I have always wondered why you cannot use locally defined classes as predicates to STL algorithms.

In the question: Approaching STL algorithms, lambda, local classes and other approaches, BubbaT mentions says that 'Since the C++ standard forbids local types to be used as arguments'

Example code:

int main() {
   int array[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
   std::vector<int> v( array, array+10 );

   struct even : public std::unary_function<int,bool>
      bool operator()( int x ) { return !( x % 2 ); }
   std::remove_if( v.begin(), v.end(), even() ); // error

Does anyone know where in the standard is the restriction? What is the rationale for disallowing local types?

EDIT: Since C++11, it is legal to use a local type as a template argument.

2 Answers 2


It's explicitly forbidden by the C++98/03 standard.

C++11 remove that restriction.

To be more complete :

The restrictions on types that are used as template parameters are listed in article 14.3.1 of the C++03 (and C++98) standard:

A local type, a type with no linkage, an unnamed type or a type compounded from any of these types shall not be used as a template-argument for a template type-parameter.

template <class T> class Y { /* ... */  }; 
void func() {   
      struct S { /* ... */ }; //local class   
      Y< S > y1; // error: local type used as template-argument  
      Y< S* > y2; // error: pointer to local type used as template-argument }

Source and more details : http://www.informit.com/guides/content.aspx?g=cplusplus&seqNum=420

To sum up, the restriction was a mistake that would have been fixed sooner if the standard was evolving faster...

That said today most last versions of common compilers does allow it, along with providing lambda expressions.

  • I know, but I'd like to know where to see if I can understand why. Do you have a reference into the standard? Apr 12, 2009 at 23:16
  • Are you referring to, "template type arguments"?
    – greyfade
    Apr 12, 2009 at 23:19
  • I added some informations and a link that might help. To sum up, the restriction was a mistake that would have been quickly fixed if the standard was evolving faster...
    – Klaim
    Apr 12, 2009 at 23:23
  • 2
    But as an ISO standard it can't, by the ISO rules, evolve any faster than in 10 year periods. So for example 98 standard existed, so C++0x couldn't come out before 2008, and by the looks of it we won't have a C++1x, but a C++21 or something like that. ISO standards are too slow... Apr 13, 2009 at 0:12
  • 8
    Committee members, including Stroustrup, have said that the ten year timeclock was an incorrect interpretation of ISO rules. Oct 31, 2011 at 17:44

The restriction will be removed in '0x, but I don't think you'll be using them very much. And that's because C++-0x is going to have lambdas! :)

int main() {
   int array[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
   std::vector<int> v( array, array+10 );

   std::remove_if( v.begin()
                 , v.end()
                 , [] (int x) -> bool { return !(x%2); })

My syntax in the above may be not be perfect, but the general idea is there.

  • I knew about lambdas. In fact, what I wanted to achieve is the closest possible with the current standard. Kind of the solution Java proposes. Apr 14, 2009 at 18:21
  • And in which way is this an answer to the actual question (let alone one worth 4 up-votes)? May 29, 2012 at 7:50
  • @ChristianRau: ;) I can see why you'd say this. The question is why are they not allowed and the first line of the answer addresses this ie. it's been removed so there must not have been a good reason for the restriction. At the time I clearly thought lambdas were worth mentioning. Now of course 3 years later lambdas are well known so they're no longer news! May 29, 2012 at 16:39

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