consider f, g being Function such that
A1:
[{},{}] = [f,g]
and
A2:
( dom f c= the_Vertices_of G1 & rng f c= the_Vertices_of G2 & dom g c= the_Edges_of G1 & rng g c= the_Edges_of G2 )
and
A3:
for e being object st e in dom g holds
( (the_Source_of G1) . e in dom f & (the_Target_of G1) . e in dom f )
and
for e, v, w being object st e in dom g & v in dom f & w in dom f holds
( e Joins v,w,G1 iff g . e Joins f . v,f . w,G2 )
and
A4:
for e, v, w being object st e in dom g & v in dom f & w in dom f & e Joins v,w,G1 holds
g . e Joins f . v,f . w,G2
by Lm2;
take
[{},{}]
; ex f, g being Function st
( [{},{}] = [f,g] & dom f c= the_Vertices_of G1 & rng f c= the_Vertices_of G2 & dom g c= the_Edges_of G1 & rng g c= the_Edges_of G2 & ( for e being object st e in dom g holds
( (the_Source_of G1) . e in dom f & (the_Target_of G1) . e in dom f ) ) & ( for e, v, w being object st e in dom g & v in dom f & w in dom f & e Joins v,w,G1 holds
g . e Joins f . v,f . w,G2 ) )
thus
ex f, g being Function st
( [{},{}] = [f,g] & dom f c= the_Vertices_of G1 & rng f c= the_Vertices_of G2 & dom g c= the_Edges_of G1 & rng g c= the_Edges_of G2 & ( for e being object st e in dom g holds
( (the_Source_of G1) . e in dom f & (the_Target_of G1) . e in dom f ) ) & ( for e, v, w being object st e in dom g & v in dom f & w in dom f & e Joins v,w,G1 holds
g . e Joins f . v,f . w,G2 ) )
by A1, A2, A3, A4; verum