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classes in the stl, such as unique_ptr will occasionally show examples such as:

// unique_ptr constructor example
#include <iostream>
#include <memory>

int main () {
  std::default_delete<int> d;
  std::unique_ptr<int> u1;
  std::unique_ptr<int> u2 (nullptr);
  std::unique_ptr<int> u3 (new int);
  std::unique_ptr<int> u4 (new int, d);
  std::unique_ptr<int> u5 (new int, std::default_delete<int>());
  std::unique_ptr<int> u6 (std::move(u5));
  std::unique_ptr<void> u7 (std::move(u6));
  std::unique_ptr<int> u8 (std::auto_ptr<int>(new int));

  std::cout << "u1: " << (u1?"not null":"null") << '\n';
  std::cout << "u2: " << (u2?"not null":"null") << '\n';
  std::cout << "u3: " << (u3?"not null":"null") << '\n';
  std::cout << "u4: " << (u4?"not null":"null") << '\n';
  std::cout << "u5: " << (u5?"not null":"null") << '\n';
  std::cout << "u6: " << (u6?"not null":"null") << '\n';
  std::cout << "u7: " << (u7?"not null":"null") << '\n';
  std::cout << "u8: " << (u8?"not null":"null") << '\n';

 *emphasized text* return 0;

The line:

 std::cout << "u1: " << (u1?"not null":"null") << '\n';

shows the unique_ptr u1 being directly cast to false if it is tracking a null pointer.

I have seen this behaviour used in other custom classes. How is this managed and what operator decides whether a direct cast to bool such as this returns true or false?

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There is no cast in that code. There is an implicit conversion. A cast is something you write in your code to tell the compiler to do a conversion. –  Pete Becker Feb 7 '13 at 17:25

3 Answers 3

up vote 5 down vote accepted

It is implemented as a member conversion operator of the form explicit operator bool() const;. Whether it returns true or false is implemented in the logic of the class itself. For example, this class has an bool conversion operator that returns true if it's data member has value 42, and false otherwise:

struct Foo
  explicit operator bool() const { return n==42; }
  int n;

#include <iostream>

int main()
  Foo f0{12};
  Foo f1{42};

  std::cout << (f0 ? "true\n" : "false\n"); 
  std::cout << (f1 ? "true\n" : "false\n"); 
share|improve this answer
+1 because you said explicit and the other guy didn't. C++03 doesn't have explicit conversions, and because of that conversion operators to bool caused two annoying problems. explicit is the solution to those, so it's really quite important. –  Steve Jessop Feb 7 '13 at 16:47
+1 because by ignoring C++03 you did not fall in to the same pitfall other answers felt into when they provided an unsafe bool conversion. –  David Rodríguez - dribeas Feb 7 '13 at 16:50
Btw, for the love of all that is good and pure please return i == 42; ;-) –  Steve Jessop Feb 7 '13 at 16:50
@SteveJessop : At least it isn't return ((bool(i==42)==true) ? true : false); –  Robᵩ Feb 7 '13 at 16:54
@Steve Please refresh the page first. I was iteratively editing my answer. –  Bartek Banachewicz Feb 7 '13 at 16:54
operator bool();

It's a standard cast-operator to type bool.

Here's an example of how to use it:

class Checked
    bool state;

    Checked(bool _state) : state(_state) { }

    explicit operator bool() const {
        return state;

Checked c (true);
if (c)
    cout << "true";

Note the explicit keyword. It appeared in C++11 and allows safe conversion of the class to bool, which happens, in short, in the logical context such as if(), while() etc. Without the explicit, bad things could happen, as there's an implicit conversion of bool to numeric types. In C++03 and older it's safer to overload operator ! (), which then is tested as if (!!c).

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A conversion operator is used for this functionality:

operator bool(){ return false; }

In C++11 you can also make them explicit

explicit operator bool(){ return true; }

Implicit conversion operators are an error prone endeavour. Consider if unique_ptr had an implicit conversion operator to bool, you could do nonsensical things like...

std::unique_ptr<Thing> x;
int y = 7 + x;

In the above case y would equal 7 + (0 if x is null or 1 if x is non-null)

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