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What could this possibly mean in C++11?

struct : bar {} foo {};
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up vote 225 down vote accepted

First, we'll take a bog-standard abstract UDT (User-Defined Type):

struct foo { virtual void f() = 0; }; // normal abstract type
foo obj;
// error: cannot declare variable 'obj' to be of abstract type 'foo'

Let's also recall that we can instantiate the UDT at the same time that we define it:

struct foo { foo() { cout << "!"; } };          // just a definition

struct foo { foo() { cout << "!"; } } instance; // so much more
// Output: "!"

Let's combine the examples, and recall that we can define a UDT that has no name:

struct { virtual void f() = 0; } instance; // unnamed abstract type
// error: cannot declare variable 'instance' to be of abstract type '<anonymous struct>'

We don't need the proof about the anonymous UDT any more, so we can lose the pure virtual function. Also renaming instance to foo, we're left with:

struct {} foo;

Getting close.

Now, what if this anonymous UDT were to derive from some base?

struct bar {};       // base UDT
struct : bar {} foo; // anonymous derived UDT, and instance thereof

Finally, C++11 introduces extended initialisers, such that we can do confusing things like this:

int x{0};

And this:

int x{};

And, finally, this:

struct : bar {} foo {};

This is an unnamed struct deriving from bar, instantiated as foo with a blank initializer.

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"Abusing the parser: C++ edition". Great answer. – Etienne de Martel Aug 15 '11 at 16:41
+1, a great answer. And now I'm sure I don't want to learn C++. – Larry K Aug 15 '11 at 16:43
@Larry K missing out on such a versatile language just because of an example on how to completely abuse it doesn't seem like the smartest decision ;] – stijn Aug 15 '11 at 16:46
@Giorgio: Why is this a problem? What exactly scares you? The described construction is a fringe case that's allowed by the language and follows naturally from its core concepts, there's nothing wrong with it. It's also of very limited utility. You will never have to use it. However, it's syntactically logical and doesn't collide or conflict with anything. So, why would this be an argument against a language, especially one which exceptionally well designed? – Kerrek SB Aug 15 '11 at 16:55
@Giorgio: To be honest, any such effort would have to work on rebuilding C++ from the ground up, i.e. creating a new language. And that has been done... many times. – Lightness Races in Orbit Aug 15 '11 at 17:04

This defines:

  • an anonymous struct,
  • which is derived publicly from bar
  • which (anonymously) defines nothing else but what it derived from bar
  • and finally, an instance, called "foo" is created,
  • with an empty initializer list

struct : bar {} foo {};
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The anonymous class-type derives publicly from bar. I think the private vs. public default access for base classes matches that for members inside the definition block (which is private for class and public for struct). – CTMacUser Apr 6 '12 at 9:30
@Frunsi this should be fixed, it derives publicly by default because it's a struct – Stephen Lin Mar 6 '13 at 5:01
+1 for succinctness. – DuckMaestro Oct 18 '14 at 0:41

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