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Template Constraints C++

I am wondering if I can check to see if type T inherits a certain class in my generic/templated methods. I can do this easily in C# using 'where'. For example, in my game engine, I have this concept of a generic manager that is an XNA component. It has a list of drawable objects (Could be entities, particles, etc). So my class definition is like this:

public class LayerableDrawableGenericManager<T> : Microsoft.Xna.Framework.DrawableGameComponent where T : Drawable

So we can only have a generic manager of an object that can be drawn (an object that inherits drawable). We need to be sure of this because in my generic manager, I am calling Draw() on all those T type objects. Without ensuring that the T type object will inherit the Drawable class (which contains the Draw() method), I wouldn't be able to draw my objects.

anyway, Was wondering how this is done in C++. I've googled around for things like "Where C++" and "Where keyword C++" and all my results are things like "where can i learn C++"..

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marked as duplicate by Miserable Variable, pst, Ken Bloom, Nemo, Tim Mar 22 '12 at 0:25

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

There are some tricks that allow for this, but typically it just works without it because you will get a compile error if the draw method is called and T doesn't have one. The main downside is that the error messages aren't as clear. –  Vaughn Cato Mar 22 '12 at 0:19
you searched for where I searched for C++ template type parameter constraints see the question I show this as duplicate of. –  Miserable Variable Mar 22 '12 at 0:19
C++ is actually structurally-typed and not nominatively-typed in this aspect... just replace the T and, if it compiles, hooray! –  user166390 Mar 22 '12 at 0:22
You can add a static assertion based on the typetrait std::is_base_of, but you might as well not bother. C# has a different object model from C++, and such constraints are not nearly as relevant in C++ as they are in C#. –  Kerrek SB Mar 22 '12 at 0:24
Templates are specialized at compile time, not runtime like .NET generics. The C++ compile error constrains it, minus the readability, plus the wider usage. –  Hans Passant Mar 22 '12 at 0:25

2 Answers 2

This is typically done in C++ templates by just assuming that the type provides the functionality that you need. For example, consider the following function template:

template <typename T>
int get_value(T const& x)
    return x.get();

struct S { int get() const { return 42; } };

If you call get_value(S()), the compiler will instantiate get_value with T = S, and S::get will be called.

If you call get_value(42), the compiler will attempt to instantiate get_value with T = int, but instantiation will fail and you will get a compilation error, because int does not have any member functions (more or less one named get).

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Sure. The obvious way is dynamic_cast

template<class T>
bool is_Iinterface(T obj) {
    Iinterface ptr = dynamic_cast<Iinterface>(obj);
    if (ptr == nullptr)
        return false;
        return true;

or concisely:

template<class T>
bool is_Iinterface(T obj) {
    return dynamic_cast<Iinterface>(obj)!=nullptr;

However, the more common and useful way is to use operator overloading.

template<class T>
void do_task(T obj) {
    //do task on object that doesn't have Iinterface
void do_task(Iinterface& obj) {
    //do task on object that does have Iinterface
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