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I have a CFixedLengthString class templates, having only data-member. The size of datamember is determined by template type argument.

template<size_t _Length>
class CFixedLengthString
   char Buffer[_Length];

   // Has constructors, conversion operators etc. 
   // Listing the important ones 
   operator const char*();
   operator = (const CFixedLengthString&);
   operator = (const char*);

The automatic conversions are for convenience. Example:

CFixedLengthString<10> buf;
buf = "SomeString";


But this convenience also allows following to succeed:

CFixedLengthString<10> buf1;
CFixedLengthString<20> buf2;
buf1 = buf2;

Here buf2 is converted to const char* via implicit conversion operator, and operator= is called with const char*. And thus <20> is converted to <10>.

Important stuff here. For this, I wrote an assignment operator, that takes CFixedLengthString of different size.

template<size_t _TOtherSize>
void operator=(const CFixedLengthString<_TOtherSize>&);

And, of course, made it private, so that compiler error would result if <20> is converted to <non-20>. But, to my surprise, compiler doesnt complain! It allows calling this private operator!

If <N> is being copied to <N>, it calls normal assignment opeartor. If <N> is being copied (assigned) to <M> compiler calls this specialized opeartor.

But why does compiler allows calling private (as well as protected) in this scenario?? I am using VC2008 compiler. I am looking for solution for this compiler only.

For now, I have written a static-assertion within the body of this specialized function (in order to disallow such mistaken conversions).

EDIT: All responses are appreciating. My only question is:

  • Why specialized version, which I put in private area is callable?

We all use privates, declaration-only functions, delete attribute and other aspects for defensive programming. I am attempting to do the same. But compiler allows to call private function!

EDIT 2: Sample code:

template<size_t SIZE>
class FixedString
    operator const char*();
    void operator =(const char*);

    void operator =(const FixedString&);

    // Disallow
    template<size_t OTHERSIZE>
    void operator=(const FixedString<OTHERSIZE>&);

int main()
    FixedString<10> buf1;
    FixedString<20> buf2;

    buf2 = buf1;   // NO ERROR!!

If I remove specialized version of operator=, it will still work. And I want to avoid that!

share|improve this question
Which compiler are you using - and can you provide an SSCCE, please? – Arne Mertz Feb 27 '13 at 16:08
Seems to be a bug - gcc 4.7.2 on ideone complains about the use of private operator. I'll check it at home on VS2010 (hope I remember) – Arne Mertz Feb 27 '13 at 16:22
No error on VC2010 either. Errors (which is correct) on VC2012, as well as on IdeOne: – Ajay Feb 27 '13 at 16:22
How about using the more general template <class T> operator=(T const&) ? – Arne Mertz Feb 27 '13 at 16:24
Seems it is a known bug:… – Arne Mertz Feb 27 '13 at 16:29
up vote 0 down vote accepted

There are several ways to achieve this.

  1. Your operator const char* may be convienient in some places, but obviously it gets triggered in some places where you don't want it to. Consider removing it, replacing it by a function akin to std::string::c_str() or making it explicit (C++11 only).
  2. You could explicitly declare conversion constructors for other types that won't work - either because they are private (C++03) or deleted (C++11 only).

    template <class T> 
    CFixedLengthString& operator=(T const&) = delete;
    //or delete just other FixedLengthStrings:
    template <size_t L> // _Length is a reserved identifier, do't use it!
    CFixedLengthString& operator=(CFixedLengthString<L> const&) = delete;

Declaring operators private won't work in Visual Studio prior to VS2012, because VS does not respect private operators (known bug): Nevertheless the linker will complain if those operators have no implementation (they shouldn't).

share|improve this answer
I did the same thing (point 2). But compiler ALLOWS calling that private function (operator=). – Ajay Feb 27 '13 at 15:01
It may allow calling tat private operator= only to those who you declared friend of CFixedLengthString (I would not call anyone a friend who does things to me I don't want him to, like calling disgraced operators). And in those cases at least the linker should issue an error since you hopefully did not provide an implementation to that operator. – Arne Mertz Feb 27 '13 at 15:07
No friends involved in this case. Yes, linker shown errors. I will put a fully working code soon. – Ajay Feb 27 '13 at 15:56
The only other things that has access to private members besides friends is the class itself - meaning all objects of the class, but only of the class, not of other instantiations of the same template. – Arne Mertz Feb 27 '13 at 16:06
I understand and agree with your points Arne, but they aren't relevant here. – Ajay Feb 27 '13 at 16:24

For your case you could remove the operator const char*() in favour of an accessor function such as c_ptr() which is a similar solution to std::string for converting to char* via c_str()

An alternative solution is to make the assignment operator = (const char*); private instead and define an explicit constructor from char* so that you can only explicitly convert between the types if needed:

class CFixedLengthString
     explicit CFixedLengthString( char* str ) { *this = str );
     operator = (const char*);

CFixedLengthString<10> buf1;
CFixedLengthString<20> buf2;
buf1 = CFixedLengthString<10>(buf2);

This current example would limit you to:

CFixedLengthString<10> buf1( "string" );
buf1 =  CFixedLengthString<10>("string");
share|improve this answer
I would not like to remove flexibility. So, c_str stuff is out! The problem is not with copy constructor, but with assignment operator. And my primary concern is with private-ness and call of that method! I need something on that persepctive, not on design perspective. – Ajay Feb 27 '13 at 10:03
By supplying both a cast to char* and an assignment from char* conversion between types can't be easily avoided as the compiler can see this as a valid conversion. Sometimes, as with the std::string and other types the user will have to call a function. You may be able to work around it by defining a template assignment from template<int _Size2) operator = ( const CFixedLengthString<_Size2>&) and not give it a body but I cannot verify off my head if that would work at the moment as you desire. – Crog Feb 27 '13 at 10:45

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