18

I am compiling an outdated project with my latest gcc g++ compilers, (version > 6)

There is a class CodeWriter with an ostream reference variable.

class CodeWriter
{
  //private:
protected:
  ostream &m_stream;
public:
  CodeWriter(ostream &stream):m_stream(stream){}
  ~CodeWriter(){
    if(m_stream != NULL){
      m_stream.flush();
    }
  }
};

The class is quite large so I included only the relevant variables and functions.

As you can see the destructor seems to be comparing the reference to NULL. This project compiled fine when I used it long back with old gnu toolchain.

But now it is throwing an error saying that there is no matching operator != to compare ostream and long int.

Can anyone explain the rationale behind the change, and how I can fix this?

I would be happy to provide additional information/ include the whole class if required.

  • 9
    You misunderstand the code - it compares the stream object against NULL (which will invoke an overloaded operator of some sort or another). There is no such thing as a null reference (and so, it is not possible to check for one) – M.M Jan 26 '17 at 10:39
  • 1
    Re: "I included only the relevant variables and functions" Yes! Thank you! Exactly right! – Pete Becker Jan 26 '17 at 18:29
  • 2
    Also note that for comparing pointers to null you should be using nullptr now in C++11 or later instead of the macro NULL. (yes I know you do not have a pointer there but I am speaking to the intent of your null check). – user439793 Jan 26 '17 at 18:59
  • @Snowman you are right, the same thing was showing up as an error in another part of this large legacy codebase, i am going mad trying to fix these things. – Vikash B Jan 26 '17 at 20:04
32

The code is not comparing the reference itself with NULL, but comparing the referenced-object with NULL. References can't be NULL, and it's impossible to compare the reference itself with NULL.

And

This project compiled i when i used it long back with old gnu toolchain.

Because the behavior changed since C++11.

Before C++11, std::ostream could be implicitly converted to void* via operator void*(), which returns a null pointer if error has occurred on the stream. So the original intent of the code is to check whether the stream has no errors.

Since C++11 the conversion function was changed to explicit operator bool(), which returns false if error has occured. Note the function is declared as explicit, which means implicit conversion to bool is not allowed, so the code won't compile with C++11 again because std::ostream can't be converted to bool implicitly (and then to be compared with NULL (an integer literal)).

With a C++11-compatible compiler you can just change the code to

if (m_stream) {
  m_stream.flush();
}

Note that for contextual conversions even explicit conversion functions are considered. For the above code, m_stream will be converted to bool via explicit operator bool(), then the value would be used for the condition of if.

14

Streams can always be evaluated in a boolean context, so just change it to:

if (m_stream) {
  m_stream.flush();
}

C++11 made the conversion to bool explicit. This is equivalent to if (!m_stream.fail()). Prior to C++11, this short-hand checkability was achieved by providing an (implicit!) conversion to void*, which is why your old code used to work.

The reason the code is checking for this, rather than just calling m_stream.flush(); directly, is perhaps that the stream may have exceptions enabled for failure and that might throw, [update:] but, as @Arne pointed out, flush itself may fail and throw, too. If there are no exceptions, you can just skip the boolean check entirely.[/update]

  • 1
    if (m_stream) is equivalent to if (!m_stream.fail()) (which allows eof()), not if (m_stream.good()), though this is irrelevant for "pure" output streams because they are not eof(). Also, if the intent is not to throw, then the solution is insufficient because the flush itself may cause badbit to be set and exceptions may be enabled for badbit. – Arne Vogel Jan 26 '17 at 15:38
  • 2
    I'll bet that the reason for testing whether the stream is valid before flushing it is the same as the reason for testing whether a pointer is null before deleting it: wanting to be "safe" without understanding the library specification. – Pete Becker Jan 26 '17 at 17:58
  • @PeteBecker Are you referring to the answer you commented, or to the OP? In either case I'm not sure what you mean - if I understand correctly, OP has his own class, and checks if the resource was initialized to see if it needs flushing. Which part am I not getting? – Sebi Jan 26 '17 at 18:05
  • @Sebi: There's no "checking if the resource was initialized" in the OP's code. – Kerrek SB Jan 26 '17 at 18:09
  • 1
    @Sebi - if a stream is in an invalid state, most operations on it become no-ops. Calling flush on a stream that has gone bad is harmless, and the test is pointless. – Pete Becker Jan 26 '17 at 18:31
6

The stream classes had an operator void*() in one of the base classes in pre-C++11. Of course the void* value could be compared to NULL.

In current C++ this is instead an explicit operator bool() which works in the context of the if statement, but not in a general expression.

The use of a void* was to avoid some unwanted conversions from bool that happened when we didn't have explicit operators.

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