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For templates I have seen both declarations:

template < typename T >

And:

template < class T >

What's the difference?

And what exactly do those keywords mean in the following example (taken from the German Wikipedia article about templates)?

template < template < typename, typename > class Container, typename Type >
class Example
{
     Container< Type, std::allocator < Type > > baz;
};
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6 Answers 6

up vote 90 down vote accepted

typename and class are interchangeable in the basic case of specifying a template:

template<class T>
class Foo
{
};

and

template<typename T>
class Foo
{
};

are equivalent.

Having said that, there are cases specific where there is a difference between typename and class.

The first one is in the case of dependent types. typename is used to declare when you are referencing a nested type that depends on another template parameter, such as the typedef in this example:

template<typename param_t>
class Foo
{
    typedef typename param_t::baz sub_t;
};

The second one you actually show in your question, though you might not realize it:

template < template < typename, typename > class Container, typename Type >

When specifying a template template, the class keyword MUST be used as above -- it is not interchangeable with typename in this case.

You also must use class when explicitly instantiating a template:

template class Foo<int>;

I'm sure that there are other cases that I've missed, but the bottom line is: these two keywords are not equivalent, and these are some common cases where you need to use one or the other.

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13  
That last one is pretty much a special case of the fact that you must use class or struct, not typename, to define a class. Obviously neither of your first two bits of code could be replaced with template <typename T> typename Foo {};, because Foo<T> is most definitely a class. –  Steve Jessop Jan 7 '10 at 23:31
    
std::vector<int>::value_type is not a dependent type, you don't need typename there - you only need it if a type depends on a template parameter, say template<class T> struct C { typedef typename std::vector<T>::value_type type; }; –  Georg Fritzsche Jan 7 '10 at 23:46
2  
And again, param_t is not a dependent type. Dependent types are names that are dependent on a template parameter, e.g. foo<param_t>::some_type, not template parameters themselves. –  Georg Fritzsche Jan 26 '10 at 20:22
1  
A C++1z proposal N4051 will allow you to use typename, i.e. template <typename> typename C. –  user4112979 Oct 6 at 13:57
1  
As of GCC 5, G++ now allows typename in a template template parameter. –  Chnossos Nov 8 at 11:16

For naming template parameters, typename and class are equivalent. §14.1.2:

There is no semantic difference between class and typename in a template-parameter.

typename however is possible in another context when using templates - to hint at the compiler that you are referring to a dependent type. §14.6.2:

A name used in a template declaration or definition and that is dependent on a template-parameter is assumed not to name a type unless the applicable name lookup finds a type name or the name is qualified by the keyword typename.

Example:

typename some_template<T>::some_type

Without typename the compiler can't tell in general wether you are referring to a type or not.

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While there is no technical difference, I have seen the two used to denote slightly different things.

For a template that should accept any type as T, including built-ins (such as an array )

template<typename T>
class Foo { ... }

For a template that will only work where T is a real class.

template<class T>
class Foo { ... }

But keep in mind that this is purely a style thing some people use. Not mandated by the standard or enforced by compilers

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3  
I don't blame you for mentioning it, but I think this policy is pretty misguided, since programmers end up taking time thinking about something that doesn't matter ("have I used the right one?") to indicate something that doesn't matter ("does there exist a built-in type which implements the interface required of this template parameter?"). If any members of the template parameter are used (T t; int i = t.toInt();) then you need a "real class", and your code won't compile if you supply int for T... –  Steve Jessop Jan 7 '10 at 23:26
1  
If you want to limit the use to actual classes, you're better off adding a specialization to throw/cause an error for non-class types. If you want to limit use to particular classes, only specialize for them. In any case, such a stylistic distinction is too subtle to get the message across. –  Potatoswatter Jan 8 '10 at 1:34
    
Since they meant the same thing, please use just one. Otherwise, it's like using inline {, unless it's a Tuesday, and then you using next-line {. –  Paul Draper Oct 8 at 6:58
  1. No difference
  2. Template type parameter Container is itself a template with two type parameters.
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there is a difference in general. –  Hassan Syed Jan 7 '10 at 22:06
    
could those two parameters the container is templated with also be named? in the example they don't have any names. And also - in this example it's written 'class Container' - could there also be written 'typename Container' instead? –  Mat Jan 7 '10 at 22:40
1  
@Mat: yes, the term to search for is template template parameters/arguments. E.g.: template<template<class U> class V> struct C {}; –  Georg Fritzsche Jan 7 '10 at 22:47

This piece of snippet is from c++ primer book. Although I am sure this is wrong.

Each type parameter must be preceded by the keyword class or typename:

// error: must precede U with either typename or class
template <typename T, U> T calc(const T&, const U&);

These keywords have the same meaning and can be used interchangeably inside a template parameter list. A template parameter list can use both keywords:

// ok: no distinction between typename and class in a template parameter list
template <typename T, class U> calc (const T&, const U&);

It may seem more intuitive to use the keyword typename rather than class to designate a template type parameter. After all, we can use built-in (nonclass) types as a template type argument. Moreover, typename more clearly indicates that the name that follows is a type name. However, typename was added to C++ after templates were already in widespread use; some programmers continue to use class exclusively

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The code above can't really tell the difference if the compiler is from Visual Studio 2010, because it compiles fine even if you replace 'typename' with 'class'. This piece of code show the difference in Visual Studio 2010.

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