57

I was writing some code today and got a weird compile error, which seems to be caused by initializing member variables in a different order than they were declared.

Example:

class Test {
    int a;
    int b;

public:
    Test() : b(1), a(2) {
    }
};

int main() {
    Test test;
    return 0;
}

Then if I compile it with -Werror -Wall:

$ g++ -Werror -Wall test.cpp
test.cpp: In constructor ‘Test::Test()’:
test.cpp:3:9: error: ‘Test::b’ will be initialized after [-Werror=reorder]
test.cpp:2:9: error:   ‘int Test::a’ [-Werror=reorder]
test.cpp:6:5: error:   when initialized here [-Werror=reorder]
cc1plus: all warnings being treated as errors

I realize that -Wall is explicitly asking GCC to go over-the-top with warnings, but I assume there's a reason for all of them. So, how could the order of initializing member variables matter?

85

The reason is because they're initialized in the order they're declared in your class, not the order you initialize them in the constructor and it's warning you that your constructor's order won't be used.

This is to help prevent errors where the initialization of b depends on a or vice-versa.

The reason for this ordering is because there is only one destructor, and it has to pick a "reverse order" to destroy the class member. In this case, the simplest solution was to use the order of declaration within the class to make sure that attributes were always destroyed in the correct reverse order.

  • But where all the values used for initialization are literals/constants, it isn't possible for the values to depend on each other, so the compiler could just Do What I Mean (ie use the class declaration order) and not care, right? Making a human match up 2 lists for no practical reason doesn't seem like a good use of anyone's time... – Gijs Oct 7 at 20:41
43

Why should I initialize member variables in the order they're declared in?

The members will be initialized in the same order they are declared, whether you want it or not. The warning is telling you that the order you are asking for differs from the actual order of execution of initialization.

  • 4
    +1 for a succinct, to-the-point answer that doesn't use the word "compiler". – Kerrek SB Aug 31 '12 at 21:17
  • 1
    Nice answer. Can we assume that this is just the C++ standard making sure all constructors compile deterministically, or is there some technical/performance reason that members should always be initialized in the order they're declared? – Xavier Holt Aug 31 '12 at 21:20
  • 5
    @XavierHolt: In the language, for all but dynamically allocated objects, the order of construction and destruction is reversed. If the order of initialization was determined by the initializer list then the order of initialization in a class with multiple constructors would not be defined and the order of destruction of the members would not be defined either. The reason why the order of construction/destruction is reversed is to ensure that if an object depends on another, the second will not be destroyed before the first. – David Rodríguez - dribeas Aug 31 '12 at 21:33
  • @DavidRodríguez-dribeas - Aha! That is a good reason - and one I wouldn't have thought of. Thanks! – Xavier Holt Aug 31 '12 at 21:39
33

You shouldn't because it decreases readability and is potentially misleading.

If you did:

Test() : b(1), a(b) {}

it would appear that b then a were both set to 1, whereas actually the uninitialized value of b is used to initialize a before b is initialized to 1.

  • 4
    +1 for the example to show why the order really matters and what can go wrong in case someone assumes the ordering is what they have declared in the constructor. – atuljangra Oct 25 '16 at 0:50
12

Actually the compiler always initializes the variables in the order of declaration, even if you write the initializers in a different order. Therefore if you don't write the initializations in the order of declaration, the order of your initializers does not fit the order of initialization, which may lead to subtle bugs if the initialisations depend on each other.

For example, consider the code

Test(): b(42), a(b) {}

This is a bug because a is initialized before b, but it looks OK. If you write it in the order of declaration (which is the order of initialization), the bug gets obvious:

Test(): a(b), b(42) {}

Note that the bug can also be subtler than that; for example imagine a and b are class types which output something in their constructor; then with the "incorrect" order you'd think that b's output should appear before a's when in reality the reverse will happen. If a's output appearing first will lead to an invalid file, that's also a bug, but there's no way the compiler could notice the problem if the constructors are in another translation unit (apart from the fact that the compiler cannot know if reordering is or is not a bug). Therefore it's reasonable that the compiler just warns about every instance of non-matching order.

5

I realize that -Wall is explicitly asking GCC to go over-the-top with warnings, but I assume there's a reason for all of them.

-Wall is just a start. Contrary to what the name implies, -Wall does not enable all warnings. There are some warnings that are arguably "over the top", but those are precisely the warnings that -Wall does not enable. I always use -Wall plus others.

As for your complaint, as others have already noted, there is a very good reason for this warning. Just because you specify an order does not mean the compiler will use that order. The order that the compiler must use per the standard is based upon the class definition.

0

Initializer list gives the flexibility of initializing variables in any order. However, the actual initialization happens according to the order in which you have declared the class members. To avoid this warning you have to re-order the initialization/declaration.

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