21

I was looking into how std::tr1::shared_ptr<> provides the ability to cast to bool. I've got caught out in the past when trying to create a smart pointer that can be casted to bool as the trivial solution, ie

operator bool() {
  return m_Ptr!=0;
}

usually ends up being implicitly castable to the pointer type (presumably by type promotion), which is generally undesirable. Both the boost and Microsoft implementations appear to use a trick involving casting to an unspecified_bool_type(). Can anyone explain how this mechanism works and how it prevents implicit casting to the underlying pointer type?

1
  • All great answers, thanks. Good to be able to put a name to it too -- hadn't come across the safe bool idiom before. Jul 7, 2010 at 10:24

3 Answers 3

35

The technique described in the question is the safe bool idiom.

As of C++11, that idiom is no longer necessary. The modern solution to the problem is to use the explicit keyword on the operator:

explicit operator bool() {
  return m_Ptr != nullptr;
}
1
  • Oh, I knew of the safe bool idiom and recently discovered the explicit conversion operators, but I didn't know about this lil' null_ptr thingy. Thanks :) Jul 7, 2010 at 9:12
5

The trick works like this. You define all this inside your smart pointer type (in this case, shared_ptr):

private:

  struct Tester
  {
    Tester(int) {}  // No default constructor
    void dummy() {}
  };

  typedef void (Tester::*unspecified_bool_type)();

public:

  operator unspecified_bool_type() const
  {
    return !ptr_ ? 0 : &Tester::dummy;
  }

ptr_ is the native pointer inside the smart pointer class.

As you can see, unspecified_bool_type is a typedef to a type that cannot be accessed by any external code, since Tester is a private struct. But calling code can use this (implicit) conversion to a pointer type and check whether it is null or not. Which, in C++, can be used as a bool expression.

10
  • What's up with the ##ModelId?
    – kennytm
    Jul 7, 2010 at 8:55
  • @KennyTM: Sorry, just removed that.
    – Gorpik
    Jul 7, 2010 at 8:55
  • 1
    You need to provide implementations of != and == for Tester::unspecified_bool_type or you'll allow meaningless comparissons between instances of the class to compile.
    – JoeG
    Jul 7, 2010 at 8:59
  • @Joe Gauterin: Why? Tester::unspecified_bool_type is just a pointer (a pointer to a function, in fact), you don't need to define such a thing. And there is no problem in comparing those pointers; after all, the comparisons behave as expected.
    – Gorpik
    Jul 7, 2010 at 9:07
  • 1
    @Gorpik: If you == compare two instances of a class using the idiom, they'll both implicitly convert to the unspecified_bool_type, the comparrison will return whether they both have the same conversion to unspecified_bool_type, not whether they are equal.
    – JoeG
    Jul 7, 2010 at 10:15
3

Usually what it returns is a member pointer. Member pointers can be treated like a bool but don't support many of the implicit conversions which bool does.

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