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I understand what a double exclamation mark does (or I think I understand) but I am not sure how it is defined on a random object. For example in the code snippet below:

Assignment *a;
if (!getAssignment(query, a))
   return false;
hasSolution = !!a;

if (!a)
   return true;

How do I know what value will the double exclamation mark result in ? In other words does it always convert to true ? false ? or can you define a behavior for it such as executing a method to determine the result (how does the object know how to act in this situation) ? I am bit confused about this piece of code due to all these exclamation stuff going on.. Any explanation is appreciated.

Hope I was clear and thanks.

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!! in C++ is an anti-pattern, that’s all. –  Konrad Rudolph Jul 7 '12 at 12:49
@Konrad : I disagree -- it's not an anti-pattern, it's a pattern that allows for overloading only operator! instead of both operator! and operator bool (or some safe-bool idiom). –  ildjarn Jul 7 '12 at 15:42
@ildjarn How does that make it not an anti-pattern? Do overload a boolean operator when it makes sense. And when it doesn’t, don’t overload operator! either. They come in pairs. Exclusively. –  Konrad Rudolph Jul 7 '12 at 15:54
@Konrad : Only for the few who know how to properly implement the safe-bool idiom. ;-] Not everyone is an expert, and !! is not unreadable or confusing. –  ildjarn Jul 7 '12 at 15:55
@ildjarn I find it both, and if you are incapable of implementing a boolean operator (especially in C++11, but even before) you should keep your fingers off operator overloading completely. Ignorance of established idioms is no excuse to write or condone crap code, sorry. –  Konrad Rudolph Jul 7 '12 at 16:00

7 Answers 7

up vote 5 down vote accepted

a is a pointer. In C++, nullptr is defined to be an invalid pointer. !pointer turns a nullptr pointer into true and a non nullptr pointer into false. !boolean turns true into false and false into true. It will always work.

!(!a) is a useful way to think of it.

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I have changed the 0 into NULL to avoid some common confusion that a NULL pointer must have binary value 0 (it does not, a 0 integer constant is implicitly convertible to a NULL pointer, but there is no guarantee on the representation of NULL) –  David Rodríguez - dribeas Jul 7 '12 at 12:45
NULL is NOT defined to be an invalid pointer, it is defined be false in logical context. a = NULL; is perfectly legal. The easiest way to remember !!a is to narrow a!=0 to 1 and a==0 to 0. –  rurban Jul 7 '12 at 18:59
Using 0 for the canonical invalid pointer is legal in C++ and historically used as the standard. NULL is an artifact from C that is only supported as part of C standard library compatibility. It was not recommended to use NULL within C++. To avoid an unnecessary argument, I'll switch it to nullptr which is a keyword in C++11. –  Jeffery Thomas Jul 8 '12 at 0:06

Don't think of it as "double exclamation mark", think of it as two separate operators, one running on the result of the other.

For all primitive types, it will "work". !a is equivalent to a == 0, so !!a is equivalent to !(a == 0), which in turn is equivalent to a != 0.

For user-defined types, it won't compile unless they overload operator !. But obviously, in this case, the behaviour could be almost anything.

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!! is not a single token in C++ and simply resolves to applying the ! operator twice.

As a is a pointer and not an object of class type the ! cannot be overloaded. It is defined to return true if a is a null pointer and false otherwise.

The second application of ! simply negates the result of the first !.

The expression !!a is equivalent to a != 0.

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The code is horribly complicated. In reality, you want to test whether the getAssigment method is successful and whether the assigned pointer is non-null.

The code tests that, albeit in a convoluted fashion, taking advantage of weak typing, rather than trying to embrace explicitness and C++’ strong typing. As a consequence, it’s not idiomatic C++ and rather harder to understand than necessary.

In particular, don’t use !!a in C++. This is an established idiom in weakly-typed languages such as JavaScript to coerce a value into a boolean type. But in C++, this is not commonly used.

It’s not clear what the code does since hasSolution isn’t defined or used. However, I suspect that the code is supposed to be equivalent to the following:

Assignment *a;
return getAssignment(query, a) and a == nullptr;

(Before C++11, you need to write 0 instead of nullptr.)

However, this code still reveals a bad design: why is a passed by reference? Why isn’t it the return value? Worse, a is never used, so unnecessary. If a is indeed unnecessary, it should be left out completely. If it’s necessary, it should be the return value. In other words, the prototype of getAssignment should be as follows:

Assignment* getAssignment(the_type_of_query query);

And it should be used simply as follows:

Assignment* a = getAssignment(query);

Furthermore, I suspect that this code actually assigns memory ownership to the raw pointer a. This is strongly discouraged in modern C++. Either use no pointers or a smart pointer.

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bool result = true; 
result = !!result; // result = true, e.g. !result is false, !!result is !false.
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There is no "!!" operator, so in fact, the statement is equivalent to:

hasSolution = !(!a);

So first, operator!() is called on expression "a", then another operator!() is called on the result. In the case of our code, "a" is a pointer to Assignement. C++ defines a special case for using operator!() on a pointer type: it returns a bool which is true if the pointer is null and false otherwise. In short, the same as the expression (a == 0). Calling operator!() on the result of (!a), which is a bool, simply reverts the result, i.e. returns true if (!a) is false and false if (!a) is true.

So in conclusion, (!!a) return the same result as (a != 0). This is because "a" is a pointer.

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The easiest way to remember double-negation !!a is to narrow a!=0 to 1 and a==0 to 0. Which is in boolean context (i.e. C++) true or false.

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