I'm working on a tool based on clang's AST, and I'm curious to know why clang works this way.

Here's my input. I have a very simple class that is defined like this:

class Foo {
    int foo();

Then in my RecursiveASTVisitor, I have code that looks like this:

bool MyASTVisitor::VisitCXXRecordDecl(clang::CXXRecordDecl *D) {
    for (auto const & method : D->methods()) {
        llvm::outs() << method->getQualifiedNameAsString() << "(";
        for (auto const & param : method->params())
            llvm::outs() << param->getType().getAsString() << ", ";
        llvm::outs() << ")";
        if (method->isImplicit())
            llvm::outs() << " [implicit]";
        llvm::outs() << "\n";
    return true;

All this does is spit out the list of methods defined in all the classes that are visited. The output for this is as we'd expect:


Now, let's make a small change to our Foo class. Let's make the foo() method virtual:

class Foo {
    virtual int foo();

Now my output changes:

Foo::operator=(const class Foo &, ) [implicit]
Foo::~Foo() [implicit]

My question is, why does adding a virtual method to a class cause clang to create an implicit assignment operator and destructor? If I add --std=c++11, it creates an implicit move-assignment operator as well. Is this an implementation detail of clang, or is it part of the C++ standard?

  • A way to copy the vtable and destroy it ? – Jarod42 Sep 24 '15 at 23:31
  • 2
    BTW, standard doesn't make rules on resulting AST. – Jarod42 Sep 24 '15 at 23:32
  • Note that every class has a destructor. C++ as a language is not immediately connected with a compiler's AST. – Kerrek SB Sep 25 '15 at 0:00

Turns out that I should just read the clang source code. SemaDeclCXX.cpp has a method called Sema::AddImplicitlyDeclaredMembersToClass. There's a comment about why it declares the implicit copy assignment:

if (!ClassDecl->hasUserDeclaredCopyAssignment()) {

  // If we have a dynamic class, then the copy assignment operator may be
  // virtual, so we have to declare it immediately. This ensures that, e.g.,
  // it shows up in the right place in the vtable and that we diagnose
  // problems with the implicit exception specification.
  if (ClassDecl->isDynamicClass() ||

So it does this in order to ensure that the implicitly defined methods, that may be virtual, end up in the right place in the vtable.

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