> ordered_pair_predicate(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2429	(\<forall>Y Z X. member(Z::'a,cross_product(X::'a,Y)) --> member(first(Z),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2430	(\<forall>X Z Y. member(Z::'a,cross_product(X::'a,Y)) --> member(second(Z),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2431	(\<forall>X Z Y. little_set(Z) & ordered_pair_predicate(Z) & member(first(Z),X) & member(second(Z),Y) --> member(Z::'a,cross_product(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2432	(\<forall>X Z. member(Z::'a,inv1 X) --> ordered_pair_predicate(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2433	(\<forall>Z X. member(Z::'a,inv1 X) --> member(ordered_pair(second(Z),first(Z)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2434	(\<forall>Z X. little_set(Z) & ordered_pair_predicate(Z) & member(ordered_pair(second(Z),first(Z)),X) --> member(Z::'a,inv1 X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2435	(\<forall>Z X. member(Z::'a,rot_right(X)) --> little_set(f9(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2436	(\<forall>Z X. member(Z::'a,rot_right(X)) --> little_set(f10(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2437	(\<forall>Z X. member(Z::'a,rot_right(X)) --> little_set(f11(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2438	(\<forall>Z X. member(Z::'a,rot_right(X)) --> equal(Z::'a,ordered_pair(f9(Z::'a,X),ordered_pair(f10(Z::'a,X),f11(Z::'a,X))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2439	(\<forall>Z X. member(Z::'a,rot_right(X)) --> member(ordered_pair(f10(Z::'a,X),ordered_pair(f11(Z::'a,X),f9(Z::'a,X))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2440	(\<forall>Z V W U X. little_set(Z) & little_set(U) & little_set(V) & little_set(W) & equal(Z::'a,ordered_pair(U::'a,ordered_pair(V::'a,W))) & member(ordered_pair(V::'a,ordered_pair(W::'a,U)),X) --> member(Z::'a,rot_right(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2441	(\<forall>Z X. member(Z::'a,flip_range_of(X)) --> little_set(f12(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2442	(\<forall>Z X. member(Z::'a,flip_range_of(X)) --> little_set(f13(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2443	(\<forall>Z X. member(Z::'a,flip_range_of(X)) --> little_set(f14(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2444	(\<forall>Z X. member(Z::'a,flip_range_of(X)) --> equal(Z::'a,ordered_pair(f12(Z::'a,X),ordered_pair(f13(Z::'a,X),f14(Z::'a,X))))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2445	(\<forall>Z X. member(Z::'a,flip_range_of(X)) --> member(ordered_pair(f12(Z::'a,X),ordered_pair(f14(Z::'a,X),f13(Z::'a,X))),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2446	(\<forall>Z U W V X. little_set(Z) & little_set(U) & little_set(V) & little_set(W) & equal(Z::'a,ordered_pair(U::'a,ordered_pair(V::'a,W))) & member(ordered_pair(U::'a,ordered_pair(W::'a,V)),X) --> member(Z::'a,flip_range_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2447	(\<forall>X. equal(successor(X),union(X::'a,singleton_set(X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2448	(\<forall>Z. ~member(Z::'a,empty_set)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2449	(\<forall>Z. little_set(Z) --> member(Z::'a,universal_set)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2450	(little_set(infinity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2451	(member(empty_set::'a,infinity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2452	(\<forall>X. member(X::'a,infinity) --> member(successor(X),infinity)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2453	(\<forall>Z X. member(Z::'a,sigma(X)) --> member(f16(Z::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2454	(\<forall>Z X. member(Z::'a,sigma(X)) --> member(Z::'a,f16(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2455	(\<forall>X Z Y. member(Y::'a,X) & member(Z::'a,Y) --> member(Z::'a,sigma(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2456	(\<forall>U. little_set(U) --> little_set(sigma(U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2457	(\<forall>X U Y. ssubset(X::'a,Y) & member(U::'a,X) --> member(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2458	(\<forall>Y X. ssubset(X::'a,Y) \| member(f17(X::'a,Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2459	(\<forall>X Y. member(f17(X::'a,Y),Y) --> ssubset(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2460	(\<forall>X Y. proper_subset(X::'a,Y) --> ssubset(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2461	(\<forall>X Y. ~(proper_subset(X::'a,Y) & equal(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2462	(\<forall>X Y. ssubset(X::'a,Y) --> proper_subset(X::'a,Y) \| equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2463	(\<forall>Z X. member(Z::'a,powerset(X)) --> ssubset(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2464	(\<forall>Z X. little_set(Z) & ssubset(Z::'a,X) --> member(Z::'a,powerset(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2465	(\<forall>U. little_set(U) --> little_set(powerset(U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2466	(\<forall>Z X. relation(Z) & member(X::'a,Z) --> ordered_pair_predicate(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2467	(\<forall>Z. relation(Z) \| member(f18(Z),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2468	(\<forall>Z. ordered_pair_predicate(f18(Z)) --> relation(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2469	(\<forall>U X V W. single_valued_set(X) & little_set(U) & little_set(V) & little_set(W) & member(ordered_pair(U::'a,V),X) & member(ordered_pair(U::'a,W),X) --> equal(V::'a,W)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2470	(\<forall>X. single_valued_set(X) \| little_set(f19(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2471	(\<forall>X. single_valued_set(X) \| little_set(f20(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2472	(\<forall>X. single_valued_set(X) \| little_set(f21(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2473	(\<forall>X. single_valued_set(X) \| member(ordered_pair(f19(X),f20(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2474	(\<forall>X. single_valued_set(X) \| member(ordered_pair(f19(X),f21(X)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2475	(\<forall>X. equal(f20(X),f21(X)) --> single_valued_set(X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2476	(\<forall>Xf. function(Xf) --> relation(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2477	(\<forall>Xf. function(Xf) --> single_valued_set(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2478	(\<forall>Xf. relation(Xf) & single_valued_set(Xf) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2479	(\<forall>Z X Xf. member(Z::'a,image'(X::'a,Xf)) --> ordered_pair_predicate(f22(Z::'a,X,Xf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2480	(\<forall>Z X Xf. member(Z::'a,image'(X::'a,Xf)) --> member(f22(Z::'a,X,Xf),Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2481	(\<forall>Z Xf X. member(Z::'a,image'(X::'a,Xf)) --> member(first(f22(Z::'a,X,Xf)),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2482	(\<forall>X Xf Z. member(Z::'a,image'(X::'a,Xf)) --> equal(second(f22(Z::'a,X,Xf)),Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2483	(\<forall>Xf X Y Z. little_set(Z) & ordered_pair_predicate(Y) & member(Y::'a,Xf) & member(first(Y),X) & equal(second(Y),Z) --> member(Z::'a,image'(X::'a,Xf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2484	(\<forall>X Xf. little_set(X) & function(Xf) --> little_set(image'(X::'a,Xf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2485	(\<forall>X U Y. ~(disjoint(X::'a,Y) & member(U::'a,X) & member(U::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2486	(\<forall>Y X. disjoint(X::'a,Y) \| member(f23(X::'a,Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2487	(\<forall>X Y. disjoint(X::'a,Y) \| member(f23(X::'a,Y),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2488	(\<forall>X. equal(X::'a,empty_set) \| member(f24(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2489	(\<forall>X. equal(X::'a,empty_set) \| disjoint(f24(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2490	(function(f25)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2491	(\<forall>X. little_set(X) --> equal(X::'a,empty_set) \| member(f26(X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2492	(\<forall>X. little_set(X) --> equal(X::'a,empty_set) \| member(ordered_pair(X::'a,f26(X)),f25)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2493	(\<forall>Z X. member(Z::'a,range_of(X)) --> ordered_pair_predicate(f27(Z::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2494	(\<forall>Z X. member(Z::'a,range_of(X)) --> member(f27(Z::'a,X),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2495	(\<forall>Z X. member(Z::'a,range_of(X)) --> equal(Z::'a,second(f27(Z::'a,X)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2496	(\<forall>X Z Xp. little_set(Z) & ordered_pair_predicate(Xp) & member(Xp::'a,X) & equal(Z::'a,second(Xp)) --> member(Z::'a,range_of(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2497	(\<forall>Z. member(Z::'a,identity_relation) --> ordered_pair_predicate(Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2498	(\<forall>Z. member(Z::'a,identity_relation) --> equal(first(Z),second(Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2499	(\<forall>Z. little_set(Z) & ordered_pair_predicate(Z) & equal(first(Z),second(Z)) --> member(Z::'a,identity_relation)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2500	(\<forall>X Y. equal(restrct(X::'a,Y),intersection(X::'a,cross_product(Y::'a,universal_set)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2501	(\<forall>Xf. one_to_one_function(Xf) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2502	(\<forall>Xf. one_to_one_function(Xf) --> function(inv1 Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2503	(\<forall>Xf. function(Xf) & function(inv1 Xf) --> one_to_one_function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2504	(\<forall>Z Xf Y. member(Z::'a,apply(Xf::'a,Y)) --> ordered_pair_predicate(f28(Z::'a,Xf,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2505	(\<forall>Z Y Xf. member(Z::'a,apply(Xf::'a,Y)) --> member(f28(Z::'a,Xf,Y),Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2506	(\<forall>Z Xf Y. member(Z::'a,apply(Xf::'a,Y)) --> equal(first(f28(Z::'a,Xf,Y)),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2507	(\<forall>Z Xf Y. member(Z::'a,apply(Xf::'a,Y)) --> member(Z::'a,second(f28(Z::'a,Xf,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2508	(\<forall>Xf Y Z W. ordered_pair_predicate(W) & member(W::'a,Xf) & equal(first(W),Y) & member(Z::'a,second(W)) --> member(Z::'a,apply(Xf::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2509	(\<forall>Xf X Y. equal(apply_to_two_arguments(Xf::'a,X,Y),apply(Xf::'a,ordered_pair(X::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2510	(\<forall>X Y Xf. maps(Xf::'a,X,Y) --> function(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2511	(\<forall>Y Xf X. maps(Xf::'a,X,Y) --> equal(domain_of(Xf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2512	(\<forall>X Xf Y. maps(Xf::'a,X,Y) --> ssubset(range_of(Xf),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2513	(\<forall>X Xf Y. function(Xf) & equal(domain_of(Xf),X) & ssubset(range_of(Xf),Y) --> maps(Xf::'a,X,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2514	(\<forall>Xf Xs. closed(Xs::'a,Xf) --> little_set(Xs)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2515	(\<forall>Xs Xf. closed(Xs::'a,Xf) --> little_set(Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2516	(\<forall>Xf Xs. closed(Xs::'a,Xf) --> maps(Xf::'a,cross_product(Xs::'a,Xs),Xs)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2517	(\<forall>Xf Xs. little_set(Xs) & little_set(Xf) & maps(Xf::'a,cross_product(Xs::'a,Xs),Xs) --> closed(Xs::'a,Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2518	(\<forall>Z Xf Xg. member(Z::'a,composition(Xf::'a,Xg)) --> little_set(f29(Z::'a,Xf,Xg))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2519	(\<forall>Z Xf Xg. member(Z::'a,composition(Xf::'a,Xg)) --> little_set(f30(Z::'a,Xf,Xg))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2520	(\<forall>Z Xf Xg. member(Z::'a,composition(Xf::'a,Xg)) --> little_set(f31(Z::'a,Xf,Xg))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2521	(\<forall>Z Xf Xg. member(Z::'a,composition(Xf::'a,Xg)) --> equal(Z::'a,ordered_pair(f29(Z::'a,Xf,Xg),f30(Z::'a,Xf,Xg)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2522	(\<forall>Z Xg Xf. member(Z::'a,composition(Xf::'a,Xg)) --> member(ordered_pair(f29(Z::'a,Xf,Xg),f31(Z::'a,Xf,Xg)),Xf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2523	(\<forall>Z Xf Xg. member(Z::'a,composition(Xf::'a,Xg)) --> member(ordered_pair(f31(Z::'a,Xf,Xg),f30(Z::'a,Xf,Xg)),Xg)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2524	(\<forall>Z X Xf W Y Xg. little_set(Z) & little_set(X) & little_set(Y) & little_set(W) & equal(Z::'a,ordered_pair(X::'a,Y)) & member(ordered_pair(X::'a,W),Xf) & member(ordered_pair(W::'a,Y),Xg) --> member(Z::'a,composition(Xf::'a,Xg))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2525	(\<forall>Xh Xs2 Xf2 Xs1 Xf1. homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) --> closed(Xs1::'a,Xf1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2526	(\<forall>Xh Xs1 Xf1 Xs2 Xf2. homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) --> closed(Xs2::'a,Xf2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2527	(\<forall>Xf1 Xf2 Xh Xs1 Xs2. homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) --> maps(Xh::'a,Xs1,Xs2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2528	(\<forall>Xs2 Xs1 Xf1 Xf2 X Xh Y. homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) & member(X::'a,Xs1) & member(Y::'a,Xs1) --> equal(apply(Xh::'a,apply_to_two_arguments(Xf1::'a,X,Y)),apply_to_two_arguments(Xf2::'a,apply(Xh::'a,X),apply(Xh::'a,Y)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2529	(\<forall>Xh Xf1 Xs2 Xf2 Xs1. closed(Xs1::'a,Xf1) & closed(Xs2::'a,Xf2) & maps(Xh::'a,Xs1,Xs2) --> homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) \| member(f32(Xh::'a,Xs1,Xf1,Xs2,Xf2),Xs1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2530	(\<forall>Xh Xf1 Xs2 Xf2 Xs1. closed(Xs1::'a,Xf1) & closed(Xs2::'a,Xf2) & maps(Xh::'a,Xs1,Xs2) --> homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2) \| member(f33(Xh::'a,Xs1,Xf1,Xs2,Xf2),Xs1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2531	(\<forall>Xh Xs1 Xf1 Xs2 Xf2. closed(Xs1::'a,Xf1) & closed(Xs2::'a,Xf2) & maps(Xh::'a,Xs1,Xs2) & equal(apply(Xh::'a,apply_to_two_arguments(Xf1::'a,f32(Xh::'a,Xs1,Xf1,Xs2,Xf2),f33(Xh::'a,Xs1,Xf1,Xs2,Xf2))),apply_to_two_arguments(Xf2::'a,apply(Xh::'a,f32(Xh::'a,Xs1,Xf1,Xs2,Xf2)),apply(Xh::'a,f33(Xh::'a,Xs1,Xf1,Xs2,Xf2)))) --> homomorphism(Xh::'a,Xs1,Xf1,Xs2,Xf2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2532	(\<forall>A B C. equal(A::'a,B) --> equal(f1(A::'a,C),f1(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2533	(\<forall>D F' E. equal(D::'a,E) --> equal(f1(F'::'a,D),f1(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2534	(\<forall>A2 B2. equal(A2::'a,B2) --> equal(f2(A2),f2(B2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2535	(\<forall>G4 H4. equal(G4::'a,H4) --> equal(f3(G4),f3(H4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2536	(\<forall>O7 P7 Q7. equal(O7::'a,P7) --> equal(f4(O7::'a,Q7),f4(P7::'a,Q7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2537	(\<forall>R7 T7 S7. equal(R7::'a,S7) --> equal(f4(T7::'a,R7),f4(T7::'a,S7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2538	(\<forall>U7 V7 W7. equal(U7::'a,V7) --> equal(f5(U7::'a,W7),f5(V7::'a,W7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2539	(\<forall>X7 Z7 Y7. equal(X7::'a,Y7) --> equal(f5(Z7::'a,X7),f5(Z7::'a,Y7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2540	(\<forall>A8 B8 C8. equal(A8::'a,B8) --> equal(f6(A8::'a,C8),f6(B8::'a,C8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2541	(\<forall>D8 F8 E8. equal(D8::'a,E8) --> equal(f6(F8::'a,D8),f6(F8::'a,E8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2542	(\<forall>G8 H8 I8. equal(G8::'a,H8) --> equal(f7(G8::'a,I8),f7(H8::'a,I8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2543	(\<forall>J8 L8 K8. equal(J8::'a,K8) --> equal(f7(L8::'a,J8),f7(L8::'a,K8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2544	(\<forall>M8 N8 O8. equal(M8::'a,N8) --> equal(f8(M8::'a,O8),f8(N8::'a,O8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2545	(\<forall>P8 R8 Q8. equal(P8::'a,Q8) --> equal(f8(R8::'a,P8),f8(R8::'a,Q8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2546	(\<forall>S8 T8 U8. equal(S8::'a,T8) --> equal(f9(S8::'a,U8),f9(T8::'a,U8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2547	(\<forall>V8 X8 W8. equal(V8::'a,W8) --> equal(f9(X8::'a,V8),f9(X8::'a,W8))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2548	(\<forall>G H I'. equal(G::'a,H) --> equal(f10(G::'a,I'),f10(H::'a,I'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2549	(\<forall>J L K'. equal(J::'a,K') --> equal(f10(L::'a,J),f10(L::'a,K'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2550	(\<forall>M N O'. equal(M::'a,N) --> equal(f11(M::'a,O'),f11(N::'a,O'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2551	(\<forall>P R Q. equal(P::'a,Q) --> equal(f11(R::'a,P),f11(R::'a,Q))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2552	(\<forall>S' T' U. equal(S'::'a,T') --> equal(f12(S'::'a,U),f12(T'::'a,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2553	(\<forall>V X W. equal(V::'a,W) --> equal(f12(X::'a,V),f12(X::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2554	(\<forall>Y Z A1. equal(Y::'a,Z) --> equal(f13(Y::'a,A1),f13(Z::'a,A1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2555	(\<forall>B1 D1 C1. equal(B1::'a,C1) --> equal(f13(D1::'a,B1),f13(D1::'a,C1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2556	(\<forall>E1 F1 G1. equal(E1::'a,F1) --> equal(f14(E1::'a,G1),f14(F1::'a,G1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2557	(\<forall>H1 J1 I1. equal(H1::'a,I1) --> equal(f14(J1::'a,H1),f14(J1::'a,I1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2558	(\<forall>K1 L1 M1. equal(K1::'a,L1) --> equal(f16(K1::'a,M1),f16(L1::'a,M1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2559	(\<forall>N1 P1 O1. equal(N1::'a,O1) --> equal(f16(P1::'a,N1),f16(P1::'a,O1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2560	(\<forall>Q1 R1 S1. equal(Q1::'a,R1) --> equal(f17(Q1::'a,S1),f17(R1::'a,S1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2561	(\<forall>T1 V1 U1. equal(T1::'a,U1) --> equal(f17(V1::'a,T1),f17(V1::'a,U1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2562	(\<forall>W1 X1. equal(W1::'a,X1) --> equal(f18(W1),f18(X1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2563	(\<forall>Y1 Z1. equal(Y1::'a,Z1) --> equal(f19(Y1),f19(Z1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2564	(\<forall>C2 D2. equal(C2::'a,D2) --> equal(f20(C2),f20(D2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2565	(\<forall>E2 F2. equal(E2::'a,F2) --> equal(f21(E2),f21(F2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2566	(\<forall>G2 H2 I2 J2. equal(G2::'a,H2) --> equal(f22(G2::'a,I2,J2),f22(H2::'a,I2,J2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2567	(\<forall>K2 M2 L2 N2. equal(K2::'a,L2) --> equal(f22(M2::'a,K2,N2),f22(M2::'a,L2,N2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2568	(\<forall>O2 Q2 R2 P2. equal(O2::'a,P2) --> equal(f22(Q2::'a,R2,O2),f22(Q2::'a,R2,P2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2569	(\<forall>S2 T2 U2. equal(S2::'a,T2) --> equal(f23(S2::'a,U2),f23(T2::'a,U2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2570	(\<forall>V2 X2 W2. equal(V2::'a,W2) --> equal(f23(X2::'a,V2),f23(X2::'a,W2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2571	(\<forall>Y2 Z2. equal(Y2::'a,Z2) --> equal(f24(Y2),f24(Z2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2572	(\<forall>A3 B3. equal(A3::'a,B3) --> equal(f26(A3),f26(B3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2573	(\<forall>C3 D3 E3. equal(C3::'a,D3) --> equal(f27(C3::'a,E3),f27(D3::'a,E3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2574	(\<forall>F3 H3 G3. equal(F3::'a,G3) --> equal(f27(H3::'a,F3),f27(H3::'a,G3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2575	(\<forall>I3 J3 K3 L3. equal(I3::'a,J3) --> equal(f28(I3::'a,K3,L3),f28(J3::'a,K3,L3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2576	(\<forall>M3 O3 N3 P3. equal(M3::'a,N3) --> equal(f28(O3::'a,M3,P3),f28(O3::'a,N3,P3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2577	(\<forall>Q3 S3 T3 R3. equal(Q3::'a,R3) --> equal(f28(S3::'a,T3,Q3),f28(S3::'a,T3,R3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2578	(\<forall>U3 V3 W3 X3. equal(U3::'a,V3) --> equal(f29(U3::'a,W3,X3),f29(V3::'a,W3,X3))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2579	(\<forall>Y3 A4 Z3 B4. equal(Y3::'a,Z3) --> equal(f29(A4::'a,Y3,B4),f29(A4::'a,Z3,B4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2580	(\<forall>C4 E4 F4 D4. equal(C4::'a,D4) --> equal(f29(E4::'a,F4,C4),f29(E4::'a,F4,D4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2581	(\<forall>I4 J4 K4 L4. equal(I4::'a,J4) --> equal(f30(I4::'a,K4,L4),f30(J4::'a,K4,L4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2582	(\<forall>M4 O4 N4 P4. equal(M4::'a,N4) --> equal(f30(O4::'a,M4,P4),f30(O4::'a,N4,P4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2583	(\<forall>Q4 S4 T4 R4. equal(Q4::'a,R4) --> equal(f30(S4::'a,T4,Q4),f30(S4::'a,T4,R4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2584	(\<forall>U4 V4 W4 X4. equal(U4::'a,V4) --> equal(f31(U4::'a,W4,X4),f31(V4::'a,W4,X4))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2585	(\<forall>Y4 A5 Z4 B5. equal(Y4::'a,Z4) --> equal(f31(A5::'a,Y4,B5),f31(A5::'a,Z4,B5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2586	(\<forall>C5 E5 F5 D5. equal(C5::'a,D5) --> equal(f31(E5::'a,F5,C5),f31(E5::'a,F5,D5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2587	(\<forall>G5 H5 I5 J5 K5 L5. equal(G5::'a,H5) --> equal(f32(G5::'a,I5,J5,K5,L5),f32(H5::'a,I5,J5,K5,L5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2588	(\<forall>M5 O5 N5 P5 Q5 R5. equal(M5::'a,N5) --> equal(f32(O5::'a,M5,P5,Q5,R5),f32(O5::'a,N5,P5,Q5,R5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2589	(\<forall>S5 U5 V5 T5 W5 X5. equal(S5::'a,T5) --> equal(f32(U5::'a,V5,S5,W5,X5),f32(U5::'a,V5,T5,W5,X5))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2590	(\<forall>Y5 A6 B6 C6 Z5 D6. equal(Y5::'a,Z5) --> equal(f32(A6::'a,B6,C6,Y5,D6),f32(A6::'a,B6,C6,Z5,D6))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2591	(\<forall>E6 G6 H6 I6 J6 F6. equal(E6::'a,F6) --> equal(f32(G6::'a,H6,I6,J6,E6),f32(G6::'a,H6,I6,J6,F6))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2592	(\<forall>K6 L6 M6 N6 O6 P6. equal(K6::'a,L6) --> equal(f33(K6::'a,M6,N6,O6,P6),f33(L6::'a,M6,N6,O6,P6))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2593	(\<forall>Q6 S6 R6 T6 U6 V6. equal(Q6::'a,R6) --> equal(f33(S6::'a,Q6,T6,U6,V6),f33(S6::'a,R6,T6,U6,V6))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2594	(\<forall>W6 Y6 Z6 X6 A7 B7. equal(W6::'a,X6) --> equal(f33(Y6::'a,Z6,W6,A7,B7),f33(Y6::'a,Z6,X6,A7,B7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2595	(\<forall>C7 E7 F7 G7 D7 H7. equal(C7::'a,D7) --> equal(f33(E7::'a,F7,G7,C7,H7),f33(E7::'a,F7,G7,D7,H7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2596	(\<forall>I7 K7 L7 M7 N7 J7. equal(I7::'a,J7) --> equal(f33(K7::'a,L7,M7,N7,I7),f33(K7::'a,L7,M7,N7,J7))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2597	(\<forall>A B C. equal(A::'a,B) --> equal(apply(A::'a,C),apply(B::'a,C))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2598	(\<forall>D F' E. equal(D::'a,E) --> equal(apply(F'::'a,D),apply(F'::'a,E))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2599	(\<forall>G H I' J. equal(G::'a,H) --> equal(apply_to_two_arguments(G::'a,I',J),apply_to_two_arguments(H::'a,I',J))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2600	(\<forall>K' M L N. equal(K'::'a,L) --> equal(apply_to_two_arguments(M::'a,K',N),apply_to_two_arguments(M::'a,L,N))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2601	(\<forall>O' Q R P. equal(O'::'a,P) --> equal(apply_to_two_arguments(Q::'a,R,O'),apply_to_two_arguments(Q::'a,R,P))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2602	(\<forall>S' T'. equal(S'::'a,T') --> equal(complement(S'),complement(T'))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2603	(\<forall>U V W. equal(U::'a,V) --> equal(composition(U::'a,W),composition(V::'a,W))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2604	(\<forall>X Z Y. equal(X::'a,Y) --> equal(composition(Z::'a,X),composition(Z::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2605	(\<forall>A1 B1. equal(A1::'a,B1) --> equal(inv1 A1,inv1 B1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2606	(\<forall>C1 D1 E1. equal(C1::'a,D1) --> equal(cross_product(C1::'a,E1),cross_product(D1::'a,E1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2607	(\<forall>F1 H1 G1. equal(F1::'a,G1) --> equal(cross_product(H1::'a,F1),cross_product(H1::'a,G1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2608	(\<forall>I1 J1. equal(I1::'a,J1) --> equal(domain_of(I1),domain_of(J1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2609	(\<forall>I10 J10. equal(I10::'a,J10) --> equal(first(I10),first(J10))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2610	(\<forall>Q10 R10. equal(Q10::'a,R10) --> equal(flip_range_of(Q10),flip_range_of(R10))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2611	(\<forall>S10 T10 U10. equal(S10::'a,T10) --> equal(image'(S10::'a,U10),image'(T10::'a,U10))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2612	(\<forall>V10 X10 W10. equal(V10::'a,W10) --> equal(image'(X10::'a,V10),image'(X10::'a,W10))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2613	(\<forall>Y10 Z10 A11. equal(Y10::'a,Z10) --> equal(intersection(Y10::'a,A11),intersection(Z10::'a,A11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2614	(\<forall>B11 D11 C11. equal(B11::'a,C11) --> equal(intersection(D11::'a,B11),intersection(D11::'a,C11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2615	(\<forall>E11 F11 G11. equal(E11::'a,F11) --> equal(non_ordered_pair(E11::'a,G11),non_ordered_pair(F11::'a,G11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2616	(\<forall>H11 J11 I11. equal(H11::'a,I11) --> equal(non_ordered_pair(J11::'a,H11),non_ordered_pair(J11::'a,I11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2617	(\<forall>K11 L11 M11. equal(K11::'a,L11) --> equal(ordered_pair(K11::'a,M11),ordered_pair(L11::'a,M11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2618	(\<forall>N11 P11 O11. equal(N11::'a,O11) --> equal(ordered_pair(P11::'a,N11),ordered_pair(P11::'a,O11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2619	(\<forall>Q11 R11. equal(Q11::'a,R11) --> equal(powerset(Q11),powerset(R11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2620	(\<forall>S11 T11. equal(S11::'a,T11) --> equal(range_of(S11),range_of(T11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2621	(\<forall>U11 V11 W11. equal(U11::'a,V11) --> equal(restrct(U11::'a,W11),restrct(V11::'a,W11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2622	(\<forall>X11 Z11 Y11. equal(X11::'a,Y11) --> equal(restrct(Z11::'a,X11),restrct(Z11::'a,Y11))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2623	(\<forall>A12 B12. equal(A12::'a,B12) --> equal(rot_right(A12),rot_right(B12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2624	(\<forall>C12 D12. equal(C12::'a,D12) --> equal(second(C12),second(D12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2625	(\<forall>K12 L12. equal(K12::'a,L12) --> equal(sigma(K12),sigma(L12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2626	(\<forall>M12 N12. equal(M12::'a,N12) --> equal(singleton_set(M12),singleton_set(N12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2627	(\<forall>O12 P12. equal(O12::'a,P12) --> equal(successor(O12),successor(P12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2628	(\<forall>Q12 R12 S12. equal(Q12::'a,R12) --> equal(union(Q12::'a,S12),union(R12::'a,S12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2629	(\<forall>T12 V12 U12. equal(T12::'a,U12) --> equal(union(V12::'a,T12),union(V12::'a,U12))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2630	(\<forall>W12 X12 Y12. equal(W12::'a,X12) & closed(W12::'a,Y12) --> closed(X12::'a,Y12)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2631	(\<forall>Z12 B13 A13. equal(Z12::'a,A13) & closed(B13::'a,Z12) --> closed(B13::'a,A13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2632	(\<forall>C13 D13 E13. equal(C13::'a,D13) & disjoint(C13::'a,E13) --> disjoint(D13::'a,E13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2633	(\<forall>F13 H13 G13. equal(F13::'a,G13) & disjoint(H13::'a,F13) --> disjoint(H13::'a,G13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2634	(\<forall>I13 J13. equal(I13::'a,J13) & function(I13) --> function(J13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2635	(\<forall>K13 L13 M13 N13 O13 P13. equal(K13::'a,L13) & homomorphism(K13::'a,M13,N13,O13,P13) --> homomorphism(L13::'a,M13,N13,O13,P13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2636	(\<forall>Q13 S13 R13 T13 U13 V13. equal(Q13::'a,R13) & homomorphism(S13::'a,Q13,T13,U13,V13) --> homomorphism(S13::'a,R13,T13,U13,V13)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2637	(\<forall>W13 Y13 Z13 X13 A14 B14. equal(W13::'a,X13) & homomorphism(Y13::'a,Z13,W13,A14,B14) --> homomorphism(Y13::'a,Z13,X13,A14,B14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2638	(\<forall>C14 E14 F14 G14 D14 H14. equal(C14::'a,D14) & homomorphism(E14::'a,F14,G14,C14,H14) --> homomorphism(E14::'a,F14,G14,D14,H14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2639	(\<forall>I14 K14 L14 M14 N14 J14. equal(I14::'a,J14) & homomorphism(K14::'a,L14,M14,N14,I14) --> homomorphism(K14::'a,L14,M14,N14,J14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2640	(\<forall>O14 P14. equal(O14::'a,P14) & little_set(O14) --> little_set(P14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2641	(\<forall>Q14 R14 S14 T14. equal(Q14::'a,R14) & maps(Q14::'a,S14,T14) --> maps(R14::'a,S14,T14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2642	(\<forall>U14 W14 V14 X14. equal(U14::'a,V14) & maps(W14::'a,U14,X14) --> maps(W14::'a,V14,X14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2643	(\<forall>Y14 A15 B15 Z14. equal(Y14::'a,Z14) & maps(A15::'a,B15,Y14) --> maps(A15::'a,B15,Z14)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2644	(\<forall>C15 D15 E15. equal(C15::'a,D15) & member(C15::'a,E15) --> member(D15::'a,E15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2645	(\<forall>F15 H15 G15. equal(F15::'a,G15) & member(H15::'a,F15) --> member(H15::'a,G15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2646	(\<forall>I15 J15. equal(I15::'a,J15) & one_to_one_function(I15) --> one_to_one_function(J15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2647	(\<forall>K15 L15. equal(K15::'a,L15) & ordered_pair_predicate(K15) --> ordered_pair_predicate(L15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2648	(\<forall>M15 N15 O15. equal(M15::'a,N15) & proper_subset(M15::'a,O15) --> proper_subset(N15::'a,O15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2649	(\<forall>P15 R15 Q15. equal(P15::'a,Q15) & proper_subset(R15::'a,P15) --> proper_subset(R15::'a,Q15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2650	(\<forall>S15 T15. equal(S15::'a,T15) & relation(S15) --> relation(T15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2651	(\<forall>U15 V15. equal(U15::'a,V15) & single_valued_set(U15) --> single_valued_set(V15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2652	(\<forall>W15 X15 Y15. equal(W15::'a,X15) & ssubset(W15::'a,Y15) --> ssubset(X15::'a,Y15)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2653	(\<forall>Z15 B16 A16. equal(Z15::'a,A16) & ssubset(B16::'a,Z15) --> ssubset(B16::'a,A16)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2654	(~little_set(ordered_pair(a::'a,b))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2655	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2656
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2657
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2658	(13 inferences so far. Searching to depth 8. 0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2659	lemma SET046_5:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2660	"(\<forall>Y X. ~(element(X::'a,a) & element(X::'a,Y) & element(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2661	(\<forall>X. element(X::'a,f(X)) \| element(X::'a,a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2662	(\<forall>X. element(f(X),X) \| element(X::'a,a)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2663	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2664
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2665	(33 inferences so far. Searching to depth 9. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2666	lemma SET047_5:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2667	"(\<forall>X Z Y. set_equal(X::'a,Y) & element(Z::'a,X) --> element(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2668	(\<forall>Y Z X. set_equal(X::'a,Y) & element(Z::'a,Y) --> element(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2669	(\<forall>X Y. element(f(X::'a,Y),X) \| element(f(X::'a,Y),Y) \| set_equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2670	(\<forall>X Y. element(f(X::'a,Y),Y) & element(f(X::'a,Y),X) --> set_equal(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2671	(set_equal(a::'a,b) \| set_equal(b::'a,a)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2672	(~(set_equal(b::'a,a) & set_equal(a::'a,b))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2673	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2674
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2675	(311 inferences so far. Searching to depth 12. 0.1 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2676	lemma SYN034_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2677	"(\<forall>A. p(A::'a,a) \| p(A::'a,f(A))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2678	(\<forall>A. p(A::'a,a) \| p(f(A),A)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2679	(\<forall>A B. ~(p(A::'a,B) & p(B::'a,A) & p(B::'a,a))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2680	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2681
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2682	(30 inferences so far. Searching to depth 6. 0.2 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2683	lemma SYN071_1:
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2684	"EQU001_0_ax equal &
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2685	(equal(a::'a,b) \| equal(c::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2686	(equal(a::'a,c) \| equal(b::'a,d)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2687	(~equal(a::'a,d)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2688	(~equal(b::'a,c)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2689	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2690
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2691	(*1897410 inferences so far. Searching to depth 48
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2692	206s, nearly 4 mins on griffon.*)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2693	lemma SYN349_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2694	"(\<forall>X Y. f(w(X),g(X::'a,Y)) --> f(X::'a,g(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2695	(\<forall>X Y. f(X::'a,g(X::'a,Y)) --> f(w(X),g(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2696	(\<forall>Y X. f(X::'a,g(X::'a,Y)) & f(Y::'a,g(X::'a,Y)) --> f(g(X::'a,Y),Y) \| f(g(X::'a,Y),w(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2697	(\<forall>Y X. f(g(X::'a,Y),Y) & f(Y::'a,g(X::'a,Y)) --> f(X::'a,g(X::'a,Y)) \| f(g(X::'a,Y),w(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2698	(\<forall>Y X. f(X::'a,g(X::'a,Y)) \| f(g(X::'a,Y),Y) \| f(Y::'a,g(X::'a,Y)) \| f(g(X::'a,Y),w(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2699	(\<forall>Y X. f(X::'a,g(X::'a,Y)) & f(g(X::'a,Y),Y) --> f(Y::'a,g(X::'a,Y)) \| f(g(X::'a,Y),w(X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2700	(\<forall>Y X. f(X::'a,g(X::'a,Y)) & f(g(X::'a,Y),w(X)) --> f(g(X::'a,Y),Y) \| f(Y::'a,g(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2701	(\<forall>Y X. f(g(X::'a,Y),Y) & f(g(X::'a,Y),w(X)) --> f(X::'a,g(X::'a,Y)) \| f(Y::'a,g(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2702	(\<forall>Y X. f(Y::'a,g(X::'a,Y)) & f(g(X::'a,Y),w(X)) --> f(X::'a,g(X::'a,Y)) \| f(g(X::'a,Y),Y)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2703	(\<forall>Y X. ~(f(X::'a,g(X::'a,Y)) & f(g(X::'a,Y),Y) & f(Y::'a,g(X::'a,Y)) & f(g(X::'a,Y),w(X)))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2704	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2705
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2706	(398 inferences so far. Searching to depth 12. 0.4 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2707	lemma SYN352_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2708	"(f(a::'a,b)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2709	(\<forall>X Y. f(X::'a,Y) --> f(b::'a,z(X::'a,Y)) \| f(Y::'a,z(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2710	(\<forall>X Y. f(X::'a,Y) \| f(z(X::'a,Y),z(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2711	(\<forall>X Y. f(b::'a,z(X::'a,Y)) \| f(X::'a,z(X::'a,Y)) \| f(z(X::'a,Y),z(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2712	(\<forall>X Y. f(b::'a,z(X::'a,Y)) & f(X::'a,z(X::'a,Y)) --> f(z(X::'a,Y),z(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2713	(\<forall>X Y. ~(f(X::'a,Y) & f(X::'a,z(X::'a,Y)) & f(Y::'a,z(X::'a,Y)))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2714	(\<forall>X Y. f(X::'a,Y) --> f(X::'a,z(X::'a,Y)) \| f(Y::'a,z(X::'a,Y))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2715	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2716
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2717	(5336 inferences so far. Searching to depth 15. 5.3 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2718	lemma TOP001_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2719	"(\<forall>Vf U. element_of_set(U::'a,union_of_members(Vf)) --> element_of_set(U::'a,f1(Vf::'a,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2720	(\<forall>U Vf. element_of_set(U::'a,union_of_members(Vf)) --> element_of_collection(f1(Vf::'a,U),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2721	(\<forall>U Uu1 Vf. element_of_set(U::'a,Uu1) & element_of_collection(Uu1::'a,Vf) --> element_of_set(U::'a,union_of_members(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2722	(\<forall>Vf X. basis(X::'a,Vf) --> equal_sets(union_of_members(Vf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2723	(\<forall>Vf U X. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_set(X::'a,f10(Vf::'a,U,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2724	(\<forall>U X Vf. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_collection(f10(Vf::'a,U,X),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2725	(\<forall>X. subset_sets(X::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2726	(\<forall>X U Y. subset_sets(X::'a,Y) & element_of_set(U::'a,X) --> element_of_set(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2727	(\<forall>X Y. equal_sets(X::'a,Y) --> subset_sets(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2728	(\<forall>Y X. subset_sets(X::'a,Y) \| element_of_set(in_1st_set(X::'a,Y),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2729	(\<forall>X Y. element_of_set(in_1st_set(X::'a,Y),Y) --> subset_sets(X::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2730	(basis(cx::'a,f)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2731	(~subset_sets(union_of_members(top_of_basis(f)),cx)) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2732	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2733
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2734	(0 inferences so far. Searching to depth 0. 0 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2735	lemma TOP002_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2736	"(\<forall>Vf U. element_of_collection(U::'a,top_of_basis(Vf)) \| element_of_set(f11(Vf::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2737	(\<forall>X. ~element_of_set(X::'a,empty_set)) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2738	(~element_of_collection(empty_set::'a,top_of_basis(f))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2739	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2740
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2741	(0 inferences so far. Searching to depth 0. 6.5 secs. BIG)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2742	lemma TOP004_1:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2743	"(\<forall>Vf U. element_of_set(U::'a,union_of_members(Vf)) --> element_of_set(U::'a,f1(Vf::'a,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2744	(\<forall>U Vf. element_of_set(U::'a,union_of_members(Vf)) --> element_of_collection(f1(Vf::'a,U),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2745	(\<forall>U Uu1 Vf. element_of_set(U::'a,Uu1) & element_of_collection(Uu1::'a,Vf) --> element_of_set(U::'a,union_of_members(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2746	(\<forall>Vf U Va. element_of_set(U::'a,intersection_of_members(Vf)) & element_of_collection(Va::'a,Vf) --> element_of_set(U::'a,Va)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2747	(\<forall>U Vf. element_of_set(U::'a,intersection_of_members(Vf)) \| element_of_collection(f2(Vf::'a,U),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2748	(\<forall>Vf U. element_of_set(U::'a,f2(Vf::'a,U)) --> element_of_set(U::'a,intersection_of_members(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2749	(\<forall>Vt X. topological_space(X::'a,Vt) --> equal_sets(union_of_members(Vt),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2750	(\<forall>X Vt. topological_space(X::'a,Vt) --> element_of_collection(empty_set::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2751	(\<forall>X Vt. topological_space(X::'a,Vt) --> element_of_collection(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2752	(\<forall>X Y Z Vt. topological_space(X::'a,Vt) & element_of_collection(Y::'a,Vt) & element_of_collection(Z::'a,Vt) --> element_of_collection(intersection_of_sets(Y::'a,Z),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2753	(\<forall>X Vf Vt. topological_space(X::'a,Vt) & subset_collections(Vf::'a,Vt) --> element_of_collection(union_of_members(Vf),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2754	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) --> topological_space(X::'a,Vt) \| element_of_collection(f3(X::'a,Vt),Vt) \| subset_collections(f5(X::'a,Vt),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2755	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) & element_of_collection(union_of_members(f5(X::'a,Vt)),Vt) --> topological_space(X::'a,Vt) \| element_of_collection(f3(X::'a,Vt),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2756	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) --> topological_space(X::'a,Vt) \| element_of_collection(f4(X::'a,Vt),Vt) \| subset_collections(f5(X::'a,Vt),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2757	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) & element_of_collection(union_of_members(f5(X::'a,Vt)),Vt) --> topological_space(X::'a,Vt) \| element_of_collection(f4(X::'a,Vt),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2758	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) & element_of_collection(intersection_of_sets(f3(X::'a,Vt),f4(X::'a,Vt)),Vt) --> topological_space(X::'a,Vt) \| subset_collections(f5(X::'a,Vt),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2759	(\<forall>X Vt. equal_sets(union_of_members(Vt),X) & element_of_collection(empty_set::'a,Vt) & element_of_collection(X::'a,Vt) & element_of_collection(intersection_of_sets(f3(X::'a,Vt),f4(X::'a,Vt)),Vt) & element_of_collection(union_of_members(f5(X::'a,Vt)),Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2760	(\<forall>U X Vt. open(U::'a,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2761	(\<forall>X U Vt. open(U::'a,X,Vt) --> element_of_collection(U::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2762	(\<forall>X U Vt. topological_space(X::'a,Vt) & element_of_collection(U::'a,Vt) --> open(U::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2763	(\<forall>U X Vt. closed(U::'a,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2764	(\<forall>U X Vt. closed(U::'a,X,Vt) --> open(relative_complement_sets(U::'a,X),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2765	(\<forall>U X Vt. topological_space(X::'a,Vt) & open(relative_complement_sets(U::'a,X),X,Vt) --> closed(U::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2766	(\<forall>Vs X Vt. finer(Vt::'a,Vs,X) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2767	(\<forall>Vt X Vs. finer(Vt::'a,Vs,X) --> topological_space(X::'a,Vs)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2768	(\<forall>X Vs Vt. finer(Vt::'a,Vs,X) --> subset_collections(Vs::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2769	(\<forall>X Vs Vt. topological_space(X::'a,Vt) & topological_space(X::'a,Vs) & subset_collections(Vs::'a,Vt) --> finer(Vt::'a,Vs,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2770	(\<forall>Vf X. basis(X::'a,Vf) --> equal_sets(union_of_members(Vf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2771	(\<forall>X Vf Y Vb1 Vb2. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> element_of_set(Y::'a,f6(X::'a,Vf,Y,Vb1,Vb2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2772	(\<forall>X Y Vb1 Vb2 Vf. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> element_of_collection(f6(X::'a,Vf,Y,Vb1,Vb2),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2773	(\<forall>X Vf Y Vb1 Vb2. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> subset_sets(f6(X::'a,Vf,Y,Vb1,Vb2),intersection_of_sets(Vb1::'a,Vb2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2774	(\<forall>Vf X. equal_sets(union_of_members(Vf),X) --> basis(X::'a,Vf) \| element_of_set(f7(X::'a,Vf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2775	(\<forall>X Vf. equal_sets(union_of_members(Vf),X) --> basis(X::'a,Vf) \| element_of_collection(f8(X::'a,Vf),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2776	(\<forall>X Vf. equal_sets(union_of_members(Vf),X) --> basis(X::'a,Vf) \| element_of_collection(f9(X::'a,Vf),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2777	(\<forall>X Vf. equal_sets(union_of_members(Vf),X) --> basis(X::'a,Vf) \| element_of_set(f7(X::'a,Vf),intersection_of_sets(f8(X::'a,Vf),f9(X::'a,Vf)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2778	(\<forall>Uu9 X Vf. equal_sets(union_of_members(Vf),X) & element_of_set(f7(X::'a,Vf),Uu9) & element_of_collection(Uu9::'a,Vf) & subset_sets(Uu9::'a,intersection_of_sets(f8(X::'a,Vf),f9(X::'a,Vf))) --> basis(X::'a,Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2779	(\<forall>Vf U X. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_set(X::'a,f10(Vf::'a,U,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2780	(\<forall>U X Vf. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_collection(f10(Vf::'a,U,X),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2781	(\<forall>Vf X U. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> subset_sets(f10(Vf::'a,U,X),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2782	(\<forall>Vf U. element_of_collection(U::'a,top_of_basis(Vf)) \| element_of_set(f11(Vf::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2783	(\<forall>Vf Uu11 U. element_of_set(f11(Vf::'a,U),Uu11) & element_of_collection(Uu11::'a,Vf) & subset_sets(Uu11::'a,U) --> element_of_collection(U::'a,top_of_basis(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2784	(\<forall>U Y X Vt. element_of_collection(U::'a,subspace_topology(X::'a,Vt,Y)) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2785	(\<forall>U Vt Y X. element_of_collection(U::'a,subspace_topology(X::'a,Vt,Y)) --> subset_sets(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2786	(\<forall>X Y U Vt. element_of_collection(U::'a,subspace_topology(X::'a,Vt,Y)) --> element_of_collection(f12(X::'a,Vt,Y,U),Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2787	(\<forall>X Vt Y U. element_of_collection(U::'a,subspace_topology(X::'a,Vt,Y)) --> equal_sets(U::'a,intersection_of_sets(Y::'a,f12(X::'a,Vt,Y,U)))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2788	(\<forall>X Vt U Y Uu12. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) & element_of_collection(Uu12::'a,Vt) & equal_sets(U::'a,intersection_of_sets(Y::'a,Uu12)) --> element_of_collection(U::'a,subspace_topology(X::'a,Vt,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2789	(\<forall>U Y X Vt. element_of_set(U::'a,interior(Y::'a,X,Vt)) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2790	(\<forall>U Vt Y X. element_of_set(U::'a,interior(Y::'a,X,Vt)) --> subset_sets(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2791	(\<forall>Y X Vt U. element_of_set(U::'a,interior(Y::'a,X,Vt)) --> element_of_set(U::'a,f13(Y::'a,X,Vt,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2792	(\<forall>X Vt U Y. element_of_set(U::'a,interior(Y::'a,X,Vt)) --> subset_sets(f13(Y::'a,X,Vt,U),Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2793	(\<forall>Y U X Vt. element_of_set(U::'a,interior(Y::'a,X,Vt)) --> open(f13(Y::'a,X,Vt,U),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2794	(\<forall>U Y Uu13 X Vt. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) & element_of_set(U::'a,Uu13) & subset_sets(Uu13::'a,Y) & open(Uu13::'a,X,Vt) --> element_of_set(U::'a,interior(Y::'a,X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2795	(\<forall>U Y X Vt. element_of_set(U::'a,closure(Y::'a,X,Vt)) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2796	(\<forall>U Vt Y X. element_of_set(U::'a,closure(Y::'a,X,Vt)) --> subset_sets(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2797	(\<forall>Y X Vt U V. element_of_set(U::'a,closure(Y::'a,X,Vt)) & subset_sets(Y::'a,V) & closed(V::'a,X,Vt) --> element_of_set(U::'a,V)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2798	(\<forall>Y X Vt U. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) --> element_of_set(U::'a,closure(Y::'a,X,Vt)) \| subset_sets(Y::'a,f14(Y::'a,X,Vt,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2799	(\<forall>Y U X Vt. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) --> element_of_set(U::'a,closure(Y::'a,X,Vt)) \| closed(f14(Y::'a,X,Vt,U),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2800	(\<forall>Y X Vt U. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) & element_of_set(U::'a,f14(Y::'a,X,Vt,U)) --> element_of_set(U::'a,closure(Y::'a,X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2801	(\<forall>U Y X Vt. neighborhood(U::'a,Y,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2802	(\<forall>Y U X Vt. neighborhood(U::'a,Y,X,Vt) --> open(U::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2803	(\<forall>X Vt Y U. neighborhood(U::'a,Y,X,Vt) --> element_of_set(Y::'a,U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2804	(\<forall>X Vt Y U. topological_space(X::'a,Vt) & open(U::'a,X,Vt) & element_of_set(Y::'a,U) --> neighborhood(U::'a,Y,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2805	(\<forall>Z Y X Vt. limit_point(Z::'a,Y,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2806	(\<forall>Z Vt Y X. limit_point(Z::'a,Y,X,Vt) --> subset_sets(Y::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2807	(\<forall>Z X Vt U Y. limit_point(Z::'a,Y,X,Vt) & neighborhood(U::'a,Z,X,Vt) --> element_of_set(f15(Z::'a,Y,X,Vt,U),intersection_of_sets(U::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2808	(\<forall>Y X Vt U Z. ~(limit_point(Z::'a,Y,X,Vt) & neighborhood(U::'a,Z,X,Vt) & eq_p(f15(Z::'a,Y,X,Vt,U),Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2809	(\<forall>Y Z X Vt. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) --> limit_point(Z::'a,Y,X,Vt) \| neighborhood(f16(Z::'a,Y,X,Vt),Z,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2810	(\<forall>X Vt Y Uu16 Z. topological_space(X::'a,Vt) & subset_sets(Y::'a,X) & element_of_set(Uu16::'a,intersection_of_sets(f16(Z::'a,Y,X,Vt),Y)) --> limit_point(Z::'a,Y,X,Vt) \| eq_p(Uu16::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2811	(\<forall>U Y X Vt. element_of_set(U::'a,boundary(Y::'a,X,Vt)) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2812	(\<forall>U Y X Vt. element_of_set(U::'a,boundary(Y::'a,X,Vt)) --> element_of_set(U::'a,closure(Y::'a,X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2813	(\<forall>U Y X Vt. element_of_set(U::'a,boundary(Y::'a,X,Vt)) --> element_of_set(U::'a,closure(relative_complement_sets(Y::'a,X),X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2814	(\<forall>U Y X Vt. topological_space(X::'a,Vt) & element_of_set(U::'a,closure(Y::'a,X,Vt)) & element_of_set(U::'a,closure(relative_complement_sets(Y::'a,X),X,Vt)) --> element_of_set(U::'a,boundary(Y::'a,X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2815	(\<forall>X Vt. hausdorff(X::'a,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2816	(\<forall>X_2 X_1 X Vt. hausdorff(X::'a,Vt) & element_of_set(X_1::'a,X) & element_of_set(X_2::'a,X) --> eq_p(X_1::'a,X_2) \| neighborhood(f17(X::'a,Vt,X_1,X_2),X_1,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2817	(\<forall>X_1 X_2 X Vt. hausdorff(X::'a,Vt) & element_of_set(X_1::'a,X) & element_of_set(X_2::'a,X) --> eq_p(X_1::'a,X_2) \| neighborhood(f18(X::'a,Vt,X_1,X_2),X_2,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2818	(\<forall>X Vt X_1 X_2. hausdorff(X::'a,Vt) & element_of_set(X_1::'a,X) & element_of_set(X_2::'a,X) --> eq_p(X_1::'a,X_2) \| disjoint_s(f17(X::'a,Vt,X_1,X_2),f18(X::'a,Vt,X_1,X_2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2819	(\<forall>Vt X. topological_space(X::'a,Vt) --> hausdorff(X::'a,Vt) \| element_of_set(f19(X::'a,Vt),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2820	(\<forall>Vt X. topological_space(X::'a,Vt) --> hausdorff(X::'a,Vt) \| element_of_set(f20(X::'a,Vt),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2821	(\<forall>X Vt. topological_space(X::'a,Vt) & eq_p(f19(X::'a,Vt),f20(X::'a,Vt)) --> hausdorff(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2822	(\<forall>X Vt Uu19 Uu20. topological_space(X::'a,Vt) & neighborhood(Uu19::'a,f19(X::'a,Vt),X,Vt) & neighborhood(Uu20::'a,f20(X::'a,Vt),X,Vt) & disjoint_s(Uu19::'a,Uu20) --> hausdorff(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2823	(\<forall>Va1 Va2 X Vt. separation(Va1::'a,Va2,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2824	(\<forall>Va2 X Vt Va1. ~(separation(Va1::'a,Va2,X,Vt) & equal_sets(Va1::'a,empty_set))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2825	(\<forall>Va1 X Vt Va2. ~(separation(Va1::'a,Va2,X,Vt) & equal_sets(Va2::'a,empty_set))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2826	(\<forall>Va2 X Va1 Vt. separation(Va1::'a,Va2,X,Vt) --> element_of_collection(Va1::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2827	(\<forall>Va1 X Va2 Vt. separation(Va1::'a,Va2,X,Vt) --> element_of_collection(Va2::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2828	(\<forall>Vt Va1 Va2 X. separation(Va1::'a,Va2,X,Vt) --> equal_sets(union_of_sets(Va1::'a,Va2),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2829	(\<forall>X Vt Va1 Va2. separation(Va1::'a,Va2,X,Vt) --> disjoint_s(Va1::'a,Va2)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2830	(\<forall>Vt X Va1 Va2. topological_space(X::'a,Vt) & element_of_collection(Va1::'a,Vt) & element_of_collection(Va2::'a,Vt) & equal_sets(union_of_sets(Va1::'a,Va2),X) & disjoint_s(Va1::'a,Va2) --> separation(Va1::'a,Va2,X,Vt) \| equal_sets(Va1::'a,empty_set) \| equal_sets(Va2::'a,empty_set)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2831	(\<forall>X Vt. connected_space(X::'a,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2832	(\<forall>Va1 Va2 X Vt. ~(connected_space(X::'a,Vt) & separation(Va1::'a,Va2,X,Vt))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2833	(\<forall>X Vt. topological_space(X::'a,Vt) --> connected_space(X::'a,Vt) \| separation(f21(X::'a,Vt),f22(X::'a,Vt),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2834	(\<forall>Va X Vt. connected_set(Va::'a,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2835	(\<forall>Vt Va X. connected_set(Va::'a,X,Vt) --> subset_sets(Va::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2836	(\<forall>X Vt Va. connected_set(Va::'a,X,Vt) --> connected_space(Va::'a,subspace_topology(X::'a,Vt,Va))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2837	(\<forall>X Vt Va. topological_space(X::'a,Vt) & subset_sets(Va::'a,X) & connected_space(Va::'a,subspace_topology(X::'a,Vt,Va)) --> connected_set(Va::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2838	(\<forall>Vf X Vt. open_covering(Vf::'a,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2839	(\<forall>X Vf Vt. open_covering(Vf::'a,X,Vt) --> subset_collections(Vf::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2840	(\<forall>Vt Vf X. open_covering(Vf::'a,X,Vt) --> equal_sets(union_of_members(Vf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2841	(\<forall>Vt Vf X. topological_space(X::'a,Vt) & subset_collections(Vf::'a,Vt) & equal_sets(union_of_members(Vf),X) --> open_covering(Vf::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2842	(\<forall>X Vt. compact_space(X::'a,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2843	(\<forall>X Vt Vf1. compact_space(X::'a,Vt) & open_covering(Vf1::'a,X,Vt) --> finite'(f23(X::'a,Vt,Vf1))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2844	(\<forall>X Vt Vf1. compact_space(X::'a,Vt) & open_covering(Vf1::'a,X,Vt) --> subset_collections(f23(X::'a,Vt,Vf1),Vf1)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2845	(\<forall>Vf1 X Vt. compact_space(X::'a,Vt) & open_covering(Vf1::'a,X,Vt) --> open_covering(f23(X::'a,Vt,Vf1),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2846	(\<forall>X Vt. topological_space(X::'a,Vt) --> compact_space(X::'a,Vt) \| open_covering(f24(X::'a,Vt),X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2847	(\<forall>Uu24 X Vt. topological_space(X::'a,Vt) & finite'(Uu24) & subset_collections(Uu24::'a,f24(X::'a,Vt)) & open_covering(Uu24::'a,X,Vt) --> compact_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2848	(\<forall>Va X Vt. compact_set(Va::'a,X,Vt) --> topological_space(X::'a,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2849	(\<forall>Vt Va X. compact_set(Va::'a,X,Vt) --> subset_sets(Va::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2850	(\<forall>X Vt Va. compact_set(Va::'a,X,Vt) --> compact_space(Va::'a,subspace_topology(X::'a,Vt,Va))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2851	(\<forall>X Vt Va. topological_space(X::'a,Vt) & subset_sets(Va::'a,X) & compact_space(Va::'a,subspace_topology(X::'a,Vt,Va)) --> compact_set(Va::'a,X,Vt)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2852	(basis(cx::'a,f)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2853	(\<forall>U. element_of_collection(U::'a,top_of_basis(f))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2854	(\<forall>V. element_of_collection(V::'a,top_of_basis(f))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2855	(\<forall>U V. ~element_of_collection(intersection_of_sets(U::'a,V),top_of_basis(f))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2856	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2857
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2858
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2859	(0 inferences so far. Searching to depth 0. 0.8 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2860	lemma TOP004_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2861	"(\<forall>U Uu1 Vf. element_of_set(U::'a,Uu1) & element_of_collection(Uu1::'a,Vf) --> element_of_set(U::'a,union_of_members(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2862	(\<forall>Vf X. basis(X::'a,Vf) --> equal_sets(union_of_members(Vf),X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2863	(\<forall>X Vf Y Vb1 Vb2. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> element_of_set(Y::'a,f6(X::'a,Vf,Y,Vb1,Vb2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2864	(\<forall>X Y Vb1 Vb2 Vf. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> element_of_collection(f6(X::'a,Vf,Y,Vb1,Vb2),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2865	(\<forall>X Vf Y Vb1 Vb2. basis(X::'a,Vf) & element_of_set(Y::'a,X) & element_of_collection(Vb1::'a,Vf) & element_of_collection(Vb2::'a,Vf) & element_of_set(Y::'a,intersection_of_sets(Vb1::'a,Vb2)) --> subset_sets(f6(X::'a,Vf,Y,Vb1,Vb2),intersection_of_sets(Vb1::'a,Vb2))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2866	(\<forall>Vf U X. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_set(X::'a,f10(Vf::'a,U,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2867	(\<forall>U X Vf. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_collection(f10(Vf::'a,U,X),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2868	(\<forall>Vf X U. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> subset_sets(f10(Vf::'a,U,X),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2869	(\<forall>Vf U. element_of_collection(U::'a,top_of_basis(Vf)) \| element_of_set(f11(Vf::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2870	(\<forall>Vf Uu11 U. element_of_set(f11(Vf::'a,U),Uu11) & element_of_collection(Uu11::'a,Vf) & subset_sets(Uu11::'a,U) --> element_of_collection(U::'a,top_of_basis(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2871	(\<forall>Y X Z. subset_sets(X::'a,Y) & subset_sets(Y::'a,Z) --> subset_sets(X::'a,Z)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2872	(\<forall>Y Z X. element_of_set(Z::'a,intersection_of_sets(X::'a,Y)) --> element_of_set(Z::'a,X)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2873	(\<forall>X Z Y. element_of_set(Z::'a,intersection_of_sets(X::'a,Y)) --> element_of_set(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2874	(\<forall>X Z Y. element_of_set(Z::'a,X) & element_of_set(Z::'a,Y) --> element_of_set(Z::'a,intersection_of_sets(X::'a,Y))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2875	(\<forall>X U Y V. subset_sets(X::'a,Y) & subset_sets(U::'a,V) --> subset_sets(intersection_of_sets(X::'a,U),intersection_of_sets(Y::'a,V))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2876	(\<forall>X Z Y. equal_sets(X::'a,Y) & element_of_set(Z::'a,X) --> element_of_set(Z::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2877	(\<forall>Y X. equal_sets(intersection_of_sets(X::'a,Y),intersection_of_sets(Y::'a,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2878	(basis(cx::'a,f)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2879	(\<forall>U. element_of_collection(U::'a,top_of_basis(f))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2880	(\<forall>V. element_of_collection(V::'a,top_of_basis(f))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2881	(\<forall>U V. ~element_of_collection(intersection_of_sets(U::'a,V),top_of_basis(f))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2882	by meson
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2883
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2884	(53777 inferences so far. Searching to depth 20. 68.7 secs)
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2885	lemma TOP005_2:
24128 654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2886	"(\<forall>Vf U. element_of_set(U::'a,union_of_members(Vf)) --> element_of_set(U::'a,f1(Vf::'a,U))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2887	(\<forall>U Vf. element_of_set(U::'a,union_of_members(Vf)) --> element_of_collection(f1(Vf::'a,U),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2888	(\<forall>Vf U X. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_set(X::'a,f10(Vf::'a,U,X))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2889	(\<forall>U X Vf. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> element_of_collection(f10(Vf::'a,U,X),Vf)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2890	(\<forall>Vf X U. element_of_collection(U::'a,top_of_basis(Vf)) & element_of_set(X::'a,U) --> subset_sets(f10(Vf::'a,U,X),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2891	(\<forall>Vf U. element_of_collection(U::'a,top_of_basis(Vf)) \| element_of_set(f11(Vf::'a,U),U)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2892	(\<forall>Vf Uu11 U. element_of_set(f11(Vf::'a,U),Uu11) & element_of_collection(Uu11::'a,Vf) & subset_sets(Uu11::'a,U) --> element_of_collection(U::'a,top_of_basis(Vf))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2893	(\<forall>X U Y. element_of_set(U::'a,X) --> subset_sets(X::'a,Y) \| element_of_set(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2894	(\<forall>Y X Z. subset_sets(X::'a,Y) & element_of_collection(Y::'a,Z) --> subset_sets(X::'a,union_of_members(Z))) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2895	(\<forall>X U Y. subset_collections(X::'a,Y) & element_of_collection(U::'a,X) --> element_of_collection(U::'a,Y)) &
654b3a988f6a tuned; wenzelm parents: 24127 diff changeset	2896	(subset_collections(g::'a,top_of_basis(f))) &
24127 a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2897	(~element_of_collection(union_of_members(g),top_of_basis(f))) --> False"
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2898	oops
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2899
a56b6ed2e49c converted Meson tests to proper theory; wenzelm parents: diff changeset	2900	end

author	haftmann
	Tue, 13 Oct 2015 09:21:15 +0200
changeset 61424	c3658c18b7bc
parent 61343	5b5656a63bd6
child 61933	cf58b5b794b2
permissions	-rw-r--r--