"Implicitly" is the correct answer. Templates effectively create a "duck typing" scenario, due to the way in which they are compiled. You can call any functions you want upon a template-typed value, and the only instantiations that will be accepted are those for which that method is defined. For example:
template <class T>
int compute_length(T *value)
We can call this method on a pointer to any type which declares the
length() method to return an
string s = "test";
int i = 0;
...but not on a pointer to a type which does not declare
This third example will not compile.
This works because C++ compiles a new version of the templatized function (or class) for each instantiation. As it performs that compilation, it makes a direct, almost macro-like substitution of the template instantiation into the code prior to type-checking. If everything still works with that template, then compilation proceeds and we eventually arrive at a result. If anything fails (like
int* not declaring
length()), then we get the dreaded six page template compile-time error.