I would like to ask a counterexample for the classical theorem in functional analysis: the open mapping theorem in the case that Y is Banach, but X is not Banach to show that the completeness of X is crucial. 

In details, find a continuous linear mapping T:X -> Y which T(X)=Y and Y is Banach but T is not open.

If we can construct this, we could get an interesting example: there exists a bijective linear (contiuous) mapping between two normed space X and Y, and only one of them is Banach.
The counterexamples for the case when Y is not Banach is simple, but I didn't come up if I need X is not Banach and Y is Banach.
Thanks!