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While learning the concept of "copying members", the book gives the following statement.

In addition, a default assignment cannot be generated if a nonstatic member is a reference, a const,or a user-defined type without a copy assignment.

I do not quite understand what does this statement really want to deliver? Or which kind of scenario does this statement refer to? Thanks.

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1  
Which book ist it? –  Tamer Shlash Mar 16 '11 at 3:24

4 Answers 4

up vote 2 down vote accepted

This statement has to do with the compiler automatically generating the default assignment operator function for a class you write (i.e. user-defined type). The default assignment works by copying all the members over to a new instance. This statement covers three cases where a default assignment would not be able to be generated:

1) When a member is a reference (i.e. refers to an instance of a variable, like a pointer)

class Foop {
    int& reference;
};

2) When a member variable is constant

class Foople {
    const int someConst;
};

3) When some other class does not have a copy-constructor and you have a member variable of that type, obviously it cannot be copied using the default method (which uses copy-constructors)

class Uncopyable {
private:
    Uncopyable(Uncopyable const& other);
};

class Fleep {
    Uncopyable uncopyable;
};

In these cases, you would need to write your own assignment operator (or possibly do without).

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If you have a member in your class which is not static (shared between all instances of class), and is either

  1. a reference (high level pointer)
  2. a constant
  3. a user-defined type with dynamic data (the same as the class we're talking about)

The default = operator and copy constructor is no longer valid and you should write manual versions of those.

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The copy constructor mentioned in the quote is for the other class from which we instantiate a member, meaning that the = operator is valid only if the other class has a copy constructor, not the copy constructor of the class we are talking about. –  Tamer Shlash Mar 16 '11 at 3:29
    
Class1 obj=obj_of_class2; //this = calls the copy constructor –  AbiusX Mar 16 '11 at 3:35
class ClassA
{
    int& _myReferenceMember;
    const int _myConstant;
    ClassB _objWhereClassBHasNoCopyConstructor;
}

Above are examples of the three cases you described. And as you quoted, you must write a custom copy constructor (if you want a copy constructor at all) in such a case, or change your member variables.

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It refers to the distinction between:

class A { int a; };

and

class B { int& a; };

For class A, the compiler will generate an implicit assignment operator (=), but in the case of B, it cannot. This is because references in C++ don't have pointer semantics. i.e. you cannot change what a reference point to after it is constructed, hence, the implicit copy constructor would not be able to copy that member. The same thing goes for const members (which are explicitly marked as being immutable) and members which don't have a assignment operators (implicit or explicit).

The default assignment operator for A would essentially do this:

class A
{
   A& operator=(A const& a_) { a = a_.a; }
   int a;
};
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