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i'm trying to come up with a concrete reasoning why to use a pointer over a reference as a return type from a function ,

my reasoning is that if inadvertently a null value is returned to a reference type it could not be checked , and could lead to run-time errors

  int& something(int j)
      int* p = 0 ;  
      return *p;

  void main()
      int& i = something(5);
      i = 7;   // run-time error 

if i had used a pointer i could check it and avoid the error the pointer return value would act as a contract to that a value must be returned.

 void main()
         int* i = something(5);
         if( i != null )
             *i = 7;

any thoughts would be appreciated again ,

what would you use and why reference or pointer

thanks in advance.

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You should never return a reference to local memory anyway. –  Chad Oct 18 '11 at 21:10
Why would you do either of those things? –  Benjamin Lindley Oct 18 '11 at 21:10
@Chad: There's no prima facie indication that the reference would be to local memory. As it stands, the code simply returns a null pointer. –  Marcelo Cantos Oct 18 '11 at 21:13
@Marcelo You don't see anything wrong with int& i = 0;? There is a reason why this generates an access violation in it's current state. –  AJG85 Oct 18 '11 at 21:20
@AJG85 The code is just exemplifying what could go wrong when returning a reference (and it's obviously contrived in order to be simple and to the point). The question is not about fixing the code that is incorrect for example purposes. –  R. Martinho Fernandes Oct 18 '11 at 21:23

6 Answers 6

up vote 8 down vote accepted

You could use a pointer instead of a reference if:

  • Null is a valid return value
  • You dynamically constructed something in the function, and the recipient becomes the owner. (In this case, you might consider returning a smart pointer such as std::auto_ptr or boost::shared_ptr.)

Regardless, you would not want to return either a pointer or a reference to a local variable.

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If you inadvertently return a null value, that's a bug. You can just as easily place the check inside something() and throw an exception if it's null.

Having said that, the historical convention is to return heap objects via pointers, even if they are guaranteed to be non-null.

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If your function is intended to "always" return a value, then your function should return a reference.

In those cases where, for some exceptional reason, you cannot find the value to return, you should throw an exception.

You should not rely on there being a run-time error generated when you try to return a reference to a null or wild pointer. The behavior is undefined. Anything could happen.

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References are a different way of thinking. Think of references as "pointers to existing objects". Once you do that, you'll understand why they can't be NULL - the object exists and the reference points to it.

Therefore, if your function returns a reference to something that it creates, it needs to guarantee that it actually does create a valid object. If it does not, or is unable to, then that is grounds to throw an exception.

Contrast that with a pointer. A pointer can be NULL and the caller will have to deal with a NULL return value. Therefore, if your function cannot guarantee that it will return a valid reference and you don't want to throw exceptions, you will need to use pointers.

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C++ references cannot be null. The bug is dereferencing a null pointer. That's undefined behaviour.

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It is usually dependent on what you are trying to accomplish, but I generally treat return values this way:

Return pointer - Caller owns memory (and cleanup)

Reference - Callee owns the memory. DO NOT return a dynamically allocated point unless the callee manages it as well.

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