auto newvar1 = myvector;
auto *newvar2 = myvector;
Both of these are the same and will declare a pointer to
(pointing to random location, since . So basically you can use any one of them. I would prefer
myvector is uninitialized in your example and likely contains garbage)
auto var = getVector(), but you may go for
auto* var = getVector() if you think it stresses the intent (that
var is a pointer) better.
I must say I never dreamt of similar uncertainity using
auto. I thought people would just use
auto and not think about it, which is correct 99 % of the time - the need to decorate
auto with something only comes with references and cv-qualifiers.
However, there is slight difference between the two when modifies slightly:
auto newvar1 = myvector, newvar2 = something;
In this case,
newvar2 will be a pointer (and something must be too).
auto *newvar1 = myvector, newvar2 = something;
newvar2 is the pointee type, eg.
std::vector<MyClass>, and the initializer must be adequate.
In general, if the initializer is not a braced initializer list, the compiler processes
auto like this:
It produces an artificial function template declaration with one argument of the exact form of the declarator, with
auto replaced by the template parameter. So for
auto* x = ..., it uses
template <class T> void foo(T*);
It tries to resolve the call
foo(initializer), and looks what gets deduced for
T. This gets substituted back in place of
If there are more declarators in a single declarations, this is done for all of them. The deduced
T must be the same for all of them...