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I have a function and call it:

Class1& Class2::get()
   return *m_ptr;

Class1& c = m_class2->get();

m_ptr is a custom smart pointer and I can see in debugger that m_ptr.m_p is 0, also I can see inside its operator T* that it really returns 0. However address of c (&c) is not NULL, it is 0x30! What I see in disassembly:

13059       return *m_ptr;
eaabbc7e:   mov 0x8(%ebp),%eax
eaabbc81:   add $0xb4,%eax
eaabbc86:   mov %eax,(%esp)
eaabbc89:   call 0xea9ce4c0  <operator T*>
eaabbc8e:   add $0x30,%eax
13060     }

Just before line add $0x30,%eax I can see that %eax is 0, that is operator correctly returned NULL.

Why the line to add 0x30 is here???

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Is this question related? –  trojanfoe Apr 19 '12 at 10:00
Well I don't know, I'm not that big expert in asm. –  queen3 Apr 19 '12 at 10:01
I do not deference it. That's not even my code, but it checks if (&c != NULL) and &c != NULL. –  queen3 Apr 19 '12 at 10:03
Without seeing the smart pointer's dereference operator, there's no way to tell whether that's expected or not. Either way, you mustn't dereference a null pointer, even if you're just doing it to initialise a reference. –  Mike Seymour Apr 19 '12 at 10:03
Are you using multiple inheritance ? –  Paul R Apr 19 '12 at 10:07

1 Answer 1

up vote 4 down vote accepted

Although there's not enough information to answer, your comments hint that Class2 involves multiple inheritance, and I will hazard a guess that the template parameter T a derived class, not Class2 itself.

So operator T* returns a pointer to this derived class. In order to dereference it to give Class2&, it must be converted to Class2*, which may involve adding an offset to the pointer, depending on how the compiler lays out the base class sub-objects within the object.

Obviously this is only valid if the pointer is not null; that's one reason why you must never dereference a null pointer even if you're only using the result to initialise a reference.

If the function returned Class2*, then you would get a null pointer as expected; that conversion is required to convert null to null. In your case, since you're invoking undefined behaviour in that case by dereferencing the pointer, there's no need for the compiler to check for null before performing the conversion.

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Actually that was opposite - template parameter T is superclass, while Class2 is it's base, but still this must be the answer! –  queen3 Apr 19 '12 at 10:19
@queen3: Yes, that makes more sense than my guess. –  Mike Seymour Apr 19 '12 at 10:47
What's interesting is that this code (which is being ported to Linux) seems to work under Windows. I suppose MS always checks for NULL, even for references. –  queen3 Apr 19 '12 at 11:26

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