Type erasure - is that how you call it?

How boost::shared_ptr stores its deleter and how boost::function stores its function object?

Is there any tutorial that teaches the trick?

What is the run-time cost of using type-erased function objects?

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    did you try to google before asking? there is plenty of informantion on the web. the old Thamas Becker article: artima.com/cppsource/type_erasure.html or this well known book: boostpro.com/mplbook and lots of other resources. – Gene Bushuyev Jun 12 '11 at 21:36
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    @GeneBushuyev: the entire purpose of SO is basically to make Google searches unnecessary. If you want to learn about some programming-related subject, you can Google it, and either (1) find a SO answer, or (2) get unreliable information which may or may not be correct and help you. Or you can (2) search/ask for it on SO, and get answers that are peer-reviewed, rated by quality, and virtually guaranteed to be useful. Please don't tell people to Google instead of asking questions here. It's counterproductive. – jalf Mar 4 '12 at 0:16

The idea is simple, you define a base class that has an interface with the functionality you need, and then inherit from it. Since the type erased class uses only that interface, the actual type underneath is forgotten and erased. Alternatively, if the only needed interface can be expressed as free functions you can store pointers to the free functions.

namespace detail {
   struct deleter_base {
      virtual ~deleter_base() {}
      virtual void operator()( void* ) = 0;
   template <typename T>
   struct deleter : deleter_base {
      virtual void operator()( void* p ) {
         delete static_cast<T*>(p);
template <typename T>
class simple_ptr {
   T* ptr;
   detail::deleter_base* deleter;
   template <typename U>
   simple_ptr( U* p ) {
      ptr = p;
      deleter = new detail::deleter<U>();
   ~simple_ptr() {
      (*deleter)( ptr );
      delete deleter;

This is a really simplified smart pointer, but the idea is there. In the particular case of shared_ptr, the deleter is stored as part of the reference count object, that is held by pointer.

  • shared_ptr deleter doesn't have to be derived from anything. – pic11 Jun 12 '11 at 21:28
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    @pic11: The deleter passed in to the shared_ptr does not need to inherit, but type erasure is implemented by using inheritance (or function pointers) internally. – David Rodríguez - dribeas Jun 12 '11 at 21:31
  • How you call a function object if you don't know its static type and/or it doesn't inherit from a base class? – pic11 Jun 12 '11 at 21:35
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    @pic11: Here's a recent answer I gave that used type erasure, take a look so you can get an idea of what David is talking about, in code. – GManNickG Jun 12 '11 at 21:39
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    @Mr.Anubis: Maybe easier with an example: void f( shared_ptr<int> ), and two shared pointers: shared_ptr<int> p( new int ); int i; shared_ptr<int> q(&i, noop_deleter); (assuming the appropriate deleter). The deleters do not take part in the type of the shared_ptr, which means that you can do both f(p) and f(q). Compare that with std::unique_ptr where the deleter is a template argument: void f( unique_ptr<int> ), and unique_ptr<int,noop> q( &i ), then f(q) is an error. The type of the deleter is part of the type of the smart pointer. – David Rodríguez - dribeas Jul 30 '12 at 17:54

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