let z1, z2 be AlgSequence of L; :: thesis: ( ( for i being Nat st i < len M holds
z1 . i = M * (i + 1),1 ) & ( for i being Nat st i >= len M holds
z1 . i = 0. L ) & ( for i being Nat st i < len M holds
z2 . i = M * (i + 1),1 ) & ( for i being Nat st i >= len M holds
z2 . i = 0. L ) implies z1 = z2 )
assume that
A9: for i being Nat st i < len M holds
z1 . i = M * (i + 1),1 and
A10: for i being Nat st i >= len M holds
z1 . i = 0. L ; :: thesis: ( ex i being Nat st
( i < len M & not z2 . i = M * (i + 1),1 ) or ex i being Nat st
( i >= len M & not z2 . i = 0. L ) or z1 = z2 )
assume that
A11: for i being Nat st i < len M holds
z2 . i = M * (i + 1),1 and
A12: for i being Nat st i >= len M holds
z2 . i = 0. L ; :: thesis: z1 = z2
A13: now
let u be set ; :: thesis: ( u in dom z1 implies z1 . b1 = z2 . b1 )
assume u in dom z1 ; :: thesis: z1 . b1 = z2 . b1
then reconsider u9 = u as Element of NAT by FUNCT_2:def 1;
per cases ( u9 < len M or len M <= u9 ) ;
suppose A14: u9 < len M ; :: thesis: z1 . b1 = z2 . b1
hence z1 . u = M * (u9 + 1),1 by A9
.= z2 . u by A11, A14 ;
:: thesis: verum
end;
suppose A15: len M <= u9 ; :: thesis: z1 . b1 = z2 . b1
hence z1 . u = 0. L by A10
.= z2 . u by A12, A15 ;
:: thesis: verum
end;
end;
end;
dom z1 = NAT by FUNCT_2:def 1
.= dom z2 by FUNCT_2:def 1 ;
hence z1 = z2 by A13, FUNCT_1:9; :: thesis: verum