With C++11, we now have the ability to initialize class members in a header declaration:

class aClass
        int mInt{100};

So I'm a bit confused. Traditionally initialization lists in constructors have been used for member initialization:

: mInt(100)

Has the new C++11 member initialization feature at declaration made initialization lists obsolete? If not, what are the advantages of one over the other? What situations would make initialization at declaration advantageous, or initialization lists advantageous? When should one be used over the other?

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    Obviously not. Consider constructor arguments. – Rob Kennedy Jun 10 '14 at 20:06
  • @RobKennedy-IMO not exactly correct: AFAIK, if you have a constructor with parameters, anything you do with its arguments in an initialization list can also be done in the body of a constructor with same members (albeit often with a bit more code). Using arguments to a constructor in an initialization list is not really very useful-it doesn't really seem to make much make sense: You pass arguments into a constructor like other functions: You're going to use them in the body of the function. Initialization lists are for initialization: setting defaults, constants,etc. – Vector Jun 11 '14 at 8:37
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    That's not true. A const member variable cannot be initialized in the constructor body; it must be initialized in the initialization list. Furthermore, there's nothing about the notion of "initialization" that precludes using run-time values, such as those from arguments. My constructor bodies are frequently empty because I've used the arguments to initialize members directly. Besides, if your argument for why initialization lists are obsolete is that we can just use the constructor body instead, then they were obsolete before C++11, too, and your question's premise falls apart. – Rob Kennedy Jun 11 '14 at 15:27
  • @RobKennedy - const members is a good case, agreed. if your argument for why initialization lists are obsolete... - not exactly: initialization lists allow you to use constructors with arguments to initialize your values, but in the body you have to call a method setValue(T) - the member has already been initialized with the default constructor when you pass the argument. But you can also do that with initialization in a header, just like in initialization lists. – Vector Jun 11 '14 at 17:35
  • Down-voter - please explain. Unexplained down-votes are not very constructive... Part of the answer to this question is fairly obvious, true - other parts, not so much... – Vector Dec 8 '14 at 19:09

No, they are not obsolete as this article Get to Know the New C++11 Initialization Forms says in the Class Member Initialization section (emphasis mine):

Bear in mind that if the same data member has both a class member initializer and a mem-init in the constructor, the latter takes precedence. In fact, you can take advantage of this behavior by specifying a default value for a member in the form of a class member initializer that will be used if the constructor doesn't have an explicit mem-init for that member. Otherwise, the constructor's mem-init will take effect, overriding the class member initializer. This technique is useful in classes that have multiple constructors

So although in class member initialization is a nice convenience it does not remove the need for initialization lists but both features instead work together to give you a nice way to specify default values and override them when needed. This seems to be also how Bjarne Stroustrup sees it too, he says:

This saves a bit of typing, but the real benefits come in classes with multiple constructors. Often, all constructors use a common initializer for a member:

and provides an example of members which have a common initializer:

class A {
    A(): a(7), b(5), hash_algorithm("MD5"), s("Constructor run") {}
    A(int a_val) : a(a_val), b(5), hash_algorithm("MD5"), s("Constructor run") {}
    A(D d) : a(7), b(g(d)), hash_algorithm("MD5"), s("Constructor run") {}
    int a, b;
    HashingFunction hash_algorithm;  // Cryptographic hash to be applied to all A instances
    std::string s;                   // String indicating state in object lifecycle

and says:

The fact that hash_algorithm and s each has a single default is lost in the mess of code and could easily become a problem during maintenance. Instead, we can factor out the initialization of the data members:

class A {
    A(): a(7), b(5) {}
    A(int a_val) : a(a_val), b(5) {}
    A(D d) : a(7), b(g(d)) {}
    int a, b;
    HashingFunction hash_algorithm{"MD5"};  // Cryptographic hash to be applied to all A instances
    std::string s{"Constructor run"};       // String indicating state in object lifecycle

Note: disadvantage in C++11

There is one disadvantage to using in class member initialization in C++11 since it makes a class a non-aggregate we can no longer use aggregate initialization which may be rather surprising. This is not the case in C++14 where this restriction was removed. See: C++11 aggregate initialization for classes with non-static member initializers for more details.

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    I think I would have also defaulted a and b, I wonder why Bjarne didn't? – Mooing Duck Jun 10 '14 at 22:14
  • @MooingDuck well a and b have different values across the different constructors and therefore do not have the same default value in each case. This is consistent with his logic. – Shafik Yaghmour Jun 10 '14 at 23:06
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    a and b have differing values sure, but they do have the same default in each case. 7->a and 5->b. It's just that sometimes the default is overridden. – Mooing Duck Jun 10 '14 at 23:25
  • @MooingDuck that is a reasonable view but since it is a sparsely defined example, I don't have a strong view either way. – Shafik Yaghmour Jun 11 '14 at 2:52

No, they are not obsolete.

Initialization lists are still the only way to go if you need constructors arguments to initialize your class members.

class A
 int a=7; //fine, give a default value

class B
 int b; 
 B(int arg) : b(arg) {}

 B(int arg, bool b) : b(arg) { ... }

Note that if both are present, the constructor's init will take effect, overriding the class member initialization, which is useful to specify a default value for a class member.

  • Not sure I understand: What's wrong with this: B(int arg, bool b) {this->b=arg; ... }? No initialization list necessary. IMO using arguments to a constructor in an initialization list is not really very useful-it doesn't really seem to make much make sense: You pass arguments into a constructor like other functions: You're going to use them in the body of the function. Initialization lists are for initialization: setting defaults, constants,etc – Vector Jun 11 '14 at 8:34
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    @Vector I disagree here. Why waste time initialising a data member (and a class-type data member will always be initialised) only to assign to it immediately after? Not to mention non-assignable types (e.g. const, references), which have to be "set up" by initialising. An mem-initialiser-list is for initialising, which the constructor should do. It shouldn't assign unless it needs to. – Angew is no longer proud of SO Jun 11 '14 at 11:50
  • @Angew - Why waste time initialising... I'd say "maybe" on that.. But const values are a good point. – Vector Jun 11 '14 at 17:37

The way I look at it, in-class initialization is an ehancement of mem-initializer-lists. In C++03, members not listed in a mem-initializer-list were always default initialised. This means the default constructor for classes, and no initialization for primitive types.

In-class initialization simply allows you to specify your own defaults. There are two ways to look at it.

One: if most/all constructors of your class want to provide the same initial value for a member, use an in-class initializer for that member. For other members, use mem-initializer-lists. You'll of course have to use those whenever the initial value depends on constructor arguments.

The other one: provide an in-class initializer for all members, exactly how the default constructor of your class would initialise them. Then, mem-initializer-lists in non-default constructors get the semantics of "how it differs from a default-constructed object."

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