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If I delete an object which causes its destructor to be called, does the memory get freed before or after the destructor has finished doing whatever there is in the function?

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6 Answers 6

up vote 7 down vote accepted

Memory is only freed once the least derived class subobject has been destroyed. So if you have:

class Base {

class Derived : public Base {

then first Derived is destroyed, then Base is destroyed and only then memory is deallocated.

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Is there actually such a thing? A particular destructor is called, which may be virtual if the class declared it as such. That destructor is responsible for destroying all subobjects, and then the memory is freed. All subobjects without base classes are equally least-derived, and none have particular responsibility or significance. –  Potatoswatter Jan 25 '11 at 11:39
@Potatoswatter: Note I haven't specified who exactly is responsible for calling the deallocation function - exactly because doing so in all details would require a two-pages answer. –  sharptooth Jan 25 '11 at 11:45
@Potatoswatter: I am not sure I follow. No destructor is responsible for destroying subobjects. The destructor is responsible for freeing the resources held in that object, but does not have to (nor should it) call the destructor of other objects: class test { string a; ~test() {} }; The ~test destructor is perfectly defined in this example, there is no resource directly managed by the class and does nothing. The system will call ~string on the a subobject after ~test has completed execution, not ~test. The same goes with inheritance, base's destructor will be automatically called. –  David Rodríguez - dribeas Jan 25 '11 at 12:06
... note that what has to be dealt with is getting the most derived class 's destructor to get called. After that is achieved, the system will ensure that all of the base's destructor get called in reverse order of construction. Going back to the responsibility, if a member holds a resource that needs specific management and that is not held by that type's destructor --think a pointer that needs delete -ing and being a pointer has no destructor-- then that resource has to be managed in the containing class. –  David Rodríguez - dribeas Jan 25 '11 at 12:08
@David: "No destructor is responsible for destroying subobjects." Well, not explicitly, no: you don't have to explicitly call this->~Base() inside of ~Derived(). However, at least the way it's formally defined, ~Derived() is responsible for calling this->~Base() (and a.~string() in your comment example). When you use delete, one destructor gets called and that destructor is responsible for calling all cleanup, including by calling any base class or member destructors if so needed. –  James McNellis Jan 25 '11 at 15:51

Decompose delete into what it is actually doing and it is relatively clear to see when the memory is deleted. So a statement like this:

delete some_ptr;

Is roughly equivalent to this pseudo-code:

free( some_ptr );

So the memory is freed after the call to the destructor. Exactly what the destructor does is not determined by the delete operator, but rather the definition of the class. Usually it does local cleanup and ensures that its base class destructors are also called.

It is important to realize that freeing the memory is not actually part of the destructor. It is the delete operator which frees the memory.

Note that the free function in pseudo-code is actually one of the operator delete() functions, either for the deleted class, or global. That actually frees up the memory.

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That's not free(), that's operator delete(). –  sharptooth Jan 25 '11 at 13:39
@sharptooth, can you clarify? I did mention that was 'pseudo-code'. –  edA-qa mort-ora-y Jan 25 '11 at 13:46
Even if it's pseudocode C++ uses operator delete() - either global or class-specific - for deallocating memory upon delete statement. –  sharptooth Jan 25 '11 at 13:50
Yes, that's correct, though for the pseudo code I think "free" is clearer in understanding (not to have a recursive delete in there) –  edA-qa mort-ora-y Jan 25 '11 at 13:59
@sharptooth: Its hard to describe an operator in terms of itself. The use of free() as an example is acceptable as long as you mention it is pseudocode . Though I would have used release() to prevent confusion with any specific API. –  Loki Astari Jan 25 '11 at 16:46

The memory gets freed after the destructor has finished. Otherwise, accessing member variables inside the destructor would cause segfaults.

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operator delete is called after destructor, but when the memory is freed is up to used allocator

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I would think that the memory is freed after the destructor function itself has finished executing. I know that when an exception is caught, the destructor to the object is not called until the object itself goes out of scope.

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In C++, destruction is about executing some code using the data available in the object. This code is arbitrary.

Free'ing the memory is a low level handling, hidden by the delete operator in general, that should never be called prior to calls to the destructor.

This is best summarized by the Allocator interface:

  • allocate and deallocate are used to manipulate raw memory
  • construct and destroy are used to call the constructors and destructors of the objects

It is precised that construct, destroy and deallocate should only be executed on memory previously allocated by that allocator. It also precises that destroy does not deallocate the memory, and that a subsequent call to deallocate will be necessary.

Note that this is a low-level interface, which allow destroying an object and reusing the freed space to construct another in place.

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