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I want to define a class whose instances can be constructed, implicitly constructed, or assigned from an integer constant zero, but not from any other numeric constant, and not from a variable with integer type (even if its value happens to be zero at runtime). It should also be copy-constructible from other instances of the same class. Use of C++11 features is okay as long as they're supported (in the appropriate mode) by both g++ 4.6 and MSVC 2010.

Concretely, given

class X { /* ... */ };
void fn(X);

these should all compile:

X a(0);
X b = 0;
X c; c = 0;
X d = a;
X e; e = a;
fn(0);

but these should not:

X f(1);
X g = 1;
X h; h = 1;
fn(1);

int ii = 23;
X a(ii);
X j = ii;
X k; k = ii;
fn(ii);

I tried this, but it didn't work:

class X {
public:
   X() {} 
   constexpr X(int v) { static_assert(v == 0, "must be initialized from zero"); }
};

test.cc: In constructor ‘constexpr X::X(int)’:
test.cc:3:29: error: non-constant condition for static assertion
test.cc:3:29: error: ‘v’ is not a constant expression
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6  
Okay. What's the use case? –  Cat Plus Plus Mar 13 '12 at 20:13
3  
Why not use a default constructor instead? –  Kerrek SB Mar 13 '12 at 20:16
    
The use case is long and complicated and not really all that relevant. Suffice to say that X has some similarities with a number (the full class defines some manifest constants and some arithmetic operators) but the only point of overlap with numeric literals is zero. Default construction is fine and all, but in some cases (like passing the argument of fn) it is more natural to write a zero. –  Zack Mar 13 '12 at 20:34
1  
I don't understand... remove the default constructor and throw an exception if it isn't 0. Why does that not work? –  user195488 Mar 13 '12 at 20:52
1  
@0A0D I want mis-initialization to be a compile error, not a runtime error. –  Zack Mar 13 '12 at 22:21
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3 Answers

up vote 2 down vote accepted

If require C++0x, you could use std::nullptr_t:

class X
{
public:
  X () { }
  X (std::nullptr_t) { }
  void operator= (std::nullptr_t) { }
};

Well, with the downside that X becomes initializable with nullptr too, of course.

share|improve this answer
    
This might be acceptable if no one can come up with anything better. –  Zack Mar 13 '12 at 22:28
    
There's no particular reason to use nullptr_t, you can just as well define a zero class of its own that can't be casted to anything else. Using nullptr when the object is not pointer-like would strongly violate the ᴘʀɪɴᴄɪᴘʟᴇ ᴏꜰ ʟᴇᴀꜱᴛ ꜱᴜʀᴘʀɪꜱᴇ. –  leftaroundabout Mar 14 '12 at 13:08
    
@leftaroundabout If I understand what you're proposing correctly, it would not allow people to write "X(0)", which is a requirement. nullptr_t has the unusual property of being implicitly convertible from an integer constant with value 0, but from no other integer constant; this happens to be exactly what I want. –  Zack Mar 14 '12 at 19:50
    
@Zack: Indeed, it wouldn't allow that. I didn't expect your idea was actually using X(0), since I don't think it would work reliable: calling a f(std::nullptr_t); with f(0) is not standard-conformant, is it? f(NULL) is guaranteed to work, but the NULL macro is not required to be simply 0. May not be relevant right now, but as nullptr is the recommended keyword now I'd expect compilers to produce at least warning messages when doing such function calls in the future. –  leftaroundabout Mar 14 '12 at 20:15
    
Last sentence in C++11 (well, N3337) 4.10p1: "A null pointer constant of integral type can be converted to a prvalue of type std::nullptr_t." So yes, calling f(std::nullptr_t) as f(0) is conforming. I certainly hope no such warnings ever materialize; it is my strongly held opinion that the correct way to write a null pointer is either 0, or in the very rare cases where that doesn't work, (TYPE *)0 for some concrete TYPE. (Put another way, I approve of the addition of nullptr_t, but not nullptr itself.) –  Zack Mar 14 '12 at 20:28
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You need to replace (v == 0) with a constant expression...

Something like

constexpr bool is_zero_construct(size_t number)
{
  return number == 0;
}

constexpr X(int v) { static_assert(is_zero_construct(v), "must be initialized from zero"); }
share|improve this answer
    
Doesn't help: v itself is still not a constexpr, so it objects to the call to is_zero_construct. Changing int v to int constexpr v gets me "error: a parameter cannot be declared constexpr". –  Zack Mar 13 '12 at 22:25
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You could make use of the fact that only 0 can be implicitly converted to a pointer:

struct X {
  X();
  X(void*);
};

This fulfills your requirements, but of course allows initialization with a pointer as well.

share|improve this answer
    
Accidental initialization with a pointer is much less likely in context than accidental initialization with a nonzero integer constant, but I would still prefer to rule it out if possible. –  Zack Mar 13 '12 at 22:26
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