Strictly speaking, $O(f(n))$ is a set of functions. So the value of $O(f(n))$ is simply the set of all functions that grow asymptotically not faster than $f(n)$. The notation $T(n) = O(f(n))$ is just a conventional way to write that $T(n) \in O(f(n))$.
Note that this also clarifies some caveats of the $O$ notation. For example, we write that $(1/2) n^2 + n = O(n^2)$, but we never write that $O(n^2)=(1/2)n^2 + n$. To quote Donald Knuth (The Art of Computer Programming, 1.2.11.1):
The most important consideration is the idea of one-way equalities. [...] If $\alpha(n)$ and $\beta(n)$ are formulas that involve the $O$-notation, then the notation $\alpha(n)=\beta(n)$ means that the set of functions denoted by $\alpha(n)$ is contained in the set denoted by $\beta(n)$.