Lets say I have a class Handler with some subclasses like stringhandler, SomeTypeHandler, AnotherTypeHandler. The class Handler defines a method "handle" as a common interface for all the subclasses. The logic to "handle" is ofcourse completely different for the different handlers.

So what I need to do is pass a value of anything to the handle method. The specific classes can then cast the "anything" to the type they expect.

Basically what I need is something like the java class Object :D

The first thing I tried was a void*, but apparently you can not do B* someB = dynamic_cast<B*>(theVoidPointer), so no luck there.

My second idea was to use boost::any. however, the requirement to use boost::any is that the value must be copy cunstructable, which is not the case for my data.

Any ideas to get this to work?


EDIT: Note that I know I could use a SomeData class with no members at all, and let my data be subclasses of that, but I am looking for a more generic approach which does not require me to make my own wrapper class.

  • 2
    Are you sure that you need dynamic_cast, and can't use reinterpret_cast? Apr 10, 2012 at 14:41
  • It looks like most of your options are described here: stackoverflow.com/questions/913505/…
    – satnhak
    Apr 10, 2012 at 14:45
  • 1
    You could also use boost::any to store the pointer, so the handled types need not to be copy constructible
    – fdlm
    Apr 10, 2012 at 14:46
  • 5
    I think you should step back a bit and tell us what you're trying to accomplish instead of your idea of how to implement it. It sounds to me like you're basically heading off into the weeds with an idea that might work in Java, but is horrible abuse of C++ (truthfully, a horrible of OO in general, but one that Java embraces). Apr 10, 2012 at 14:51
  • 1
    Step back, step back, step back. Upcast is generally a sign of bad design. Type switching (on open sets) is generally a sign of bad design. Apr 10, 2012 at 15:09

5 Answers 5


Okay, here is a simple approach using boost::any to hold pointers to your datatypes. However, beware that boost::any adds some overhead code decreasing performance slightly (in most cases neglectible).. consider using boost::spirit::hold_any instead, or void* if you don't need type safety.

class Handler {
    void handle( boost::any value ) { 
        do_handle( value );
    virtual void do_handle( boost::any& value ) = 0;

template<class T>
class HandlerBase : public Handler {
    void do_handle( boost::any& value ) {
        // here you should check if value holds type T*...
        handle_type( *(boost::any_cast<T*>( value )) );

    void handle_type( const T& value ) = 0;

class StringHandler : HandlerBase<std::string> {
    void handle_type( const std::string& value ) {
        // do stuff

Now you can write lots of handler classes, deriving from HandlerBase, without assuming that the handled types have a common base class.

  • This is the solution I used, except for the templated HandlerBase. I left that out. I just used let the specific handlers cast to the type they need. As soon as I have multiple handlers for the same data type, I will concider putting the templated base in between. Thanks!
    – W. Goeman
    Apr 10, 2012 at 15:09

You can for example define a base class:

class BaseHandlerData {

Then derive your specific data classes, which are expected by your handlers:

class StringData: public BaseHandlerData {

class SomeData: public BaseHandlerData {

Then you should be able to pass a BaseHandlerData* argument to the handle method, and use something like:

void handle(BaseHandlerData *data) {
    StringData* stringData = dynamic_cast<StringData*>(...);
    // handle your string data here ...

to safely cast to your expected data type.


  • This is in detail what I briefly said in my edit. A good solution indeed, but I rather do not write the extra class for this. I rather have this as a basic utility (like boost::any).
    – W. Goeman
    Apr 10, 2012 at 15:04

Another alternative, getting more toward the C world, would be a union type (http://en.wikipedia.org/wiki/Union_(computer_science)#C.2FC.2B.2B). This would only allow you to pass the types you specifiy, not any type, but has the type of behavior you describe.


You need to have a base class called DataObject or something. All of your data types, (string, number, whatnot) are sub classes of DataObject. The you define Handle like this:

void Handle(DataObject *dataObject);

This is a much safer way to do what you want. To make it even better, the DataObject can even know what kind of data it contains. Then the handlers can check that they've been sent the right type of data.

  • This is basically what I added in my edit. This seems like a good solution indeed, but I was looking for a more generic approach. I still keep it in my list of options in case the other solutions do not work out.
    – W. Goeman
    Apr 10, 2012 at 14:47

You can do

B* someB = static_cast<B*>(theVoidPointer);
  • @R.MartinhoFernandes and BertR Could you please eloborate on the differences between reinterpret, static and dynamic? I thought reinterpret and static had some dangers.
    – W. Goeman
    Apr 10, 2012 at 14:44
  • @R. Martinho Fernandes: Before C++11 the reinterpret_cast can indeed lead to undefined behavior, but for C++11 this is no longer the case. Well it seems that Stroustrup made the same mistake, so I could have made worse ones: compgroups.net/comp.lang.c++.moderated/…
    – BertR
    Apr 10, 2012 at 16:04

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