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I have been struggling with this one for about a half day and it seem that at least XCode 4.6 has a bug where certain declaration of template class would violate the language and allow to pass const data from within class to external functions with parameters delcared as without const modifiers.

The example below WILL COMPILE, even tough template declaration of Tcaller::call() method specifies const arguments passed as reference but static cmp function is providing useless *const & modifiers.

template< typename T> struct Tcalled
{
    // !!!error - this prototype doesn't protect the data passed to function
    // because it should be declared with const modifiers but it wouldn't compile then.
    // SEE: Below my NOTE for correct function prototype.
        static bool cmp(const Tcalled*& item, const int& key) //<- correct but doesn't work
        static bool cmp(Tcalled* const & item, const int& key) //<- invalid but works!!
        {
            return (item->index = key); /// error - we modify const object here !
        }

    T index;
};

template < typename T> struct Tcaller
{
    Tcaller(){}

    template < typename K, bool (*compare)(const T& item, const K& key) >
    bool call(int k) const { return compare(data, k); }

    T       data;

};


int main(int argc, char *argv[])
{
    const Tcaller<Tcalled<int>* > tmp;  // <- const data
    int k = 1;

    tmp.call<int,Tcalled<int>::cmp>(k);  //call here WILL modify const data !!

}

And the question : HOW I can force XCode to obey the rules and allow me to prototype my static function as it was declared for template parameter ? As for now these are the errors from XCode I get when I declare my static method correctly :

No matching member function for call to 'call' Candidate template ignored: invalid explicitly-specified argument for template parameter 'compare'

Thanks!

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const Tcalled* is pointer to const Tcalled, Tcalled* const is const pointer to Tcalled. they are different things –  yngum Apr 20 '13 at 22:04

1 Answer 1

up vote 2 down vote accepted

Presumably you mean that it works when the argument is declared as Tcalled<T>* const & item and the body of cmp should be using == not =.

You have a misunderstanding about the way template arguments are instantiated. It's not just a copy-paste substitution of the template arguments. You're expecting that const T& when instantiated with T as Tcalled<int>* will be equivalent to const Tcalled<int>*&; that is, a "reference to pointer to const Tcalled<int>.

However, this is wrong, the const applies to the whole T type. So really, after instantiation, const T& is equivalent to Tcalled<int>* const&. This is why having the argument declared as Tcalled* const & item works fine.

To get this to work with the declaration as const Tcalled<T>*& item, a number of things have to change:

  1. The call function template arguments should be defined like so:

    template < int (*compare)(T& item) >
    

    That is, the function pointer type takes a T&, not a const T&. This makes sense as the cmp function does not take a reference to const object at all (it takes a reference to non-const pointer).

  2. The call function should not be const:

    int call() { return compare(data); }
    

    This is because it's passing its member T to compare, which is a reference to non-const object (the pointer itself is not const). It can't do that if it is a const function because it cannot guarantee that compare won't modify the object.

  3. Tcaller must be instantiated with T as const Tcalled<int>*:

    Tcaller<const Tcalled<int>* > tmp;
    
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Thanks you for taking the time to answer. I figured this out but still how it can be that compiler allows to actually MODIFY const object - see my updated code above . Shouldn't I be able to rely on compiler's messages or warnings ? Plus - still valid question then - HOW to declare similar to above with correct way of preserving 'constness' in external , static functions ? –  seeoneself Apr 20 '13 at 22:02
    
@seeoneself See my edit for a fix. –  Joseph Mansfield Apr 20 '13 at 22:04
    
I was affraid of this solution to be honest! I did it initially but then this forced me to have only const data within template - since this is just a dummy example it might looks like a good solution, but in real code I would stuck with const data type as template argument which is unacceptable as this is container class for non-const data .. confused :S –  seeoneself Apr 20 '13 at 22:10
    
@seeoneself The data member is not const. It's a non-const pointer to a const object. –  Joseph Mansfield Apr 20 '13 at 22:11
    
@seeoneself Please read Why am I getting an error converting a Foo**Foo const**?. The only difference is that you're initialising a Foo const*& with a Foo*, but the reasoning is the same. –  Joseph Mansfield Apr 20 '13 at 22:16

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