Assignment operator (C++)
In the C++ programming language, the assignment operator, =, is the operator used for assignment. Like most other operators in C++, it can be overloaded.
The copy assignment operator, often just called the "assignment operator", is a special case of assignment operator where the source (right-hand side) and destination (left-hand side) are of the same class type. It is one of the special member functions, which means that a default version of it is generated automatically by the compiler if the programmer does not declare one. The default version performs a memberwise copy, where each member is copied by its own copy assignment operator (which may also be programmer-declared or compiler-generated).
The copy assignment operator differs from the copy constructor in that it must clean up the data members of the assignment's target (and correctly handle self-assignment) whereas the copy constructor assigns values to uninitialized data members.[1] For example:
My_Array first; // initialization by default constructor
My_Array second(first); // initialization by copy constructor
My_Array third = first; // Also initialization by copy constructor
second = third; // assignment by copy assignment operator
Return value of overloaded assignment operator
[edit]The language permits an overloaded assignment operator to have an arbitrary return type (including void). However, the operator is usually defined to return a reference to the assignee. This is consistent with the behavior of assignment operator for built-in types (returning the assigned value) and allows for using the operator invocation as an expression, for instance in control statements or in chained assignment. Also, the C++ Standard Library requires this behavior for some user-supplied types.[2]
Overloading copy assignment operator
[edit]When deep copies of objects have to be made, exception safety should be taken into consideration. One way to achieve this when resource deallocation never fails is:
- Acquire new resources
- Release old resources
- Assign the new resources' handles to the object
class My_Array{
int* array;
int count;
public:
My_Array& operator=(const My_Array& other)
{
if (this != &other) { // protect against invalid self-assignment
// 1: allocate new memory and copy the elements
int* new_array = new int[other.count];
std::copy(other.array, other.array + other.count, new_array);
// 2: deallocate old memory
delete[] array;
// 3: assign the new memory to the object
array = new_array;
count = other.count;
}
// by convention, always return *this
return *this;
}
// ...
};
However, if a no-fail (no-throw) swap function is available for all the member subobjects and the class provides a copy constructor and destructor (which it should do according to the rule of three), the most straightforward way to implement copy assignment is as follows:[3]
public:
void swap(My_Array& other) // the swap member function (should never fail!)
{
// swap all the members (and base subobject, if applicable) with other
using std::swap; // because of ADL the compiler will use
// custom swap for members if it exists
// falling back to std::swap
swap(array, other.array);
swap(count, other.count);
}
My_Array& operator = (My_Array other) // note: argument passed by value!
{
// swap this with other
swap(other);
// by convention, always return *this
return *this;
// other is destroyed, releasing the memory
}
Assignment between different classes
[edit]C++ supports assignment between different classes, both via implicit copy constructor and assignment operator, if the destination instance class is the ancestor of the source instance class:
class Ancestor {
public:
int a;
};
class Descendant : public Ancestor {
public:
int b;
};
int main()
{
Descendant d;
Ancestor a(d);
Ancestor b(d);
a = d;
}
Copying from ancestor to descendant objects, which could leave descendant's fields uninitialized, is not permitted.
See also
[edit]- Operator overloading
- Move assignment operator
- Rule of three (C++ programming)
- Operators in C and C++
References
[edit]- ^ Stroustrup, Bjarne (2000). The C++ Programming Language (3 ed.). Addison-Wesley. p. 244. ISBN 978-0-201-70073-2.
- ^ Working Draft, Standard for Programming Language C++, Section 17.6.3.1, Table 23; http://www.open-std.org/jtc1/sc22/wg21/docs/papers/2012/n3337.pdf
- ^ Sutter, H.; Alexandrescu, A. (October 2004), C++ Coding Standards, Addison-Wesley, ISBN 0-321-11358-6
External links
[edit]- The Anatomy of the Assignment Operator, by Richard Gillam
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