Metamath Proof Explorer


Theorem clwwlk

Description: The set of closed walks (in an undirected graph) as words over the set of vertices. (Contributed by Alexander van der Vekens, 20-Mar-2018) (Revised by AV, 24-Apr-2021)

Ref Expression
Hypotheses clwwlk.v V = Vtx G
clwwlk.e E = Edg G
Assertion clwwlk ClWWalks G = w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E

Proof

Step Hyp Ref Expression
1 clwwlk.v V = Vtx G
2 clwwlk.e E = Edg G
3 df-clwwlk ClWWalks = g V w Word Vtx g | w i 0 ..^ w 1 w i w i + 1 Edg g lastS w w 0 Edg g
4 fveq2 g = G Vtx g = Vtx G
5 4 1 eqtr4di g = G Vtx g = V
6 wrdeq Vtx g = V Word Vtx g = Word V
7 5 6 syl g = G Word Vtx g = Word V
8 fveq2 g = G Edg g = Edg G
9 8 2 eqtr4di g = G Edg g = E
10 9 eleq2d g = G w i w i + 1 Edg g w i w i + 1 E
11 10 ralbidv g = G i 0 ..^ w 1 w i w i + 1 Edg g i 0 ..^ w 1 w i w i + 1 E
12 9 eleq2d g = G lastS w w 0 Edg g lastS w w 0 E
13 11 12 3anbi23d g = G w i 0 ..^ w 1 w i w i + 1 Edg g lastS w w 0 Edg g w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
14 7 13 rabeqbidv g = G w Word Vtx g | w i 0 ..^ w 1 w i w i + 1 Edg g lastS w w 0 Edg g = w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
15 id G V G V
16 1 fvexi V V
17 16 a1i G V V V
18 wrdexg V V Word V V
19 rabexg Word V V w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E V
20 17 18 19 3syl G V w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E V
21 3 14 15 20 fvmptd3 G V ClWWalks G = w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
22 fvprc ¬ G V ClWWalks G =
23 noel ¬ lastS w w 0
24 fvprc ¬ G V Edg G =
25 2 24 eqtrid ¬ G V E =
26 25 eleq2d ¬ G V lastS w w 0 E lastS w w 0
27 23 26 mtbiri ¬ G V ¬ lastS w w 0 E
28 27 adantr ¬ G V w Word V ¬ lastS w w 0 E
29 28 intn3an3d ¬ G V w Word V ¬ w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
30 29 ralrimiva ¬ G V w Word V ¬ w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
31 rabeq0 w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E = w Word V ¬ w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
32 30 31 sylibr ¬ G V w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E =
33 22 32 eqtr4d ¬ G V ClWWalks G = w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E
34 21 33 pm2.61i ClWWalks G = w Word V | w i 0 ..^ w 1 w i w i + 1 E lastS w w 0 E