let r be Real; :: thesis: ( 0 < r implies ex s being Real st
( 0 < s & ( for x1, x2 being Real st x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s holds
||.((f /. x1) - (f /. x2)).|| < r ) ) )
assume 0 < r ; :: thesis: ex s being Real st
( 0 < s & ( for x1, x2 being Real st x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s holds
||.((f /. x1) - (f /. x2)).|| < r ) )
then consider s being Real such that
A3: 0 < s and
A4: for x1, x2 being Real st x1 in dom (f | X) & x2 in dom (f | X) & |.(x1 - x2).| < s holds
||.((f /. x1) - (f /. x2)).|| < r by A1, Th1;
take s = s; :: thesis: ( 0 < s & ( for x1, x2 being Real st x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s holds
||.((f /. x1) - (f /. x2)).|| < r ) )
thus 0 < s by A3; :: thesis: for x1, x2 being Real st x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s holds
||.((f /. x1) - (f /. x2)).|| < r
let x1, x2 be Real; :: thesis: ( x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s implies ||.((f /. x1) - (f /. x2)).|| < r )
assume A5: ( x1 in dom (f | X1) & x2 in dom (f | X1) & |.(x1 - x2).| < s ) ; :: thesis: ||.((f /. x1) - (f /. x2)).|| < r
f | X1 c= f | X by A2, RELAT_1:75;
then dom (f | X1) c= dom (f | X) by RELAT_1:11;
hence ||.((f /. x1) - (f /. x2)).|| < r by A4, A5; :: thesis: verum