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C++: Delete this?

In C++, is it ok to delete the self object in function definition. What are side effects of this?

class MyClass {

public:
    void ~myClass() {}
    void myFunction() { 
        // logic here
        delete this;
    }
}

Thanks!

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marked as duplicate by Shamim Hafiz, Bo Persson, Loki Astari, Ben Voigt, GManNickG Aug 5 '11 at 6:31

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.

3  
stackoverflow.com/questions/3150942/c-delete-this. Constructors and destructors don't have return type. Not even void. –  Mahesh Aug 5 '11 at 6:04
1  
What you have there won't even compile? Did you try it out at your end? –  Shamim Hafiz Aug 5 '11 at 6:05
    
The only time I've ever done this is when writing plugin architecture, where the delete needed to happen in the loaded objects memory space. The destructor was private and pure virtual, and classes inherited from it. –  GManNickG Aug 5 '11 at 6:13

5 Answers 5

You may delete an object from within itself, but it is necessary that you do not, afterward, access any member variables or functions of that class instance after doing so.

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4  
@Luchian: +1 to counter. You're wrong, here. What you're doing is trying to describe undefined behavior, which is, of course, silly. Sure on most platforms that's fine, but that no longer has anything to do with C++, but C++ on a platform with a certain compiler with certain weather, etc... –  GManNickG Aug 5 '11 at 6:11
5  
@Luchian, what, pray tell, will those member functions do (in implementation of themselves) if not dereference this? Seems a bit silly to have a non-static member function that doesn't do something with member variables, doesn't it? –  dash-tom-bang Aug 5 '11 at 6:13
1  
On all compilers I've worked with a call to a non-virtual method results in {call A::foo} after placing arguments on the stack. And I'm 99% sure calling methods like this works every time. –  Luchian Grigore Aug 5 '11 at 6:14
4  
@Luchian: Like I just said, it's undefined behavior in C++. How it happens to work on your computer under a certain compiler has nothing to do with the C++ language. –  GManNickG Aug 5 '11 at 6:15
2  
@luchian: Define "work". For me, "works" means "does what I expect with well-defined behavior". You have undefined behavior at a->foo(); I've written an entire Q&A on it. If you don't care about undefined behavior, that's fine, but then you've already lost the argument (and quality of code!). –  GManNickG Aug 5 '11 at 6:30

From parashift FAQ:

Is it legal (and moral) for a member function to say delete this?

As long as you're careful, it's OK for an object to commit suicide (delete this).

Here's how I define "careful":

  • You must be absolutely 100% positively sure that this object was allocated via new (not by new[], nor by placement new, nor a local object on the stack, nor a global, nor a member of another object; but by plain ordinary new).

  • You must be absolutely 100% positively sure that your member function will be the last member function invoked on this object.

  • You must be absolutely 100% positively sure that the rest of your member function (after the delete this line) doesn't touch any piece of this object (including calling any other member functions or touching any data members).

  • You must be absolutely 100% positively sure that no one even touches the this pointer itself after the delete this line. In other words, you must not examine it, compare it with another pointer, compare it with NULL, print it, cast it, do anything with it.

Naturally the usual caveats apply in cases where your this pointer is a pointer to a base class when you don't have a virtual destructor.

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You were doing so well... but the end is wrong. You can do anything you want with the this pointer that doesn't involve dereferencing it. Specifically, all your examples "compare with another pointer, compare with NULL, print it" and so on are actually quite safe. –  Ben Voigt Aug 5 '11 at 6:09
    
Legal yes. Moral: No. Consider the separation of concerns. You are adding resource management logic into business object. –  Loki Astari Aug 5 '11 at 6:11
1  
The first three bullets are absolutely correct, Nawaz :) –  paulsm4 Aug 5 '11 at 6:14
    
@Martin You make a good point, but sometimes this is the only viable option. Say you're writing a shared library that exports a C++ class via an abstract interface. Then the deletion of this object must happen within the memory space of the library. So delete this is the only safe option. –  Praetorian Aug 5 '11 at 6:20
    
@Praetorian: Having to delete memory within the same library is no longer true. This was the result of the MS statically linking the C-runtime with each library. The resulted in a different heap for each library and thus dynamically allocated objects had to be deallocated by the same library so they were placed back on the correct heap. With the advent of dll and MS changing the default in visual studio to link the C-runtime dynamically this is no longer true (unless for some strange reason you still link the C-runtime statically). –  Loki Astari Aug 5 '11 at 6:52

It's pretty dangerous. Consider this:

void foo() {
   MyClass bar;
   bar.myFunction(); // calls delete
}  // bar goes out of scope, calls delete again

Check out this C++FAQ 16.15 entry for when doing delete this is possible - it's legal, just needs to be used bery carefully.

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Depends on your definition of ok!

You can do this, if you are careful, but you shouldn't do it without very good reason, because no-one will be expecting it, and because there is no guarantee that the object has been allocated with new.

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The side effects of that are that the object is no longer valid, nor are pointers or references to that object.

I've seen this pattern a lot of places. Typically it's used in a reference counting sort of situation, when the last reference to the object goes away the object deletes itself. It's also typically paired with a factory function of some sort, e.g. a static class member function named Create, taking no parameters, and returning a pointer to the class. The body of this function does the corresponding new, and your constructor can even be private (that way people don't create the object in a way that will mess up your cleanup code).

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