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Under Visual C++ 2010, the following snippet hides a dubious behaviour:

CObject* myObjectPtr = CObjectFactory::MakeAnObject();
assert( myObjectPtr->CanDoSomeWork() ); // myObjectPtr can be null due to logical errors

The following snippet, when placed in a function, did not trigger the assert when the pointer was NULL and the function returned immediately. Aside from an extra null pointer check obvious fix that anyone could suggest, what made the code behave in such a way? Shouldn't it usually complain about a memory access violation error even if that error occurs within an assert?

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4  
It it plain undefined behaviour. So anything could happen. Little point in trying to figure out why a particular "something" happened. –  juanchopanza Apr 25 '13 at 8:58
    
does assert(true) raises anything? –  Elazar Apr 25 '13 at 8:59
    
@Elazar, yes, it's running in Debug mode, asserts enabled and triggering for 'normal' situation.s –  teodron Apr 25 '13 at 9:07
    
@juanchopanza thanks, I figured out it must've been undefined behaviour, but that particular point took me almost one month of searching in all the wrong places for the bug-source and I'd like to prevent even such clumsy mistakes from consuming more than a few minutes of debug time in the future (hence a motive to understand the cause better - VS2010 should have a particular implementation specification for this - may be different with other compilers). –  teodron Apr 25 '13 at 9:14
    
What is CanDoSomeWork doing? Does it access CObject* members? –  Werner Henze Apr 25 '13 at 10:03

2 Answers 2

up vote 2 down vote accepted
myObjectPtr->CanDoSomeWork()

If CanDoSomeWork is not a virtual function then the compiler effectively rewrites this as C_Object::CanDoSomeWork(myObjectPtr)

This doesn't involve any dereference of the object pointer at all so it won't crash or fail. If it's a virtual function then it will likely crash as it will use the pointer to find the vtable.

Of course none of this is guaranteed by anything in the standard, it's all undefined behavour, however it explains what you are seeing happen.

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Indeed, it was a non-virtual function - thank you for the explanation. –  teodron Apr 25 '13 at 11:08
    
Formally, calling a non-static member function is a dereference of the object pointer. This results in undefined behavior. Whether it crashes or fails or seems to work as you expect depends on the compiler. –  Pete Becker Apr 25 '13 at 12:00
1  
Yes indeed. It just happens to work like this on most compilers because it's the easiest and obvious way to implement it. Don't ever rely on it working like this! –  jcoder Apr 25 '13 at 12:04
    
@jcoder and even if it is compiled the obvious way, it won't segfault if the system has address 0 mapped to valid memory. Luckily most platforms don't in order to help the programmer catch errors. –  Antimony Aug 16 at 23:02
assert( myObjectPtr->CanDoSomeWork() );

will cause segfault(or UB) if myObjectPtr is NULL. Because NULL->* is undefined behavior.
You should check if myObjectPtr is not a NULL pointer first.

assert (myObjectPtr != 0);
assert( myObjectPtr->CanDoSomeWork() .....);  // if you still need this (?)
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yes, that was the obvious direction in the second I realized what was happening. But suppose you consider a pointer to be consistent and leave out the first assert, then the second assert might not crash the application as expected and hide a critical error altogether. –  teodron Apr 25 '13 at 9:09
    
@teodron Yes exactly! It would have been nice if it segafault always. However it might not sometimes. Undefined behavior. So you should always check if your pointers are null before trying to deference them or indirect them. –  Named Apr 25 '13 at 9:13
    
Re: "segfault (or UB)" - formally, the behavior is undefined. That means only that the language definition doesn't tell you what happens; it doesn't mean that bad things must happen. Undefined behavior often manifests as a segfault, but it often does not. –  Pete Becker Apr 25 '13 at 12:01

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