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Why the below piece of code is not crashing , though i have deleted the object?

Today i found out that i know nothing about C++ memory management. Please take a look at this piece of code:

class A
     A(){std::cout << "constructor called" << this << std::endl;}
    ~A(){std::cout << "destructor called" << this << std::endl;}
      void test (){std::cout << "test" << this << std::endl;}

 int main(int argc, char *argv[])
QCoreApplication a(argc, argv);

A *aa = new A();

delete aa;
std::cout << "still works\n";
return a.exec();

Why doesn't it crash? Why it still continues executing despite destructor was called? When i call test method i deal with memory that doesn't belong to the app any more.

What is more surprising is it still works even if I insert aa = NULL; right after delete aa;. test method gets called all right. I need to confess that i'm totally confused. What is the purpose of destructors and assigning NULL if it has no effect?

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marked as duplicate by fredoverflow, inf, WhozCraig, birryree, Bhavik Ambani Dec 26 '12 at 1:45

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

Welcome to the realm of undefined behaviour. – StoryTeller Dec 23 '12 at 14:23
aa->test(); would not work after some time... – Anirudha Dec 23 '12 at 14:24
@DimaRudnik that doesn't explain why after aa = NULL; it still works. – icepack Dec 23 '12 at 14:26
@icepack, it most definitely is not! It's a method call. Same syntax, but different meaning. The same syntax was chosen to highlight this is a member function accessed via pointer, same way a member field is accessed. But the semantics are woefully different. – StoryTeller Dec 23 '12 at 14:40
@icepack Why would it be? No vtable lookup is needed. The function to be called is known statically and the this pointer just needs to be passed as argument in case the method uses it. – delnan Dec 23 '12 at 14:41

3 Answers 3

up vote 10 down vote accepted

Why this works?

There are two ways to answer your question:

Technical Answer:

Your code has an Undefined Behavior.
It dereferences a NULL or a deleteed pointer. As per the C++ standard both invoke Undefined Behavior. It works or not is pointless.
Undefined behavior means that any behavior is possible and it may or may not crash but it means that your program cannot be expected to give any well defined output. It simply means that any behavior is possible and it may not be consistent or well defined.

Practical Answer:

It doesn't crash because the compiler does not actually derefence this while calling member function. Unless the function is an virtual function the compiler converts the member function call to a usual function call by passing this as the first parameter to the function. It can do so because the compiler can exactly determine which function to call at compile time itself. So practically, calling the member function through deleted or NULL pointer does not dereference the this(which is invalid if its NULL or deleteed). Further, the this is dereferenced only if any member is accessed inside the function body.
In your case you never access any member inside the function body and hence it does not crash.
Add a member and dereference it inside your function and it should definitely crash.

Regardless, of what is said in practical answer technical answer is above and over everything Since standard says that.

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First you say it dereferences a pointer, then you say it doesn't. – Pubby Dec 23 '12 at 14:26
@Pubby: Edited the answer to describe a bit more.Hope it is much more explanatory now. – Alok Save Dec 23 '12 at 14:46

Why doesn't it crash?

You are invoking undefined behaviour by dereferencing a deleted pointer. Undefined behaviour means your program can do anything. Anything includes not crashing.

If undefined behaviour always meant that your program immediately crashed then it would be easy to debug and fix. One of the nastiest problems with undefined behaviour is that the program can appear to work correctly when you test it and then when you ship it to your customers they get unusual behaviour which you are unable to reproduce. You should always avoid invoking undefined behaviour even if things seem to work on your machine.

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that doesn't explain why after aa = NULL; it still works. – icepack Dec 23 '12 at 14:29
@icepack: Dereferencing a null pointer is also undefined behaviour. This again means that the program could do anything including not crashing. – Mark Byers Dec 23 '12 at 14:30
yes, but dereferencing a null pointer should most definitely yield different results than those of dereferencing this. And that's not the case according to OP. – icepack Dec 23 '12 at 14:32
I'm not so sure about this. The dereferencing isn't some random operation, it's a deterministic computation based on this with a corresponding result. In my opinion having the same result for this and for null is not a valid compiler output. – icepack Dec 23 '12 at 14:38
@icepack: Yes that's an interesting opinion, but unfortunately the compiler doesn't care about your opinion. What matters is what the C++ specification says, and the specification says it's undefined behaviour. Therefore the compiler does not have to generate code that will cause a crash if you dereference an invalid pointer. – Mark Byers Dec 23 '12 at 14:39

That is just undefined behavior, which includes the possibility of a big crash!

Not much more to say, but a quote from the standard may help on the meaning of undefined behavior:

1.3.24 undefined behavior

behavior for which this International Standard imposes no requirements [ Note: Undefined behavior may be expected when this International Standard omits any explicit definition of behavior or when a program uses an erroneous construct or erroneous data. Permissible undefined behavior ranges from ignoring the situation completely with unpredictable results, to behaving during translation or program execution in a documented manner characteristic of the environment (with or without the issuance of a diagnostic message), to terminating a translation or execution (with the issuance of a diagnostic message). Many erroneous program constructs do not engender undefined behavior; they are required to be diagnosed. — end note ]

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