let G be finite _Graph; for L being MCS:Labeling of G
for v, x being set st x in dom (L `2 ) & x in G .AdjacentSet {v} & not x in dom (L `1 ) holds
((MCS:LabelAdjacent L,v) `2 ) . x = ((L `2 ) . x) + 1
let L be MCS:Labeling of G; for v, x being set st x in dom (L `2 ) & x in G .AdjacentSet {v} & not x in dom (L `1 ) holds
((MCS:LabelAdjacent L,v) `2 ) . x = ((L `2 ) . x) + 1
let v, x be set ; ( x in dom (L `2 ) & x in G .AdjacentSet {v} & not x in dom (L `1 ) implies ((MCS:LabelAdjacent L,v) `2 ) . x = ((L `2 ) . x) + 1 )
assume that
A1:
x in dom (L `2 )
and
A2:
x in G .AdjacentSet {v}
and
A3:
not x in dom (L `1 )
; ((MCS:LabelAdjacent L,v) `2 ) . x = ((L `2 ) . x) + 1
set V2G = L `2 ;
set VLG = L `1 ;
set GL = MCS:LabelAdjacent L,v;
set V2 = (MCS:LabelAdjacent L,v) `2 ;
A4:
(MCS:LabelAdjacent L,v) `2 = (L `2 ) .incSubset ((G .AdjacentSet {v}) \ (dom (L `1 ))),1
by MCART_1:def 2;
x in (G .AdjacentSet {v}) \ (dom (L `1 ))
by A2, A3, XBOOLE_0:def 5;
hence
((MCS:LabelAdjacent L,v) `2 ) . x = ((L `2 ) . x) + 1
by A1, A4, Def4; verum