I'm trying to design a bool wrapper struct applying the safe bool idiom.
The classic implementation to solve this is pretty trivial: the skeleton could be something like this:

struct Bool final
  Bool() = default;

  Bool(bool value)
    : _value{value}

  explicit operator bool() const {
    return _value;

  bool _value{false};

The part I'm trying to improve is how Bool is constructed.
For example I want to avoid implicit narrowing by design:

Bool b1(45); // yields warnings, but it compiles
Bool b2{3};  // not ok by standard

I tried to hurt myself using templates, but without success.

How could I make it work?

  • 3
    You may also want to look at some prior art regarding safe bool. For example, this page goes through the process of making a safe bool and explaining some of the pitfalls which one can run into along the way (for example, an operator bool comes with some unintended side effects that other cast operators can avoid)
    – Cort Ammon
    Jan 16, 2017 at 23:23
  • Thank you! I'll definitely take a look at it! Jan 17, 2017 at 5:38

4 Answers 4


You can achieve this by explicitly deleting all other constructors.

struct Bool final
    template<class T>
    Bool(T) = delete;

    Bool(bool value);
  • 1
    where was the declaration of _value? did you omit that for brevity?
    – cat
    Jan 16, 2017 at 23:27
  • 2
    That code will also delete the default constructor (implicitly), right?
    – simon
    Jan 17, 2017 at 15:35
  • 5
    @gurka See default constructor. "If no user-declared constructors of any kind are provided for a class type[...], the compiler will always declare a default constructor as an inline public member of its class.". Simply providing Bool(bool value) is enough to delete the default constructor. Jan 17, 2017 at 15:39
  • 1
    So simple, so elegant.
    – jabujavi
    Jan 17, 2017 at 17:08
  • 1
    @AdvSphere As you pointed out, explicit won't prevent Bool foo{true};, neither would it prevent Bool foo{1};. This second case is what OP was trying to prevent. By deleting the constructor template, you prevent Bool foo{1};, because it would bind to a deleted constructor. Jan 26, 2018 at 19:18

Add, and explicitly delete a template constructor:

template <typename T>
Bool(T) = delete;

It matches anything other than actual bool better than other constructors, and will thus prevent implicit conversion.

  • 5
    "anything other than actual bool" -- and Bool: this doesn't, and probably shouldn't, disable the compiler-generated copy and move constructors.
    – user743382
    Jan 16, 2017 at 21:18

If you just need:
A variable that is only "true" or "false" and cannot be implicitly converted to int/char/pointer then I would look at using an enum class:

enum class Bool {

I'm trying to design a bool wrapper struct applying the safe bool idiom.


The safe bool idiom is only relevant in C++03 and earlier - where if you express that your type is "truthy" by doing something like:

struct A {
    operator bool() const;

you'd run into all sorts of issues like:

A{} + 4;    // ok?!
A{} < 0;    // ok?!
A{} == B{}; // ok if B also has operator bool??!

So the safe bool idiom was a solution to this accidental implicit conversion problem, using function pointers (of course, function pointers!).

In C++11, we have a way better solution:

struct A {
    explicit operator bool() const;

which does exactly what we want. In fact, it was literally designed to solve this problem. And while the safe bool idiom is fairly complicated scaffolding, explicit operator bool is super straightforward to use and just does the Right Thing. You don't need a wrapper for it - it's actually harder to use your wrapper than to write the explicit operator bool directly.

Moreover, your wrapper imposes on the user (a) non-derivability because you made Bool final and (b) an extra bool member, that you have to keep in sync, so it introduces rather than solves problems. Consider how much more work it would be for you to implement:

template <class T>
struct my_unique_ptr : Bool { ... };


template <class T>
struct my_unique_ptr {
    T* ptr;

    explicit operator bool() const { return ptr; }

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