In a couple of my older code projects when I had never heard of smart pointers, whenever I needed to check whether the pointer still pointed to a valid object, I would always do something like this...

object * meh = new object;

Or when I needed to delete the object safely, something like this

    delete meh;
    meh = 0;

Well, now I have learned about the problems that can arise from using objects and pointers in boolean expressions both with literal numbers, the hard way :. And now I've also learned of the not so new but pretty cool feature of C++, the nullptr keyword. But now I'm curious.

I've already gone through and revised most of my code so that, for example, when deleting objects I now write

    delete meh;
    meh = nullptr;

Now I'm wondering about the boolean. When you pass just say an int into an if statement like this,

int meh;

Then it implicitly checks for zero without you needing to write it.

if(meh == 0) // does the exact same check

Now, will C++ do the same for pointers? If pass in a char * like this to an if statement?

char * meh;

Then will it implicitly compare it with nullptr? Because of how long I have been writing these ifs like this, it is second nature at this point to check if the pointers valid before using by typing if (object *) and then calling its members. If this is not the functionality why not? Too difficult to implement? Would solve some problems by removing yet another tiny way you could mess up your code.

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    You do not need to ckeck pointers before deleteing. It is completely safe to delete a nullptr. – n.m. Jul 1 '12 at 5:13
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    In your last example, did you mean char * meh = nullptr; if(meh)? The pointer is uninitialized. – Jesse Good Jul 1 '12 at 5:18
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    The result of your new expression will never be null, exceptions are used instead. An as mentioned, deleting null is fine, it does nothing. Also, it's generally better to not reset a pointers value to null. The last time it's used should be the last time it's not null, so having access to a deleted pointer should be considered a bug; setting it to null hides that. – GManNickG Jul 1 '12 at 5:22
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    "I'll always set a pointer to zero after invalidating it, so I know a pointer that's non-zero is valid" is an anti-pattern. What happens if you have two pointers to the same object? Setting one to zero won't affect the other. – David Schwartz Jul 1 '12 at 5:27
  • k let's say that when you delete the object it's not the last time you use it. let's say just for example that it has been deleted when you try and use it again at some point. it still contains the reference to where it was before if you didn't zero it out. so when i call if(object *) it will still resolve true, even though the object is true, and you may try and call members on it. your saying this wouldn't cause runtime errors? – FatalCatharsis Jul 1 '12 at 5:30

In C, anything that's not 0 is true. So, you certainly can use:

if (ptrToObject) 

to safely dereference pointers.

C++11 changes the game a bit, nullptr_t is a type of which nullptr is an instance; the representation of nullptr_t is implementation specific. So a compiler may define nullptr_t however it wants. It need only make sure it can enforce proper restriction on the casting of a nullptr_t to different types--of which boolean is allowed--and make sure it can distinguish between a nullptr_t and 0.

So nullptr will be properly and implicitly cast to the boolean false so long as the compiler follows the C++11 language specification. And the above snippet still works.

If you delete a referenced object, nothing changes.

delete ptrToObject;
ptrToObject = nullptr;

Because of how long I have been writing these ifs like this, it is second nature at this point to check if the pointers valid before using by typing if (object *) and then calling it's members.

No. Please maintain a proper graph of objects (preferably using unique/smart pointers). As pointed out, there's no way to determine if a pointer that is not nullptr points to a valid object or not. The onus is on you to maintain the lifecycle anyway.. this is why the pointer wrappers exist in the first place.

  • well yeh i knew that. when left without a comparison, if statements check whether whatever is passed in resolves to literal anything but 0. if int meh = 0 then it resolves false. however if the address of say an int * is 0x000 etc meaning it doesn't point at anything and the bool will resolve false. if it does point at somewhere, then it isn't zero and then it resolves true. but what if you delete the object at the pointer? the ptr stil contains the address like 0x81A3 or something, but the object is gone. you call the if, and it resolves true, even though there isn't an object there. – FatalCatharsis Jul 1 '12 at 5:21
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    that would cause a runtime error, if you forgot to zero out the pointer. but if the pointer was compared implicitly with nullptr, then whether the pointer was 0 or addressed something, it would resolve false when the object wasn't there. – FatalCatharsis Jul 1 '12 at 5:23
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    Yes. So what's your question? – dcow Jul 1 '12 at 5:28
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    @FatalCatharsis In both C and C++, a null pointer compares equal to integral zero and a non-null pointer compares not-equal to integral zero -- no matter what the bitwise representation of the pointer is. – ephemient Jul 1 '12 at 5:52
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    What do you mean "the behavior is implementation-specific"? It behaves like the standard says it should behave. Its representation and implementation is up to the implementation (but that's nothing new. The representation of an "old-style" null pointer was also implementation-defined) – jalf Jul 1 '12 at 6:35

It's not possible to test whether a pointer points to a valid object or not. If the pointer is not null but does not point to a valid object, then using the pointer causes undefined behaviour. To avoid this sort of error, the onus is on you to be careful with the lifetime of objects being pointed to; and the smart pointer classes help with this task.

If meh is a raw pointer then there is no difference whatsoever between if (meh) and if (meh != 0) and if (meh != nullptr). They all proceed iff the pointer is not null.

There is an implicit conversion from the literal 0 to nullptr .

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