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I was thinking: they say if you're calling destructor manually - you're doing something wrong. But is it always the case? Are there any counterarguments? Situations, where it is neccessary to call it manually, where it is hard/impossible/impractical to avoid it?

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How are you going to deallocate the object after calling the dtor, without calling it again? –  ssube Jan 6 '13 at 21:36
@peachykeen: you would call placement new to initialize a new object in place of the old. Generally not a good idea, but it isn't unheard of. –  D.Shawley Jan 6 '13 at 21:38
Look at "rules" that contain the words "always" and "never" that don't come directly from specifications with suspect: in the most of the cases who is teaching them wants to hide you things you should know but he doesn't know how to teach. Just like an adult answering to a child to a question about sex. –  Emilio Garavaglia Jan 6 '13 at 22:24

9 Answers 9

up vote 33 down vote accepted

Calling the destructor manually is required if the object was constructed using an overloaded form of operator new(), except when using the "std::nothrow" overloads:

T* t0 = new(std::nothrow) T();
delete t0; // OK: std::nothrow overload

void* buffer = malloc(sizeof(T));
T* t1 = new(buffer) T();
t1->~T(); // required: delete t1 would be wrong

Outside managing memory on a rather low level as above calling destructors explicitly, however, is a sign of bad design. Probably, it is actually not just bad design but outright wrong (yes, using an explicit destructor followed by a copy constructor call in the assignment operator is a bad design and likely to be wrong).

With C++ 2011 there is another reason to use explicit destructor calls: When using generalized unions, it is necessary to explicitly destroy the current object and create a new object using placement new when changing the type of the represented object. Also, when the union is destroyed, it is necessary to explicitly call the destructor of the current object if it requires destruction.

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Instead of saying "using an overloaded form of operator new", the correct phrase is "using placement new". –  Remy Lebeau Jan 6 '13 at 22:47
@RemyLebeau: Well, I wanted to clarify that I'm not only talking only of operator new(std::size_t, void*) (and the array variation) but rather about all overloaded version of operator new(). –  Dietmar Kühl Jan 6 '13 at 22:56

All answers describe specific cases, but there is a general answer:

You call the dtor explicitly every time you need to just destroy the object (in C++ sense) without releasing the memory the object resides in.

This typically happens in all the situation where memory allocation / deallocation is managed independently from object construction / destruction. In those cases construction happens via placement new upon an existent chunk of memory, and destruction happens via explicit dtor call.

Here is the raw example:

  char buffer[sizeof(MyClass)];

  MyClass* p = new(buffer)MyClass;

  MyClass* p = new(buffer)MyClass;

Another notable example is the default std::allocator when used by std::vector: elements are constructed in vector during push_back, but the memory is allocated in chunks, so it pre-exist the element contruction. And hence, vector::erase must destroy the elements, but not necessarily it deallocates the memory (especially if new push_back have to happen soon...).

It is "bad design" in strict OOP sense (you should manage objects, not memory: the fact objects require memory is an "incident"), it is "good design" in "low level programming", or in cases where memory is not taken from the "free store" the default operator new buys in.

It is bad design if it happens randomly around the code, it is good design if it happens locally to classes specifically designed for that purpose.

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As quoted by the FAQ, you should call the destructor explicitly when using placement new.

This is about the only time you ever explicitly call a destructor.

I agree though that this is seldom needed.

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No, you shouldn't call it explicitly because it would be called twice. Once for the manual call and another time when the scope in which the object is declared ends.


  Class c;

If you really need to perform the same operations you should have a separate method.

There is a specific situation in which you may want to call a destructor on a dynamically allocated object with a placement new but it doesn't sound something you will ever need.

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Any time you need to separate allocation from initialization, you'll need placement new and explicit calling of the destructor manually. Today, it's rarely necessary, since we have the standard containers, but if you have to implement some new sort of container, you'll need it.

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There are cases when they are necessary:

In code I work on I use explicit destructor call in allocators, I have implementation of simple allocator that uses placement new to return memory blocks to stl containers. In destroy I have:

  void destroy (pointer p) {
    // destroy objects by calling their destructor

while in construct:

  void construct (pointer p, const T& value) {
    // initialize memory with placement new
    #undef new
    ::new((PVOID)p) T(value);

there is also allocation being done in allocate() and memory deallocation in deallocate(), using platform specific alloc and dealloc mechanisms. This allocator was used to bypass doug lea malloc and use directly for example LocalAlloc on windows.

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I have never come across a situation where one needs to call a destructor manually. I seem to remember even Strousup claims it is bad practice.

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You've never written a memory pool... –  Luchian Grigore Jan 6 '13 at 21:41
You are correct. But I have used a placement new. I was able to add the cleanup functionality in a method other then the destructor. The destructor is there so it can "automatically" be called when one does delete, when you manually want to destruct but not deallocate you could simply write an "onDestruct" couldn't you? I would be interested to hear if there are examples where an object would have to do its destruction in the destructor because sometimes you would need to delete and other times you would only want to destruct and not deallocate.. –  Lieuwe Jan 7 '13 at 9:09
And even in that case you could call onDestruct() from within the destructor - so I still don't see a case for manually calling the destructor. –  Lieuwe Jan 7 '13 at 9:26
Who is Strousup? –  Jim Balter Jun 6 '13 at 11:24

No, Depends on the situation, sometimes it is legitimate and good design.

To understand why and when you need to call destructors explicitly, let's look at what happening with "new" and "delete".

To created an object dynamically, T* t = new T; under the hood: 1. sizeof(T) memory is allocated. 2. T's constructor is called to initialize the allocated memory. The operator new does two things: allocation and initialization.

To destroy the object delete t; under the hood: 1. T's destructor is called. 2. memory allocated for that object is released. the operator delete also does two things: destruction and deallocation.

One writes the constructor to do initialization, and destructor to do destruction. When you explicitly call the destructor, only the destruction is done, but not the deallocation.

A legitimate use of explicitly calling destructor, therefore, could be, "I only want to destruct the object, but I don't (or can't) release the memory allocation (yet)."

A common example of this, is pre-allocating memory for a pool of certain objects which otherwise have to be allocated dynamically.

When creating a new object, you get the chunk of memory from the pre-allocated pool and do a "placement new". After done with the object, you may want to explicitly call the destructor to finish the cleanup work, if any. But you won't actually deallocate the memory, as the operator delete would have done. Instead, you return the chunk to the pool for reuse.

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Memory is no different than other resource: you should have a look at http://channel9.msdn.com/Events/GoingNative/GoingNative-2012/Keynote-Bjarne-Stroustrup-Cpp11-Style especially the part where Bjarne talks about RAII (around ~30min)

All the necessary templates (shared_ptr, unique_ptr, weak_ptr) are part of the C++11 standard library

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