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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?

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I personally prefer the new syntax because it is much more similar to regular variable assignment, improving readability. For example, do you prefer typedef void (&MyFunc)(int,int); or using MyFunc = void(int,int); ? – Matthieu M. May 25 '12 at 8:08
I fully agree, I only use the new syntax now. That's why I was asking, to be sure there is really no difference. – Klaim May 25 '12 at 8:21
@MatthieuM. those two are different btw. It should be typedef void MyFunc(int,int); (which actually doesn't look as bad), or using MyFunc = void(&)(int,int); – R. Martinho Fernandes May 25 '12 at 14:28
simple difference: using can be templated, while typedef cannot. – texasbruce May 7 '14 at 13:27
@texasbruce Please read the full question, it's already stated. The question was about the case where there is no template. – Klaim May 7 '14 at 13:40
up vote 223 down vote accepted

They are equivalent, from the standard (emphasis mine) (

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.

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From the answer, using keyword seems to be a superset of typedef. Then, will typdef be deprecated in future ? – iammilind May 25 '12 at 4:28
@iammilind probably not, but you can code as if it were. – bames53 May 25 '12 at 5:09
Deprecation doesn't necessarily indicate intent to remove--It merely stands as a very strong recommendation to prefer another means. – Iron Savior Apr 20 '13 at 20:37
But then I wonder why they didn't just allow typedef to be templated. I remember having read somewhere that they introduced the using syntax precisely because the typedef semantics didn't work well with templates. Which somehow contradicts the fact that using is defined to have exactly the same semantics. – celtschk Jul 21 '13 at 9:44
@celtschk: The reason is talked about in the proposal n1489. A template alias is not an alias for a type, but an alias for a group of templates. To make a distinction between typedef the felt a need for new syntax. Also, keep in mind the OP's question is about the difference between non-template versions. – Jesse Good Jul 21 '13 at 22:19

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 { 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; }
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I already pointed this in the question though. My question is about if you don't use template is there any difference with typedef. As, for example, when you use 'Foo foo{init_value};' instead of 'Foo foo(init_value)' both are supposed to do the same thing but don't foillow exactly the same rules. So I was wondering if there was a similar hidden difference with using/typedef. – Klaim May 2 '14 at 19:57

They are largely the same, except that

The alias declaration is compatible with templates, whereas the C style typedef is not.

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Particularly fond of the simplicity of the answer and pointing out the origin of typeset. – g24l Nov 12 '15 at 13:34

Question is already answered by other's. I want to give some more use case's why using should be used instead of typedef

Case1: Alias function pointer for better code readability

// Function_ptr is a synonym for a pointer to a function taking an int and
// a const std::string& and returning nothing
typedef void (*Function_ptr)(int, const std::string&); // typedef

// same meaning as above
using Function_ptr = void (*)(int, const std::string&); // using

Case2: Aliasing templates

Example of alias template with using

template<typename T>
using MyAllocList = std::list<T, MyAlloc<T>>; // MyAllocList<T> // is synonym for std::list<T, MyAlloc<T>>

MyAllocList<Window> lw; // client code

Example of alias template with typedef

template<typename T>
struct MyAllocList {
typedef std::list<T, MyAlloc<T>> type; //MyAllocList<T>::type is synonym for std::list<T, MyAlloc<T>>

MyAllocList<Window>::type lw;     // client code

With aliasing(using keyword) gives C++11 programmers a straightforward mechanism for expressing things that in C++98 had to be hacked together with typedefs nested inside templatized structs.

It gets worse. If you want to use the typedef inside a template for the purpose of creating a linked list holding objects of a type specified by a template parameter, you have to precede the typedef name with typename:

typedef(data member) inside templatized class

template<typename T>
class Window {
typename MyAllocList<T>::type list; 

Here, MyAllocList<T>::type refers to a type that’s dependent on a template type parameter (T). MyAllocList<T>::type is thus a dependent type, and one of C++’s many endearing rules is that the names of dependent types must be preceded by type name.

alias(using) data member in templatized class

template<typename T>
using MyAllocList = std::list<T, MyAlloc<T>>;

template<typename T>
class Window {
MyAllocList<T> list; // Window<T> contains a MyAllocList<T> as data memeber

To you, MyAllocList<T> (i.e., use of the alias template) may look just as dependent on the template parameter T as MyAllocList<T>::type (i.e., use of the nested typedef), but you’re not a compiler. When compilers process the Window template and encounter the use of MyAllocList<T> (i.e., use of the alias template), they know that MyAllocList<T> is the name of a type, because MyAllocList is an alias template: it must name a type. MyAllocList<T> is thus a non-dependent type, and a typename specifier is neither required nor permitted.

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