let G be non empty right_complementable Abelian add-associative right_zeroed midpoint_operator addLoopStr ; :: thesis: for M being non empty MidStr
for w being Function of [: the carrier of M, the carrier of M:], the carrier of G
for a, c, b1, b2 being Point of M st w is_atlas_of the carrier of M,G & M,G are_associated_wrp w holds
( a @ c = b1 @ b2 iff w . (a,c) = (w . (a,b1)) + (w . (a,b2)) )
let M be non empty MidStr ; :: thesis: for w being Function of [: the carrier of M, the carrier of M:], the carrier of G
for a, c, b1, b2 being Point of M st w is_atlas_of the carrier of M,G & M,G are_associated_wrp w holds
( a @ c = b1 @ b2 iff w . (a,c) = (w . (a,b1)) + (w . (a,b2)) )
let w be Function of [: the carrier of M, the carrier of M:], the carrier of G; :: thesis: for a, c, b1, b2 being Point of M st w is_atlas_of the carrier of M,G & M,G are_associated_wrp w holds
( a @ c = b1 @ b2 iff w . (a,c) = (w . (a,b1)) + (w . (a,b2)) )
let a, c, b1, b2 be Point of M; :: thesis: ( w is_atlas_of the carrier of M,G & M,G are_associated_wrp w implies ( a @ c = b1 @ b2 iff w . (a,c) = (w . (a,b1)) + (w . (a,b2)) ) )
assume that
A1: w is_atlas_of the carrier of M,G and
A2: M,G are_associated_wrp w ; :: thesis: ( a @ c = b1 @ b2 iff w . (a,c) = (w . (a,b1)) + (w . (a,b2)) )
A3: ( a @ c = b1 @ b2 iff w . (a,b2) = w . (b1,c) ) by A1, A2, Th16;
hence ( a @ c = b1 @ b2 implies w . (a,c) = (w . (a,b1)) + (w . (a,b2)) ) by A1, Def3; :: thesis: ( w . (a,c) = (w . (a,b1)) + (w . (a,b2)) implies a @ c = b1 @ b2 )
w . (a,c) = (w . (a,b1)) + (w . (b1,c)) by A1, Def3;
hence ( w . (a,c) = (w . (a,b1)) + (w . (a,b2)) implies a @ c = b1 @ b2 ) by A3, RLVECT_1:8; :: thesis: verum