let n4, n5, n3, n2, n1 be Element of NAT ; :: thesis:
let S be Gene-Set; :: thesis:
let p1, p2 be Individual of S; :: thesis:
A1: crossover p1,p2,0 ,0 ,0 ,n4,n5 = crossover p2,p1,n4,n5

crossover p1,p2,0 ,0 ,0 ,n4,n5 = crossover (crossover p2,p1,n4),(crossover p2,p1,0 ,0 ,0 ,n4),n5 by Th31
.= crossover (crossover p2,p1,n4),(crossover p1,p2,n4),n5 by Th31 ;
hence crossover p1,p2,0 ,0 ,0 ,n4,n5 = crossover p2,p1,n4,n5 ; :: thesis:

end;

A2: crossover p1,p2,0 ,0 ,n3,0 ,n5 = crossover p2,p1,n3,n5

crossover p1,p2,0 ,0 ,n3,0 ,n5 = crossover (crossover p2,p1,n3),(crossover p2,p1,0 ,0 ,n3,0 ),n5 by Th31
.= crossover (crossover p2,p1,n3),(crossover p1,p2,n3),n5 by Th31 ;
hence crossover p1,p2,0 ,0 ,n3,0 ,n5 = crossover p2,p1,n3,n5 ; :: thesis:

end;

A3: crossover p1,p2,0 ,0 ,n3,n4,0 = crossover p2,p1,n3,n4

crossover p1,p2,0 ,0 ,n3,n4,0 = crossover (crossover p1,p2,0 ,0 ,n3,n4),(crossover p2,p1,n3,n4),0 by Th30;
hence crossover p1,p2,0 ,0 ,n3,n4,0 = crossover p2,p1,n3,n4 by Th4; :: thesis:

end;

A4: crossover p1,p2,0 ,n2,0 ,0 ,n5 = crossover p2,p1,n2,n5

crossover p1,p2,0 ,n2,0 ,0 ,n5 = crossover (crossover p2,p1,n2),(crossover p2,p1,0 ,n2,0 ,0 ),n5 by Th31
.= crossover (crossover p2,p1,n2),(crossover p1,p2,n2),n5 by Th31 ;
hence crossover p1,p2,0 ,n2,0 ,0 ,n5 = crossover p2,p1,n2,n5 ; :: thesis:

end;

A5: crossover p1,p2,0 ,n2,0 ,n4,0 = crossover p2,p1,n2,n4

crossover p1,p2,0 ,n2,0 ,n4,0 = crossover (crossover p1,p2,0 ,n2,0 ,n4),(crossover p2,p1,n2,n4),0 by Th30;
hence crossover p1,p2,0 ,n2,0 ,n4,0 = crossover p2,p1,n2,n4 by Th4; :: thesis:

end;

A6: crossover p1,p2,0 ,n2,n3,0 ,0 = crossover p2,p1,n2,n3

crossover p1,p2,0 ,n2,n3,0 ,0 = crossover (crossover p1,p2,0 ,n2,n3,0 ),(crossover p2,p1,n2,n3),0 by Th30;
hence crossover p1,p2,0 ,n2,n3,0 ,0 = crossover p2,p1,n2,n3 by Th4; :: thesis:

end;

A7: crossover p1,p2,n1,0 ,0 ,0 ,n5 = crossover p2,p1,n1,n5

crossover p1,p2,n1,0 ,0 ,0 ,n5 = crossover (crossover p2,p1,n1),(crossover p2,p1,n1,0 ,0 ,0 ),n5 by Th31
.= crossover (crossover p2,p1,n1),(crossover p1,p2,n1),n5 by Th31 ;
hence crossover p1,p2,n1,0 ,0 ,0 ,n5 = crossover p2,p1,n1,n5 ; :: thesis:

end;

A8: crossover p1,p2,n1,0 ,0 ,n4,0 = crossover p2,p1,n1,n4

crossover p1,p2,n1,0 ,0 ,n4,0 = crossover (crossover p1,p2,n1,0 ,0 ,n4),(crossover p2,p1,n1,n4),0 by Th30;
hence crossover p1,p2,n1,0 ,0 ,n4,0 = crossover p2,p1,n1,n4 by Th4; :: thesis:

end;

A9: crossover p1,p2,n1,0 ,n3,0 ,0 = crossover p2,p1,n1,n3

crossover p1,p2,n1,0 ,n3,0 ,0 = crossover (crossover p1,p2,n1,0 ,n3,0 ),(crossover p2,p1,n1,n3),0 by Th30;
hence crossover p1,p2,n1,0 ,n3,0 ,0 = crossover p2,p1,n1,n3 by Th4; :: thesis:

end;

crossover p1,p2,n1,n2,0 ,0 ,0 = crossover p2,p1,n1,n2

crossover p1,p2,n1,n2,0 ,0 ,0 = crossover (crossover p1,p2,n1,n2,0 ,0 ),(crossover p2,p1,n1,n2),0 by Th30;
hence crossover p1,p2,n1,n2,0 ,0 ,0 = crossover p2,p1,n1,n2 by Th4; :: thesis:

end;

hence ( crossover p1,p2,0 ,0 ,0 ,n4,n5 = crossover p2,p1,n4,n5 & crossover p1,p2,0 ,0 ,n3,0 ,n5 = crossover p2,p1,n3,n5 & crossover p1,p2,0 ,0 ,n3,n4,0 = crossover p2,p1,n3,n4 & crossover p1,p2,0 ,n2,0 ,0 ,n5 = crossover p2,p1,n2,n5 & crossover p1,p2,0 ,n2,0 ,n4,0 = crossover p2,p1,n2,n4 & crossover p1,p2,0 ,n2,n3,0 ,0 = crossover p2,p1,n2,n3 & crossover p1,p2,n1,0 ,0 ,0 ,n5 = crossover p2,p1,n1,n5 & crossover p1,p2,n1,0 ,0 ,n4,0 = crossover p2,p1,n1,n4 & crossover p1,p2,n1,0 ,n3,0 ,0 = crossover p2,p1,n1,n3 & crossover p1,p2,n1,n2,0 ,0 ,0 = crossover p2,p1,n1,n2 ) by A1, A2, A3, A4, A5, A6, A7, A8, A9; :: thesis: