clwwisshclwws

Description: Cyclically shifting a closed walk as word results in a closed walk as word (in an undirected graph). (Contributed by Alexander van der Vekens, 24-Mar-2018) (Revised by AV, 28-Apr-2021)

		Ref	Expression
	Assertion	clwwisshclwws	\|- ( ( W e. ( ClWWalks ` G ) /\ N e. ( 0 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) e. ( ClWWalks ` G ) )

Proof

Step	Hyp	Ref	Expression
1		eqid	\|- ( Vtx ` G ) = ( Vtx ` G )
2	1	clwwlkbp	\|- ( W e. ( ClWWalks ` G ) -> ( G e. _V /\ W e. Word ( Vtx ` G ) /\ W =/= (/) ) )
3		cshw0	\|- ( W e. Word ( Vtx ` G ) -> ( W cyclShift 0 ) = W )
4	3	3ad2ant2	\|- ( ( G e. _V /\ W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( W cyclShift 0 ) = W )
5	4	eleq1d	\|- ( ( G e. _V /\ W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( ( W cyclShift 0 ) e. ( ClWWalks ` G ) <-> W e. ( ClWWalks ` G ) ) )
6	5	biimprd	\|- ( ( G e. _V /\ W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( W e. ( ClWWalks ` G ) -> ( W cyclShift 0 ) e. ( ClWWalks ` G ) ) )
7	2 6	mpcom	\|- ( W e. ( ClWWalks ` G ) -> ( W cyclShift 0 ) e. ( ClWWalks ` G ) )
8		oveq2	\|- ( N = 0 -> ( W cyclShift N ) = ( W cyclShift 0 ) )
9	8	eleq1d	\|- ( N = 0 -> ( ( W cyclShift N ) e. ( ClWWalks ` G ) <-> ( W cyclShift 0 ) e. ( ClWWalks ` G ) ) )
10	7 9	syl5ibrcom	\|- ( W e. ( ClWWalks ` G ) -> ( N = 0 -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) )
11	10	adantr	\|- ( ( W e. ( ClWWalks ` G ) /\ N e. ( 0 ..^ ( # ` W ) ) ) -> ( N = 0 -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) )
12		fzo1fzo0n0	\|- ( N e. ( 1 ..^ ( # ` W ) ) <-> ( N e. ( 0 ..^ ( # ` W ) ) /\ N =/= 0 ) )
13		cshwcl	\|- ( W e. Word ( Vtx ` G ) -> ( W cyclShift N ) e. Word ( Vtx ` G ) )
14	13	adantr	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( W cyclShift N ) e. Word ( Vtx ` G ) )
15	14	3ad2ant1	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> ( W cyclShift N ) e. Word ( Vtx ` G ) )
16	15	adantr	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) e. Word ( Vtx ` G ) )
17		simpl	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> W e. Word ( Vtx ` G ) )
18		elfzoelz	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> N e. ZZ )
19		cshwlen	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ZZ ) -> ( # ` ( W cyclShift N ) ) = ( # ` W ) )
20	17 18 19	syl2an	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( # ` ( W cyclShift N ) ) = ( # ` W ) )
21		hasheq0	\|- ( W e. Word ( Vtx ` G ) -> ( ( # ` W ) = 0 <-> W = (/) ) )
22	21	bicomd	\|- ( W e. Word ( Vtx ` G ) -> ( W = (/) <-> ( # ` W ) = 0 ) )
23	22	necon3bid	\|- ( W e. Word ( Vtx ` G ) -> ( W =/= (/) <-> ( # ` W ) =/= 0 ) )
24	23	biimpa	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( # ` W ) =/= 0 )
25	24	adantr	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( # ` W ) =/= 0 )
26	20 25	eqnetrd	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( # ` ( W cyclShift N ) ) =/= 0 )
27	14	adantr	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) e. Word ( Vtx ` G ) )
28		hasheq0	\|- ( ( W cyclShift N ) e. Word ( Vtx ` G ) -> ( ( # ` ( W cyclShift N ) ) = 0 <-> ( W cyclShift N ) = (/) ) )
29	27 28	syl	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( # ` ( W cyclShift N ) ) = 0 <-> ( W cyclShift N ) = (/) ) )
30	29	necon3bid	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( # ` ( W cyclShift N ) ) =/= 0 <-> ( W cyclShift N ) =/= (/) ) )
31	26 30	mpbid	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) =/= (/) )
32	31	3ad2antl1	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) =/= (/) )
33	16 32	jca	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( W cyclShift N ) e. Word ( Vtx ` G ) /\ ( W cyclShift N ) =/= (/) ) )
34	17	3ad2ant1	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> W e. Word ( Vtx ` G ) )
35	34	anim1i	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) )
36		3simpc	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) )
37	36	adantr	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) )
38		clwwisshclwwslem	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> A. j e. ( 0 ..^ ( ( # ` ( W cyclShift N ) ) - 1 ) ) { ( ( W cyclShift N ) ` j ) , ( ( W cyclShift N ) ` ( j + 1 ) ) } e. ( Edg ` G ) ) )
39	35 37 38	sylc	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> A. j e. ( 0 ..^ ( ( # ` ( W cyclShift N ) ) - 1 ) ) { ( ( W cyclShift N ) ` j ) , ( ( W cyclShift N ) ` ( j + 1 ) ) } e. ( Edg ` G ) )
40		elfzofz	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> N e. ( 1 ... ( # ` W ) ) )
41		lswcshw	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ... ( # ` W ) ) ) -> ( lastS ` ( W cyclShift N ) ) = ( W ` ( N - 1 ) ) )
42	40 41	sylan2	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( lastS ` ( W cyclShift N ) ) = ( W ` ( N - 1 ) ) )
43		fzo0ss1	\|- ( 1 ..^ ( # ` W ) ) C_ ( 0 ..^ ( # ` W ) )
44	43	sseli	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> N e. ( 0 ..^ ( # ` W ) ) )
45		cshwidx0	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 0 ..^ ( # ` W ) ) ) -> ( ( W cyclShift N ) ` 0 ) = ( W ` N ) )
46	44 45	sylan2	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( W cyclShift N ) ` 0 ) = ( W ` N ) )
47	42 46	preq12d	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } )
48	47	ex	\|- ( W e. Word ( Vtx ` G ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } ) )
49	48	adantr	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } ) )
50	49	3ad2ant1	\|- ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } ) )
51	50	imp	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } )
52		elfzo1elm1fzo0	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> ( N - 1 ) e. ( 0 ..^ ( ( # ` W ) - 1 ) ) )
53	52	adantl	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( N - 1 ) e. ( 0 ..^ ( ( # ` W ) - 1 ) ) )
54		fveq2	\|- ( i = ( N - 1 ) -> ( W ` i ) = ( W ` ( N - 1 ) ) )
55	54	adantl	\|- ( ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) /\ i = ( N - 1 ) ) -> ( W ` i ) = ( W ` ( N - 1 ) ) )
56		fvoveq1	\|- ( i = ( N - 1 ) -> ( W ` ( i + 1 ) ) = ( W ` ( ( N - 1 ) + 1 ) ) )
57	18	zcnd	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> N e. CC )
58	57	adantl	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> N e. CC )
59		1cnd	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> 1 e. CC )
60	58 59	npcand	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( N - 1 ) + 1 ) = N )
61	60	fveq2d	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( W ` ( ( N - 1 ) + 1 ) ) = ( W ` N ) )
62	56 61	sylan9eqr	\|- ( ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) /\ i = ( N - 1 ) ) -> ( W ` ( i + 1 ) ) = ( W ` N ) )
63	55 62	preq12d	\|- ( ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) /\ i = ( N - 1 ) ) -> { ( W ` i ) , ( W ` ( i + 1 ) ) } = { ( W ` ( N - 1 ) ) , ( W ` N ) } )
64	63	eleq1d	\|- ( ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) /\ i = ( N - 1 ) ) -> ( { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) <-> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) )
65	53 64	rspcdv	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) )
66	65	a1d	\|- ( ( W e. Word ( Vtx ` G ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) ) )
67	66	ex	\|- ( W e. Word ( Vtx ` G ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> ( { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) ) ) )
68	67	adantr	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> ( { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) ) ) )
69	68	com24	\|- ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) -> ( A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) -> ( { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) -> ( N e. ( 1 ..^ ( # ` W ) ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) ) ) ) )
70	69	3imp1	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> { ( W ` ( N - 1 ) ) , ( W ` N ) } e. ( Edg ` G ) )
71	51 70	eqeltrd	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } e. ( Edg ` G ) )
72	33 39 71	3jca	\|- ( ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) /\ N e. ( 1 ..^ ( # ` W ) ) ) -> ( ( ( W cyclShift N ) e. Word ( Vtx ` G ) /\ ( W cyclShift N ) =/= (/) ) /\ A. j e. ( 0 ..^ ( ( # ` ( W cyclShift N ) ) - 1 ) ) { ( ( W cyclShift N ) ` j ) , ( ( W cyclShift N ) ` ( j + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } e. ( Edg ` G ) ) )
73	72	expcom	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> ( ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) -> ( ( ( W cyclShift N ) e. Word ( Vtx ` G ) /\ ( W cyclShift N ) =/= (/) ) /\ A. j e. ( 0 ..^ ( ( # ` ( W cyclShift N ) ) - 1 ) ) { ( ( W cyclShift N ) ` j ) , ( ( W cyclShift N ) ` ( j + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } e. ( Edg ` G ) ) ) )
74		eqid	\|- ( Edg ` G ) = ( Edg ` G )
75	1 74	isclwwlk	\|- ( W e. ( ClWWalks ` G ) <-> ( ( W e. Word ( Vtx ` G ) /\ W =/= (/) ) /\ A. i e. ( 0 ..^ ( ( # ` W ) - 1 ) ) { ( W ` i ) , ( W ` ( i + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` W ) , ( W ` 0 ) } e. ( Edg ` G ) ) )
76	1 74	isclwwlk	\|- ( ( W cyclShift N ) e. ( ClWWalks ` G ) <-> ( ( ( W cyclShift N ) e. Word ( Vtx ` G ) /\ ( W cyclShift N ) =/= (/) ) /\ A. j e. ( 0 ..^ ( ( # ` ( W cyclShift N ) ) - 1 ) ) { ( ( W cyclShift N ) ` j ) , ( ( W cyclShift N ) ` ( j + 1 ) ) } e. ( Edg ` G ) /\ { ( lastS ` ( W cyclShift N ) ) , ( ( W cyclShift N ) ` 0 ) } e. ( Edg ` G ) ) )
77	73 75 76	3imtr4g	\|- ( N e. ( 1 ..^ ( # ` W ) ) -> ( W e. ( ClWWalks ` G ) -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) )
78	12 77	sylbir	\|- ( ( N e. ( 0 ..^ ( # ` W ) ) /\ N =/= 0 ) -> ( W e. ( ClWWalks ` G ) -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) )
79	78	expcom	\|- ( N =/= 0 -> ( N e. ( 0 ..^ ( # ` W ) ) -> ( W e. ( ClWWalks ` G ) -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) ) )
80	79	com13	\|- ( W e. ( ClWWalks ` G ) -> ( N e. ( 0 ..^ ( # ` W ) ) -> ( N =/= 0 -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) ) )
81	80	imp	\|- ( ( W e. ( ClWWalks ` G ) /\ N e. ( 0 ..^ ( # ` W ) ) ) -> ( N =/= 0 -> ( W cyclShift N ) e. ( ClWWalks ` G ) ) )
82	11 81	pm2.61dne	\|- ( ( W e. ( ClWWalks ` G ) /\ N e. ( 0 ..^ ( # ` W ) ) ) -> ( W cyclShift N ) e. ( ClWWalks ` G ) )

Metamath Proof Explorer

Theorem clwwisshclwws

Proof