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Does it ever make sense to check if this is null?

Say I have a class with a method; inside that method, I check this == NULL, and if it is, return an error code.

If this is null, then that means the object is deleted. Is the method even able to return anything?

Update: I forgot to mention that the method can be called from multiple threads and it may cause the object to be deleted while another thread is inside the method.

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It doesn't mean the object was deleted. Deleting a pointer doesn't automatically zero it out, and ((Foo*)0)->foo() is perfectly valid syntax. As long as foo() is not a virtual function, this will even work on most compilers, but it's just icky. – Tim Sylvester Dec 4 '09 at 0:17
"may cause the object to be deleted while another thread is inside the method". This is not acceptable, you must not delete an object while other code (in the same thread or a different one) retains a reference which it will use. It also won't cause this to become null in that other thread. – Steve Jessop Dec 4 '09 at 1:14

Does it ever make sense to check for this==null? I found this while doing a code review.

In standard C++, it does not, because any call on a null pointer is already undefined behavior, so any code relying on such checks is non-standard (there's no guarantee that the check will even be executed).

Note that this holds true for non-virtual functions as well.

Some implementations permit this==0, however, and consequently libraries written specifically for those implementations will sometimes use it as a hack. A good example of such a pair is VC++ and MFC - I don't recall the exact code, but I distinctly remember seeing if (this == NULL) checks in MFC source code somewhere.

It may also be there as a debugging aid, because at some point in the past this code was hit with this==0 because of a mistake in the caller, so a check was inserted to catch future instances of that. An assert would make more sense for such things, though.

If this == null then that means the object is deleted.

No, it doesn't mean that. It means that a method was called on a null pointer, or on a reference obtained from a null pointer (though obtaining such a reference is already U.B.). This has nothing to do with delete, and does not require any objects of this type to have ever existed.

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With delete, the opposite is usually true -- if you delete an object, it doesn't get set to NULL, and then you attempt to call a method on it, you'll find that this != NULL, but it will likely crash or behave oddly if its memory has already been reclaimed for use by some other object. – Adam Rosenfield Dec 4 '09 at 0:19
IIRC, the standard allows for delete to set the pointer to NULL, but does not require it, and in practice almost no implementations do so. – rmeador Dec 4 '09 at 0:25
delete might not always get an l-value though, consider delete this + 0; – GManNickG Dec 4 '09 at 0:31
Visual Studio 6 was released in June 1998. The C++ standard was published in September. OK, so Microsoft could have anticipated the standard, but in principle it is not surprising that many pre-standard compilers do not implement the standard ;-) – Steve Jessop Dec 4 '09 at 1:12
Note that MFC is a bit of a special case because it was never really intended to be used with anything other than VC++, and because the teams were in contact, the MFC team could rely on implementation details like this (and ensure that they'll be around for as long as needed, and behave exactly as desired). Since this behavior is not otherwise documented or guaranteed even for VC++, third-party libraries cannot rely on it. – Pavel Minaev Jan 3 at 20:57

Your note about threads is worrisome. I'm pretty sure you have a race condition that can lead to a crash. If a thread deletes an object and zeros the pointer, another thread could make a call through that pointer between those two operations, leading to this being non-null and also not valid, resulting in a crash. Similarly, if a thread calls a method while another thread is in the middle of creating the object, you may also get a crash.

Short answer, you really need to use a mutex or something to synchonize access to this variable. You need to ensure that this is never null or you're going to have problems.

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"You need to ensure that this is never null" - I think a better approach is to ensure that the left operand of operator-> is never null :) but aside from that, I wish I could +10 this. – Pavel Minaev Dec 4 '09 at 1:03

FWIW, I have used debugging checks for (this != NULL) in assertions before which have helped catch defective code. Not that the code would have necessarily gotten too far with out a crash, but on small embedded systems that don't have memory protection, the assertions actually helped.

On systems with memory protection, the OS will generally hit an access violation if called with a NULL this pointer, so there's less value in asserting this != NULL. However, see Pavel's comment for why it's not necessarily worthless on even protected systems.

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There is still a case for asserts, AV or not. The problem is that an AV will usually not happen until a member function actually tries to access some member field. Quite often they just call something else (etc...), until eventually something crashes down the line. Alternatively, they can call a member of another class or a global function, and pass the (supposedly non-null) this as an argument. – Pavel Minaev Dec 4 '09 at 1:03
@Pavel: true enough - I softened my wording about the value of asserting this on systems with memory protection. – Michael Burr Dec 4 '09 at 8:05
actually, if assert is going to work, then definitely the main code also will work right? – Gokul Mar 8 '10 at 23:27
@Gokul: I'm not sure I fully understand your question, but even if the assert 'passes' you could get a bogus this pointer if your program is doing bad things with pointer arithmetic or maybe calling a member function of a class for an object composed inside embedded in another class through a NULL pointer for the 'outer' class. I hope that sentence made some sort of sense. – Michael Burr Mar 8 '10 at 23:51

I know that this is old but I feel like now that we're dealing with C++11-17 somebody should mention lambdas. If you capture this into a lambda that is going to be called asynchronously at a later point in time, it is possible that your "this" object gets destroyed before that lambda is invoked.

i.e passing it as a callback to some time-expensive function that is run from a separate thread.

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But even if the object is destroyed, won't the lambda end up with a dangling non-null captured this pointer? – interfect Mar 22 at 18:51
Precisely! Checking if "this" == nullptr or NULL will not be sufficient in this case as "this" will be dangling. I was merely just mentioning it since some were skeptical of such a semantic even needing to exist. – Josh Sanders Mar 24 at 1:15

Your method will most likely (may vary between compilers) be able to run and also be able to return a value. As long as it does not access any instance variables. If it tries this it will crash.

As others pointed out you can not use this test to see if an object has been deleted. Even if you could, it would not work, because the object may be deleted by another thread just after the test but before you execute the next line after the test. Use Thread synchronization instead.

If this is null there is a bug in your program, most likely in the design of your program.

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I'd also add that it's usually better to avoid null or NULL. I think the standard is changing yet again here but for now 0 is really what you want to check for to be absolutely sure you're getting what you want.

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Checking for NULL does no such thing. – Lightness Races in Orbit Apr 14 '14 at 9:39

This is just a pointer passed as the first argument to a function (which is exactly what makes it a method). So long as you're not talking about virtual methods and/or virtual inheritance, then yes, you can find yourself executing an instance method, with a null instance. As others said, you almost certainly won't get very far with that execution before problems arise, but robust coding should probably check for that situation, with an assert. At least, it makes sense when you suspect it could be occuring for some reason, but need to track down exactly which class / call stack it's occurring in.

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this == NULL could be useful to have a fallback behavior (for example an optional allocator delegating mechanism that would fallback to malloc/free). I'm not sure its standard but if you NEVER call any virtual function on it and of course no member access inside the method in that branch, there is no actual reason to crash. Otherwise you have a very poor compiler that uses virtual function pointer when they don't need to be, and then before complying strictly to the standard, you better change your compiler.

Sometime it is useful because readibility and refactoring might in very few case win over standard (when its obviously not undefined behavior for all the existing compilers).

About the article: "Still Comparing "this" Pointer to Null" maybe the reason is that the author of the article has less understanding of what a compiler does than Microsoft software team that wrote the MFC.

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"you have a very poor compiler that uses virtual function pointer when they don't need to be, and before complying strictly to the standard, you better change your compiler." - LOL, no. This has nothing to do with virtuals & everything to do with poor coding practices using UB. Fix your code & use a compiler that warns, letting you avoid code that enables totally unnecessary debugging or security holes later. Also: "when its obviously not undefined behavior for all the existing compilers" The Standard dictates UB, not some compiler. Relying on a particular implementation of UB must be avoided. – underscore_d Apr 28 at 12:05

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