I went through some searches but couldn't quite find this one. Consider this situation:

template <class T> class TemplClass;
void a_function(TemplClass<const X>&);

TemplClass<X> inst;
a_function( inst ); // fails

"invalid initialization of reference of type ‘TemplClass&’ from expression of type ‘TemplClass’"

The situation is 100% safe as far as I can tell. Still, C++ does not allow this. So I wonder what cast to use instead of the trivial C-cast.

a_function( static_cast<TemplClass<const X>&>(inst) ); // fails, similar error message

a_function( reinterpret_cast<TemplClass<const X>&>(inst) ); // works

dynamic_cast is out of the question, const_cast fails too (and rightly so).

The reinterpret_cast feels fishy (is it though?). But is there a solution with some kind of trick that I missed? Anyone know why the standard does not simply detect that this is something good? Or is there something 'bad' about this cast?

  • 7
    TemplClass<const X> has no relation to TemplClass<X>; they are completely different types. – Simple Mar 23 '16 at 13:03
  • 1
    The situation is 100% safe In your case yes. In general no – Mohit Jain Mar 23 '16 at 13:04
  • Techincally, yes - but is there any reason why the function would do something unintended? Like not work , crash, change stuff that shouldn't be changed? – Bert Bril Mar 23 '16 at 13:05
  • I understand the following: other functions may be called (const rather than non-const). The reverse would not be good (if the function signature is non-const). I just cannot think of a situation where this is a 'bad' thing. – Bert Bril Mar 23 '16 at 13:07
  • your reasoning applies to const TemplClass<X>& – Piotr Skotnicki Mar 23 '16 at 13:10

TemplClass<const T> and TemplClass<T> are unrelated types.

For example you may have (partial) specialization to make them really different:

template<typename T>
class TemplClass
    void generic();
    std::string s;

template<typename T>
class TemplClass<const T>
    void foo();
    std::vector<int> v;

Casting one into the other doesn't make sense.

In the same way

class A
    char* p;

class B
    char* p;

Those 2 classes are unrelated (even if it seems identical).

  • Thx, that's it.. Your first example shows where things may go wrong. The second one shows what C++ thinks about the classes, not what I can do with them. – Bert Bril Mar 23 '16 at 17:18

But is there a solution with some kind of trick that I missed?

The ideal solution is to not write such restricted template interfaces. For example, consider the standard library algorithms that take iterators to represent ranges rather than specific template types with specific object types.

If you're unable to fix the interface as it's say in a third party library, then you're going to be stuck copying your Templ<X> to a Templ<const X> before making the call.

Anyone know why the standard does not simply detect that this is something good?

Because it's not good. The very simplest case is where there are template specializations where it would change some meaning/functionality. The compiler can't simply change the instantiation of the template.

Or is there something 'bad' about this cast?

By the language, the cast is illegal because the const and non-const template instantiations are unrelated types. Depending on the actual case, there are probably legal alternatives.

  • Thanks for this; I agree that if you go for the modern C++ paradigms, then iterators are way better. But a lot of code is simply based on other paradigms, some of which have their own merits. – Bert Bril Mar 23 '16 at 16:10
  • In fact, I disagree with one part: the part that 'X' and 'const X' are different types. They are, but they are also not. They have all sorts of differences, but in the end it boils down to the same types. I guess you could say that the 'const' system is a different dimension in the type system. And in that dimension, it is always OK to use something that is non-const for things that are const. – Bert Bril Mar 23 '16 at 16:13
  • So, I admit that everyone is right in saying that they are, de-facto, different types. But I fail to see how C++ helps me here, and in the end, I can only see that I can cast and it works fine. I'd like to see a counterexample, and figure out what are the conditions that such a cast will fail to be good. – Bert Bril Mar 23 '16 at 16:16

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