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Is there a more elegant way of discovering the type of a templete parameter than using dynamic_cast. Ex

template< typename TypeA, typename TypeB >
bool foo( TypeA* x, TypeB* y )

if( dynamic_cast< WantedType* >( x ) != NULL ) // More ellegant way of doing this
   // found specific type, setting its stuff

Maybe a specialization template< WantedType TypeA, ... > but this would result in duplicated code to do the same.

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Do you want it at runtime or compile time? – Yochai Timmer Dec 20 '12 at 13:24
Asking for the type within a template is inelegant period, simply because it's a sign of a flawed design. Why code generically if the type matters? Either have generic code that's type agnostic, or write your code for a type. – RonaldBarzell Dec 20 '12 at 13:24
anyone @YochaiTimmer – Rodrigo Gurgel Dec 20 '12 at 13:32
@user1161318 not so much, there's a reason for specialized templates. Maybe we have a thousand methods call, but just one plus specific for a class, why not? should I put it in the base class and all others will carry will PAYload. – Rodrigo Gurgel Dec 20 '12 at 13:40
up vote 3 down vote accepted

std::is_same<A,B>::value tells you if A and B are the same type or not.

However the odds are you are making a mistake.

dynamic_cast is for checking the runtime type of an instance, which is not the same thing as the compile time type of the same variable in many contexts.

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very useful, thanks. – Rodrigo Gurgel Dec 20 '12 at 13:41
I see, if typename is a base class, is_same would take base, not the in memory value. So for a specialization held in a base pointer is_same will always return false. – Rodrigo Gurgel Dec 20 '12 at 16:24
Your use of words is off. is_same operates on types not values is the important part. If you want to know if type X is a child of type Y there are similar traits classes that give you that answer. If your question is about instances not types, dynamic_cast is reasonable. As is custom virtual methods if you have only a few types to worry about. – Yakk Dec 20 '12 at 16:56

Here is another option, which might be more inline with your original train of thought ( not saying it's the best way of doing it ):

Try using the method typeid(), ( #include <typeinfo> ).

Given your code, you could do

if ( typeid( x ).name() == typeid( wantedType ).name() ) { ...

with wantedType being int, char or whatever.


Have a look at: http://msdn.microsoft.com/en-us/library/fyf39xec%28v=vs.80%29.aspx

Seems the argument of typeid can be any object.

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Maybe a specialization template< WantedType TypeA, ... >

Either overloading or specialisation is definitely the way to go. Everything else is hacky and makes the code more complex.

but this would result in duplicated code to do the same.

Ideally it shouldn’t. If you’ve properly decomposed your function then there’s only minimal code duplication (= the function headers).

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You could use template specialization for compile time checks:

template <typename A>
class IsClassWantedType 
    static const bool value = false;

template <>
class IsClassWantedType <WantedType>
    static const bool value = true;

template< typename TypeA, typename TypeB >
bool foo( TypeA* x, TypeB* y )

  if( IsClassWantedType<TypeA>::value == true )
    //Do Stuff


Just note that there's no polymorphism here... It won't check for derived types.
For derived types you'd have to use more complicated SFINAE tricks.

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You've successfully reinvented std::is_same<T, WantedType>... – Kerrek SB Dec 20 '12 at 13:56

You can use typeid(t).name() to do just that.

example code:

#include <string>
#include <sstream>
#include <iostream>
#include <typeinfo>
using namespace std;

template <class T>
string toString(const T& t)
    std::stringstream ss;
    ss << t;

    cout<<"The Datatype is a "<< typeid(t).name()  <<" \n";

    return ss.str();

int main(void)

    string str;

    char c=123;
    str=toString(c );

    int i=1234;
    str=toString(i );

    double d=1234;
    str=toString(d );

  cout<<" \nPress any key to continue\n";

   return 0;


The Datatype is a char
The Datatype is a int
The Datatype is a double
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