Inspired by the post Why does destructor disable generation of implicit move methods?, I was wondering if the same is true for the default virtual destructor, e.g.

class WidgetBase // Base class of all widgets
        virtual ~WidgetBase() = default;
        // ...

As the class is intended to be a base class of a widget hierarchy I have to define its destructor virtual to avoid memory leaks and undefined behavior when working with base class pointers. On the other hand I don't want to prevent the compiler from automatically generating move operations.

Does a default virtual destructor prevent compiler-generated move operations?


Yes, declaring any destructor will prevent the implicit-declaration of the move constructor.

N3337 [class.copy]/9: If the definition of a class X does not explicitly declare a move constructor, one will be implicitly declared as defaulted if and only if

  • X does not have a user-declared copy constructor,
  • X does not have a user-declared copy assignment operator,
  • X does not have a user-declared move assignment operator,
  • X does not have a user-declared destructor, and
  • the move constructor would not be implicitly defined as deleted.

Declaring the destructor and defining it as default counts as user-declared.

You'll need to declare the move constructor and define it as default yourself:

WidgetBase(WidgetBase&&) = default;

Note that this will in turn define the copy constructor as delete, so you'll need to default that one too:

WidgetBase(const WidgetBase&) = default;

The rules for copy and move assignment operators are pretty similar as well, so you'll have to default them if you want them.


Not a solution, but one of possible workarounds. You can inherit all of your classes from a class that has only default virtual destructor.

I checked using GCC 9 and Apple's Clang++ with -std=c++17: both of them generate move constructors for classes that inherit the class below.

class Object {
    virtual ~Object() = default;

The class below will indeed have a move constructor.

class Child : public Object {
    Child(std::string data) : data(data) {

    std::string data;


Another possible but risky workaround would be to not declare virtual destructors at all. It would introduce the following risks:

  • All objects must always be destructed by someone who knows their exact type. Which is not really that big of a problem in a nicely designed C++ code.
  • When object of such class is stored in a container like std::vector or std::list it must always be wrapped using std::shared_ptr. std::unique_ptr would cause leaks! That's related to their differences related to storing deleter.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.