rusgr0edg

Description: Special case for graphs without edges: There are no walks of length greater than 0. (Contributed by Alexander van der Vekens, 26-Jul-2018) (Revised by AV, 7-May-2021)

	Ref	Expression
Hypotheses	rusgrnumwwlk.v	\|- V = ( Vtx ` G )
	rusgrnumwwlk.l	\|- L = ( v e. V , n e. NN0 \|-> ( # ` { w e. ( n WWalksN G ) \| ( w ` 0 ) = v } ) )
Assertion	rusgr0edg	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( P L N ) = 0 )

Proof

Step	Hyp	Ref	Expression
1		rusgrnumwwlk.v	\|- V = ( Vtx ` G )
2		rusgrnumwwlk.l	\|- L = ( v e. V , n e. NN0 \|-> ( # ` { w e. ( n WWalksN G ) \| ( w ` 0 ) = v } ) )
3		simp2	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> P e. V )
4		nnnn0	\|- ( N e. NN -> N e. NN0 )
5	4	3ad2ant3	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> N e. NN0 )
6	1 2	rusgrnumwwlklem	\|- ( ( P e. V /\ N e. NN0 ) -> ( P L N ) = ( # ` { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } ) )
7	3 5 6	syl2anc	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( P L N ) = ( # ` { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } ) )
8		rusgrusgr	\|- ( G RegUSGraph 0 -> G e. USGraph )
9		usgr0edg0rusgr	\|- ( G e. USGraph -> ( G RegUSGraph 0 <-> ( Edg ` G ) = (/) ) )
10	9	biimpcd	\|- ( G RegUSGraph 0 -> ( G e. USGraph -> ( Edg ` G ) = (/) ) )
11	8 10	mpd	\|- ( G RegUSGraph 0 -> ( Edg ` G ) = (/) )
12		0enwwlksnge1	\|- ( ( ( Edg ` G ) = (/) /\ N e. NN ) -> ( N WWalksN G ) = (/) )
13	11 12	sylan	\|- ( ( G RegUSGraph 0 /\ N e. NN ) -> ( N WWalksN G ) = (/) )
14		eleq2	\|- ( ( N WWalksN G ) = (/) -> ( w e. ( N WWalksN G ) <-> w e. (/) ) )
15		noel	\|- -. w e. (/)
16	15	pm2.21i	\|- ( w e. (/) -> -. ( w ` 0 ) = P )
17	14 16	syl6bi	\|- ( ( N WWalksN G ) = (/) -> ( w e. ( N WWalksN G ) -> -. ( w ` 0 ) = P ) )
18	13 17	syl	\|- ( ( G RegUSGraph 0 /\ N e. NN ) -> ( w e. ( N WWalksN G ) -> -. ( w ` 0 ) = P ) )
19	18	3adant2	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( w e. ( N WWalksN G ) -> -. ( w ` 0 ) = P ) )
20	19	ralrimiv	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> A. w e. ( N WWalksN G ) -. ( w ` 0 ) = P )
21		rabeq0	\|- ( { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } = (/) <-> A. w e. ( N WWalksN G ) -. ( w ` 0 ) = P )
22	20 21	sylibr	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } = (/) )
23	22	fveq2d	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( # ` { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } ) = ( # ` (/) ) )
24		hash0	\|- ( # ` (/) ) = 0
25	23 24	eqtrdi	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( # ` { w e. ( N WWalksN G ) \| ( w ` 0 ) = P } ) = 0 )
26	7 25	eqtrd	\|- ( ( G RegUSGraph 0 /\ P e. V /\ N e. NN ) -> ( P L N ) = 0 )

Metamath Proof Explorer

Theorem rusgr0edg

Proof