9

I have read from the Wikipedia that:

“References cannot be null, whereas pointers can; every reference refers to some object, although it may or may not be valid.”

But I don’t believe because of following code, look at it, compiler gives no error:

class person
{
  public:
    virtual void setage()=0;
};

int main()
{
  person *object=NULL;
  person &object1=*object;
}

Please elaborate this point.

  • 7
    The article should probably say: "Every reference in a well-formed program refers to an object." Dereferencing a null pointer is of course ill-formed. – GManNickG Jan 29 '10 at 21:08
  • 9
    And let's not all forget our favorite story about null references: gotw.ca/conv/002.htm – GManNickG Jan 29 '10 at 21:12
  • 2
    @GMan: That sounds better to me. And, I LOLed at the linked GOTW. "I cannot teach him; he is drawn to Undefined Behavior:" sadly, I've known people like that. – James McNellis Jan 29 '10 at 21:39
  • 4
    Of course, the program is ill-formed. Mostly because of the missing int. – avakar Jan 29 '10 at 22:07
  • 4
    Not again... another null-reference discussion... The standard explicitly states (8.3.2/4) 'a null reference cannot exist in a well-defined program' – David Rodríguez - dribeas Jan 29 '10 at 22:25
10

Saying person &object1=*object is not the same thing as saying person &object1=NULL. Probably the compiler is just not smart enough to find out that you are dereferencing null pointer, but you'll get a runtime error anyway. So they are kind of true still ;)

20

In your code:

person *object=NULL;
person &object1=*object;

you dereference a NULL pointer, so you get undefined behaviour. And to answer your question, there is no such thing as a NULL reference.

And to address the other part of your question, just because a program compiles, there is no guarantee that it is correct or that it will work. C++ compilers are not required to even attempt to diagnose the kind of error your code contains.

3

that would crash your program. Did you try running it? doing *object will deference a null pointer, so in fact your reference never gets assigned.

  • exelent answer i understood it. – Zia ur Rahman Jan 29 '10 at 21:03
  • I don't think it'll crash. It would crash only if you attempt to access members (or methods) of object1. – Julio Jan 29 '10 at 21:30
  • 2
    It might crash, print 42 or emit blue smoke - simply derefencing a null pointer invokes undefined behaviour so you can't know in advance. – Georg Fritzsche Jan 29 '10 at 21:36
  • 1
    Just tried with GCC. I created a "NULL reference" to string without a word from the compiler. Received a segmentation fault with GDB only when trying to call a member function. IMO, while you technically "can't have" NULL references, it is important to be aware of the issues when things don't go right. - In any case, the answer is wrong. If the behavior of something is undefined, there is no guarantee that it will crash. – UncleBens Jan 29 '10 at 23:17
3

You can have a null reference, not sure why anyone would say otherwise, it is a nasty side effect of some operations. You just can't create one directly.

  • 1
    I should not be surprised to see downvoting, I can always tell what will set off the stupid people of the planet who think they know everything yet know nothing. – Charles Eli Cheese Jan 29 '10 at 22:36
  • 4
    You can get NULL references in practice. Whenever one says, "you can't have NULL references", it should read in a well-formed program. Besides dereferencing NULL pointers, it might also be possible to create a reference, so that &ref == NULL by doing self-initialization: int& ref = ref; (the result could be anything, including NULL, I suppose). - I don't think there'd be anything wrong covering the pragmatic aspect of the problem, but your answer is vague, uninformative and argumentative ("despite what everybody says, [somewhat gibberish point here]"). – UncleBens Jan 29 '10 at 22:50
  • @UncleBens, Null reference has connotations that aren't supported by the language. I think invalid reference better describes the situation. It's a subtle difference but I think it's less controversial. – Mark Ransom Jul 31 '12 at 23:12
2

Well, you can do whatever you want in C++. Another example:

person &object1 = *( reinterpret_cast<person*>(0) );

You are invoking an undefined behavior in the above case, beside the case you mentioned!

  • Is there a reason you prefer reinterpret_cast to a static_cast? (They behave the same in this case of course.) – avakar Jan 29 '10 at 22:33
  • @avakar That's what came to my mind when I wrote the answer :) – AraK Jan 29 '10 at 22:46
1

clang 3.5 even warns on a possible later NULL check of a reference:

/tmp/person.C:11:6: warning: reference cannot be bound to dereferenced null pointer in well-defined C++ code; pointer may be assumed to
      always convert to true [-Wundefined-bool-conversion]
if (&object1) {}
~~   ^~~~~~~
1 warning generated.
0

gcc8 will give a warning about it:

warning: the compiler can assume that the address of 'object1' will never be NULL [-Waddress]

A small demo:

#include <iostream>

class person
{
    public:
        virtual void setage()=0;
};

int main()
{
    person *object=NULL;
    person &object1=*object;

    if (&object1 == NULL) {
        std::cout << "NULL object1" << std::endl;
    }

    if (!(&object1)) {
        std::cout << "NULL object1 " << std::endl;
    }
}

Compile and running output:

g++ -std=c++2a -pthread -fgnu-tm -O2 -Wall -Wextra -pedantic -pthread -pedantic-errors main.cpp -lm -latomic -lstdc++fs && ./a.out

main.cpp: In function 'int main()':

main.cpp:14:18: warning: the compiler can assume that the address of 'object1' will never be NULL [-Waddress]

 if (&object1 == NULL) {

              ^

main.cpp:18:19: warning: the compiler can assume that the address of 'object1' will never be NULL [-Waddress]

 if (!(&object1)) {

               ^

NULL object1

NULL object1

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