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Is there equivalent of <? extends T> <? super T> in c++?
Also, does <? extends T> <? super T> work even if T is an interface in Java?

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What do you need this for? There might be a simpler, more C++-like solution than trying to emulate this Java feature – jalf Nov 27 '09 at 11:26
up vote 2 down vote accepted

answer to the first part: Restrict Template Function

JesperE has the answer right for the 2nd part.

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Following the rule that if class passed as argument has the necessary methods defined is the a fool-proof check. An approved class will definitely have all the necessary functions. But the reverse is not always true. If you have something like &lt;? extends T> then it is fool-proof because we are explicitly specifying the class hierarchy – user855 Nov 27 '09 at 7:10
@ajay: If you want to restrict type parameter to being a base class because you use exactly the base class interface, then do you need to make it a template? Can you operate on a base class by reference? This would gain you the type safety that you are looking for. Templates allow you do define operations that work across types that don't have to be from the same hierarchy. That is their power. If this isn't feasible in your situation, perhaps you could update the question with more details about what you are trying to do and what C++ features might help you achieve that. – Charles Bailey Nov 27 '09 at 7:37
? extends means any subclass of the basetype. – TofuBeer Nov 27 '09 at 7:40
@ajay: You should protect your code against Murphy, not Machiavelli. ;) You have to trust that if I instantiate your template with a type T, then T satisifes the requirements you place on it. Even if you forced my type T to be derived from a specific base class, that'd still only buy you limited protection. I can still define any virtual function to do anything I like, whether or not it's meaningful in your case. – jalf Nov 27 '09 at 13:01
@Charles: the point of using ? extends T is not as a type of arguments themselves, it's to specialize collections/containers. Consider if you want a function that takes as an argument a list of some objects which all inherit from Base. In Java, you write it as void foo(List<? extends Base> lst). In C++, you'd need something like template<class T> void foo(std::list<T> lst). – Pavel Minaev Nov 27 '09 at 23:55

It doesn't have quite nice syntactic sugar as in Java but it's manageable well with *boost/type_traits* . See for more info.

#include <boost/type_traits.hpp>
#include <boost/static_assert.hpp>

class Base {};
class Derived_from_Base : public Base {};
class Not_derived_from_Base {};

template<typename BASE, typename DERIVED>
void workOnBase()
    BOOST_STATIC_ASSERT((boost::is_base_of<BASE, DERIVED>::value)); 

int main()
    workOnBase<Base, Derived_from_Base>();     // OK
    workOnBase<Base, Not_derived_from_Base>(); // FAIL
    return 0;

1>d:...\main.cpp(11) : error C2027: use of undefined type 'boost::STATIC_ASSERTION_FAILURE' 1> with 1> [ 1> x=false 1> ]

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To answer your second question: yes. As far as generics is concerned, interfaces are treated the same as real classes.

I'll leave the first question to the more C++-savvy people.

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You can restrict the range of a template parameter in C++ using the various traits mechanisms, of which there are implementations available in boost.

Usually you don't - the reason the syntax exists in Java and C# is that they use generics, not templates.

Java generics generate shared code which uses virtual dispatch from the base type, rather than generating code for each type used as a template argument. So usually you are using the restriction in order to allow you to call methods on objects of the type used as the template parameter.

As C++ generates code for each type used as a template parameter, it doesn't need to know about a base type for them.

For example, a template class for a matrix will use +,-,* operators on its target type. In can then be used for any type which supports those operators. If it was arbitrarily restricted to doubles and ints, then you couldn't use the template with a complex<double> or run a test with a type which supports interval arithmetic, even though those types provide those operators, and the matrix library would be valid using them.

The ability to work on arbitrary types which have the same shape is the power of templates, and makes them more useful. It's up to the client code to decide whether or not it's valid to use that template with that type (as long as it compiles), and the customer is always right. The inability to work on arbitrary types which have the same shape, and the requirement to specify restrictions to call methods other than those of java.lang.Object is a weakness of generics.

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This is an extension that sadly was removed from the draft standard of C++0x as it "was not ready". However, it is possible to simulate this using static asserts (that is a part of C++0x and Boost as people have mentioned here).

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This worked for me:

#include <iostream>

class MyBase {}; 
class A : public MyBase {};    
class B {};

template <class T>
typename std::enable_if<!std::is_base_of<MyBase, T>::value>::type
Foo(T &v) {
    std::cout << "Foo 1" << std::endl;

template <class T>
typename std::enable_if<std::is_base_of<MyBase, T>::value>::type
Foo(T &v) {
    std::cout << "Foo 2" << std::endl;

int main() {
  A a;
  B b;
  return 0;
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