One option would be to use a static assertion. Member functions of template classes are instantiated lazily, meaning that if they're never called, the code for them won't be generated. This means that you could write the function as usual, expecting that it will only ever be called for the instantiations of bool, int, or double, and then to insert a static assertion into this function that checks that this is indeed the case.
If, on the other hand, you can't do this because you're explicitly instantiating the template, another option might be to provide a template specialization for those three types that does include the extra member function. This would allow you to explicitly include or exclude the function, though it might require some extra coding.
Alternatively, you might consider making this extra function not a member function of the class, but instead a free function. For example, instead of having an
init function that just exists for those three cases, consider defining three functions that look like this:
void Init(P<int>& toInit);
void Init(P<double>& toInit);
void Init(P<bool>& toInit);
That way, the code that might not compile for arbitrary types isn't in the general class itself, but is instead fanned out into these functions. You could then implement these three functions in terms of some helper function that is itself a template.