问题
I know that in C++11 we can now use using to write type alias, like typedefs:
typedef int MyInt;
Is, from what I understand, equivalent to:
using MyInt = int;
And that new syntax emerged from the effort to have a way to express \"template typedef\":
template< class T > using MyType = AnotherType< T, MyAllocatorType >;
But, with the first two non-template examples, are there any other subtle differences in the standard? For example, typedefs do aliasing in a \"weak\" way. That is it does not create a new type but only a new name (conversions are implicit between those names).
Is it the same with using or does it generate a new type? Are there any differences?
回答1:
They are equivalent, from the standard (emphasis mine) (7.1.3.2):
A typedef-name can also be introduced by an alias-declaration. The identifier following the using keyword becomes a typedef-name and the optional attribute-specifier-seq following the identifier appertains to that typedef-name. It has the same semantics as if it were introduced by the typedef specifier. In particular, it does not define a new type and it shall not appear in the type-id.
回答2:
They are largely the same, except that:
The alias declaration is compatible with templates, whereas the C style typedef is not.
回答3:
The using syntax has an advantage when used within templates. If you need the type abstraction, but also need to keep template parameter to be possible to be specified in future. You should write something like this.
template <typename T> struct whatever {};
template <typename T> struct rebind
{
typedef whatever<T> type; // to make it possible to substitue the whatever in future.
};
rebind<int>::type variable;
template <typename U> struct bar { typename rebind<U>::type _var_member; }
But using syntax simplifies this use case.
template <typename T> using my_type = whatever<T>;
my_type<int> variable;
template <typename U> struct baz { my_type<U> _var_member; }
回答4:
They are essentially the same but using provides alias templates which is quite useful. One good example I could find is as follows:
namespace std {
template<typename T> using add_const_t = typename add_const<T>::type;
}
So, we can use std::add_const_t<T> instead of typename std::add_const<T>::type
回答5:
I know the original poster has a great answer, but for anyone stumbling on this thread like I have there's an important note from the proposal that I think adds something of value to the discussion here, particularly to concerns in the comments about if the typedef keyword is going to be marked as deprecated in the future, or removed for being redundant/old:
It has been suggested to (re)use the keyword typedef ... to introduce template aliases:
template<class T> typedef std::vector<T, MyAllocator<T> > Vec;That notation has the advantage of using a keyword already known to introduce a type alias. However, it also displays several disavantages [sic] among which the confusion of using a keyword known to introduce an alias for a type-name in a context where the alias does not designate a type, but a template;
Vecis not an alias for a type, and should not be taken for a typedef-name. The nameVecis a name for the familystd::vector<•, MyAllocator<•> >– where the bullet is a placeholder for a type-name.Consequently we do not propose the “typedef” syntax.On the other hand the sentencetemplate<class T> using Vec = std::vector<T, MyAllocator<T> >;can be read/interpreted as: from now on, I’ll be using
Vec<T>as a synonym forstd::vector<T, MyAllocator<T> >. With that reading, the new syntax for aliasing seems reasonably logical.
To me, this implies continued support for the typedef keyword in C++ because it can still make code more readable and understandable.
Updating the using keyword was specifically for templates, and (as was pointed out in the accepted answer) when you are working with non-templates using and typedef are mechanically identical, so the choice is totally up to the programmer on the grounds of readability and communication of intent.
来源:https://stackoverflow.com/questions/10747810/what-is-the-difference-between-typedef-and-using-in-c11