I am reading about boost type erasure and I am trying to figure out the potential usage. I would like to practice it a bit while I am reading tons of documentations about the topic (it looks a big one). The most quoted area of application that is networking / exchanging data between client and server. Can you suggest some other example or exercise where I can play I bit with this library?

  • page 16ff of accu.org/var/uploads/journals/Overload116.pdf has an article about dyamic C++ using type erasure
    – doctorlove
    Commented Aug 16, 2013 at 8:30
  • I am reading it right now. Thanks for the suggestions. Commented Aug 16, 2013 at 8:40
  • I'd say for networking, classic runtime polymorphism is a more appropriate idiom than type erasure. Type erasure is great for handling deleters and allocators in std::shared_ptr, though.
    – Kerrek SB
    Commented Aug 16, 2013 at 8:40

1 Answer 1


Type Erasure is useful in an extraordinary amount of situations, to the point where it may actually be thought of as a fundamentally missing language feature that bridges generic and object oriented programming styles.

When we define a class in C++, what we are really defining is both a very specific type and a very specific interface, and that these two things do not necessarily need to be related. A type deals with the data, where as the interface deals with transformations on that data. Generic code, such as in the STL, doesn't care about type, it cares about interface: you can sort anything container or container-like sequence using std::sort, as long as it provides comparison and iterator interface.

Unfortunately, generic code in C++ requires compile time polymorphism: templates. This doesn't help with things which cannot be known until runtime, or things which require a uniform interface.

A simple example is this: how do you store a number of different types in a single container? The simplest mechanism would be to store all of the types in a void*, perhaps with some type information to distinguish them. Another way is to recognize all of these types have the same interface: retrieval. If we could make a single interface for retrieval, then specialize it for each type, then it would be as if part of the type had been erased.

any_iterator is another very useful reason to do this: if you need to iterate over a number of different containers with the same interface, you will need to erase the type of the container out of the type of the iterator. boost::any_range is a subtle enhancement of this, extending it from iterators to ranges, but the basic idea is the same.

In short, any time you need to go from multiple types with a similar interface to a single type with a single interface, you will need some form of type erasure. It is the runtime technique that equates compile time templates.

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    Hi. In the meantime, for reference I've also read the following from Thomas Becker artima.com/cppsource/type_erasure.html thbecker.net/free_software_utilities/… Commented Feb 21, 2014 at 8:09
  • 2
    Both excellent resources, but I thought you might wish to know of the much more general need for type erasure, beyond any or any_iterator or any_container. Much as member function pointers only exist to implement delegates, it may be the case virtual functions exist primarily to allow type erasure. It's that fundamental of a concept.
    – Alice
    Commented Feb 21, 2014 at 8:40

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