Possible Duplicate:
C++ difference of keywords ‘typename’ and ‘class’ in templates

When defining a function template or class template in C++, one can write this:

template <class T> ...

or one can write this:

template <typename T> ...

Is there a good reason to prefer one over the other?

I accepted the most popular (and interesting) answer, but the real answer seems to be "No, there is no good reason to prefer one over the other."

  • They are equivalent (except as noted below).
  • Some people have reasons to always use typename.
  • Some people have reasons to always use class.
  • Some people have reasons to use both.
  • Some people don't care which one they use.

Note, however, that before C++17 in the case of template template parameters, use of class instead of typename was required. See user1428839's answer below. (But this particular case is not a matter of preference, it was a requirement of the language.)

  • 6
    I think in this case it might have been justified to pull all of the answers together and accept your own new answer instead of putting the answer in the question text.
    – Catskul
    Oct 5, 2009 at 15:45
  • 10
    That's not really a duplicate. The one asks which is when preferable. The other asks for the differences. Feb 28, 2013 at 14:51
  • 26
    I don't see how this could possibly be a duplicate of a question asked more than one year later.
    – Marc.2377
    Nov 20, 2014 at 5:29
  • 1
    Just be consistent is all i'd say. Me me a typename boy, but it's up to you. Jun 29, 2015 at 2:19
  • 4
    this "possible duplicate" was asked in 2008. the "original" was asked in 2010. and they noticed in 2012. quality.
    – Puddle
    Jun 19, 2019 at 9:36

10 Answers 10


Stan Lippman talked about this here. I thought it was interesting.

Summary: Stroustrup originally used class to specify types in templates to avoid introducing a new keyword. Some in the committee worried that this overloading of the keyword led to confusion. Later, the committee introduced a new keyword typename to resolve syntactic ambiguity, and decided to let it also be used to specify template types to reduce confusion, but for backward compatibility, class kept its overloaded meaning.

  • 7
    And don't forget to read into the comments for whether there's a good reason to use "class" rather than "typename". Oct 17, 2008 at 22:06
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    REVIVAL! I don't find that article particularly clear, to be honest. in T::A *obj; the language, as far as I know, should parse the statement as a declaration because of the declaration rule: anything that looks like a declaration, even if it ambiguously looks like something else, should resolve into a declaration[0]. I also didn't find Bjarne Stroustrup clear about this. [0] The C++ Programming language 3e, Stroustrup, Appendix C.13.5, p. 856-858 Apr 8, 2010 at 23:29
  • 1
    ... what's more, Stan Lippman says in the article "This sort of dilemna is not possible within generics – there is no way to safely verify that any T contains an A so that the runtime can safely construct an instance of the generic type". Since when are generic types instantiated at runtime? They are instantiated at compile-time, and for that exact reason without the export keyword we have to define templates in header files. And following that, one would expect the compiler to know everything about the instantiated generic -- including what T::A is, a type or an instance. Apr 8, 2010 at 23:35
  • @wilhelmtell there is no such rule. The rule is only about expressions that have a functional cast as the first subexpression. In your example, if T::A is a type, the construct T::A *obj is actually ambiguous in the current Standard (as it turned out when I discussed it with the core group some weeks ago). However since everyone knows how it should be parsed, they don't make the Standard say how it should be parsed. Same with f() when f is a type (could be an invalid function call and could be a functional cast). Dec 27, 2010 at 9:06
  • 1
    Even after the edit, this answer is underwhelming at best. Jan 14, 2016 at 13:47

According to Scott Myers, Effective C++ (3rd ed.) item 42 (which must, of course, be the ultimate answer) - the difference is "nothing".

Advice is to use "class" if it is expected T will always be a class, with "typename" if other types (int, char* whatever) may be expected. Consider it a usage hint.

  • 57
    I like the concept of the hint factor. I think I will start using that. Oct 17, 2008 at 20:44
  • 2
    "C++ Templates The Complete Guide" David Vandevoorde Nicolai M. Josuttis. 2.1.1 Sep 24, 2011 at 10:22
  • 11
    But now we have static_assert(std::is_class<T>::value, "T must be a class");
    – paulm
    Feb 23, 2016 at 15:54
  • 1
    It gets hairy, too. stackoverflow.com/a/46401548/1043529
    – John P
    Dec 25, 2017 at 19:56

As an addition to all above posts, the use of the class keyword is forced (up to and including C++14) when dealing with template template parameters, e.g.:

template <template <typename, typename> class Container, typename Type>
class MyContainer: public Container<Type, std::allocator<Type>>
{ /*...*/ };

In this example, typename Container would have generated a compiler error, something like this:

error: expected 'class' before 'Container'
  • 4
    Looks like Clang 3.5 and Visual Studio 2015 now support N4051 typename in template template parameters. Aug 26, 2015 at 3:23
  • 2
    At least for now, this is very important and makes this answer better than the accepted and 2nd highest ones. Jan 14, 2016 at 13:46

I prefer to use typename because I'm not a fan of overloaded keywords (jeez - how many different meanings does static have for various different contexts?).

  • 40
    Of course, typename is overloaded as well.... Oct 17, 2008 at 18:00
  • 8
    True, but it seems to be less confusingly overloaded - the other uses of typename are confusing not because of the overload as much as the situations where it's required are quite confusing. Other keyword overloads (class or static) seem to be active participants in the confusion. Oct 17, 2008 at 18:18
  • 5
    I have to agree with use of typename here -- use of class seems to overuse this keyword, particularly in instances of template<class X> class Y { ... Mar 19, 2010 at 19:13
  • 3
    Personally, I find it easier to skim over code if it uses typename for template parameters. If I'm just skimming, looking for a class definition or declaration, I have to take a closer look each time I see class. Meanwhile, whenever I see typename, I automatically think, "Oh, it's either a template declaration or one of those wonky situations." Conversely, when skimming for templates, class might or might not be indicative of one, but you know typename can only be used when a template is afoot. Jan 30, 2016 at 21:46

There is a difference, and you should prefer class to typename.

But why?

typename is illegal for template template arguments, so to be consistent, you should use class:

template<template<class> typename MyTemplate, class Bar> class Foo { };    //  :(
template<template<class>    class MyTemplate, class Bar> class Foo { };    //  :)
  • 25
    Note that this inconsistency will be fixed by C++1z.
    – Miles Rout
    Jun 24, 2014 at 6:34
  • 1
    @MilesRout C++1z == C++17, right? Mar 25, 2015 at 23:10
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    C++0x, which became C++1x, was C++11. C++1y is C++14, the current version. C++1z will most likely be C++17 assuming it doesn't slip to later in the decade.
    – Miles Rout
    Mar 25, 2015 at 23:59

In response to Mike B, I prefer to use 'class' as, within a template, 'typename' has an overloaded meaning, but 'class' does not. Take this checked integer type example:

template <class IntegerType>
class smart_integer {
    typedef integer_traits<Integer> traits;
    IntegerType operator+=(IntegerType value){
        typedef typename traits::larger_integer_t larger_t;
        larger_t interm = larger_t(myValue) + larger_t(value); 
        if(interm > traits::max() || interm < traits::min())
            throw overflow();
        myValue = IntegerType(interm);

larger_integer_t is a dependent name, so it requires 'typename' to preceed it so that the parser can recognize that larger_integer_t is a type. class, on the otherhand, has no such overloaded meaning.

That... or I'm just lazy at heart. I type 'class' far more often than 'typename', and thus find it much easier to type. Or it could be a sign that I write too much OO code.

  • 9
    I don't consider that being overloaded. In both cases, typename does the same: signifying that it is followed by a type instead of a variable. Oct 28, 2008 at 18:24
  • 4
    But "typedef" is always followed by a type, so why is "typename" required here? I can understand it being required in something like typename qwert::yuiop * asdfg; if necessary to tell the parser that it's a pointer declaration and not a multiplication expression. But in a typedef there's no such ambiguity.
    – Stewart
    May 16, 2011 at 10:59
  • 1
    You may be correct, I'm not sure if it is strictly required in my example. Your example is superior, as "qwerty::yuiop * asdfg;" might either be declaring a pointer variable, or invoking the multiplication operator.
    – Aaron
    May 18, 2011 at 20:01
  • should that read typedef integer_traits<IntegerType> traits?
    – obataku
    May 8, 2016 at 23:49

Just pure history. Quote from Stan Lippman:

The reason for the two keywords is historical. In the original template specification, Stroustrup reused the existing class keyword to specify a type parameter rather than introduce a new keyword that might of course break existing programs. It wasn't that a new keyword wasn't considered -- just that it wasn't considered necessary given its potential disruption. And up until the ISO-C++ standard, this was the only way to declare a type parameter.

But one should use typename rather than class! See the link for more info, but think about the following code:

template <class T>
class Demonstration { 
void method() {
   T::A *aObj; // oops ...

It doesn't matter at all, but class makes it look like T can only be a class, while it can of course be any type. So typename is more accurate. On the other hand, most people use class, so that is probably easier to read generally.

  • Well, anotherone could argue, that the possibility to use "class" makes it look like class can only be used for classes, and "typename" is thus restricted to primitive types. So this argument is kind of subjective ...
    – euphrat
    Sep 6, 2013 at 0:08
  • One could make the point that every class name is a typename, but not every typename is a class name. If solely considering this, there are two logical approaches: 1) Always use typename, except when using template template parameters in pre-C++17 code, or 2) Use class if a parameter is explicitly supposed to be a user-defined type, or typename in other situations. Of course, the real world isn't as black-and-white as that, and there are also valid arguments for using class over typename, so it's best to use whichever one you or your team is/are most comfortable with. Jun 29, 2016 at 17:59
  • I personally find typename easier to parse, because its meaning always relates to templates. Others, on the other hand, find class easier to parse, with one reason being that there's inherent ambiguity in typename, due to it also being the keyword for using a type defined inside a templated type. So, this is primarily a subjective issue, except in the one case where the language explicitly requires one over the other. Jun 29, 2016 at 18:03

As far as I know, it doesn't matter which one you use. They're equivalent in the eyes of the compiler. Use whichever one you prefer. I normally use class.


Extending DarenW's comment.

Once typename and class are not accepted to be very different, it might be still valid to be strict on their use. Use class only if is really a class, and typename when its a basic type, such as char.

These types are indeed also accepted instead of typename

template< char myc = '/' >

which would be in this case even superior to typename or class.

Think of "hintfullness" or intelligibility to other people. And actually consider that 3rd party software/scripts might try to use the code/information to guess what is happening with the template (consider swig).

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