Direct memory reinterpretation, by definition, means working with lvalues. The most straightforward approach would be to do it though a cast to reference type
double d = reinterpret_cast<double &>(voidp);
You can also do it through a pointer cast, as other answers suggested, although it "overloads" the procedure with a number of completely unnecessary operator applications. Both approaches are equivalent, since by definition
reinterpret_cast to reference type
reinterpret_cast<T &>(v) is equivalent to the pointer version
However, the above approaches suffer from type-punning issues. Formally, doing this is simply illegal. You are not allowed to read
void * objects as
double objects in C++. Direct memory reinterpretation exists in C++ for re-interpreting objects as arrays of
chars, not for arbitrary type-punning like the above. Even if we ignore the formal issue and stick to purely "practical" considerations, trying to directly reinterpret a
void * value as
double value might produce completely unexpected and meaningless results in a compiler that follows strict-aliasing semantics when performing optimizations.
A better idea might be to
void * object to the
assert(sizeof d == sizeof voidp); // <- a static assert would be even better
memcpy(&d, &voidp, sizeof d);
Alternatively, in C you are now allowed to use unions for that purpose. I'm not sure the formal permission made into C++ yet, but it will typically work in practice.