In short words:
Per C++ Primer, pg 69, "auto": "If we want the deduced type to have a top-level const, we must say so explicitly".
I would get an top-level const pointer:
int i = 42;
const auto *p = &i;
But the resulted p has type const int * instead of expected int * const. I can even reassign it p = 0;. why?
(note: the format of pointer type deduction using auto * is from the book.)
In your example, p is a pointer to a const int, not a const pointer to an int. The latter can be achieved with the following statement:
auto* const p = &i;
With auto, you don't even need the asterisk, which makes it easy:
const auto p = &i;
Here, auto deduces the type to be int *, making it int * const. Note that whether it's const auto or auto const does not make a difference, just as with a typedef name.
In your example, only int fits as the deduced type, making p a const int *. This is not a top-level const, but a pointer to a const int.
See it work here.
const auto * doesn't work), and the rest does look a little bit as if it's a comment rather than an answer.
Considering your original code,
int i = 42;
const auto *p = &i;
adding a
cout << typeid(p).name() << endl;
reports
int const *
with Visual C++.
Which contradicts your statement
” the resulted p has type
int *
Here's one way to take full control:
int i = 42;
auto const *const p = &i;
Remove the first const if you want a const pointer to mutable object.
Alternatively, as noted by chris in his answer, if you want a const pointer to mutable object you can just do
auto const p = &i;
The type deduction through auto works exactly as it does for function templates. So, when you write const auto *p = &i;, the type of p is exactly the type of p in the call to the below template which would match f(&i).
template<typename U>
void f(const U* p);
Thus, the type is const int*. If you want p to be int * const, the right expression is auto * const p = &i.
Position of const before/after the pointer declaration(*) changes the meaning.
Below example shows a few combination of with auto, const and * - and their interpretation.
int main() {
auto i = 2; // int
const auto a = &i; // int * const
// a = &j; // Error: addr is const
*a = 4; // OK (value is NOT const)
const auto* b = &i; // const int *
// *b = 4; // Error: value is const
b = &j; // OK (addr is NOT const)
auto* const c = &i; // const int * - (Your case!)
*c = 4; // OK (value is NOT const)
// c = &j; // Error: addr is const
const auto* const d = &i; // const int * const
// *d = 4; // Error: Both value & addr are const
// d = &j; // Error: Both value & addr are const
}
const int *p = &i;is not top-levelconst, either. That has nothing to do withauto.int *", no it doesn't.